This document provides an introduction and overview of Bicon cable glands manufactured by Prysmian Group. It discusses the company's expertise in cable glands spanning over 100 years. The document outlines the types of industrial and hazardous area cable glands available, including materials like brass, aluminum, and LSOH. Selection charts provide guidance on choosing the correct gland based on factors like cable type, diameter, location, and environment.
CCS - liquid logistics shipping concept - Anthony Veder VopakGlobal CCS Institute
The document provides preliminary results from a study on liquid logistic shipping concepts for transporting carbon dioxide (CO2). Key lessons learned include that engineering should start at the storage site, multiple emitters can be combined in a network, and liquefaction is an optimal condition for CO2 transport. Shipping sizes between 10,000-30,000 cubic meters are suitable. Transportation costs may range from €20-120 per tonne depending on distance and flow rates, and combining emitters is important to make carbon capture and storage affordable.
The document discusses CCS activities in Qatar and their relevance to the GCC region. It outlines Qatar's policy on CCS, including its support for including CCS projects under the Clean Development Mechanism. It also summarizes Qatar's carbon storage research through the Qatar Carbonates and Carbon Storage Research Centre, which conducts fundamental research on carbon storage in carbonate reservoirs over 10 years with $70 million funding. The research aims to improve oil recovery and carbon storage through reservoir characterization, pore/fracture scale modeling, and developing integrated simulation tools.
This document provides an overview of safety and environmental management practices in the upstream oil and gas industry. It discusses the health, safety, and environmental policy of ONGC, terms used in the industry, causes of accidents, major activities (drilling, production, exploration), and safety practices for each. It also covers risk assessment and analysis, technologies to enhance fire and life safety, and concludes by emphasizing the importance of addressing potential health risks early in project planning processes.
Guido van den Belt (Head of Management Services Germany, OutSmart GmbH) presented a case study Building Your ISO 55000 Asset Management Quickly at the Asset Management for Power Utilities Conference in Prague on 23rd February 2016. He focused on the advantages of ISO 55000 for wind energy assets and how to create a world-class asset management system.
Process Engineering Consultancy Services in Oil & Gas and Power Generation se...Luca Finardi
Luca Finardi offers process engineering consultancy services for the natural gas and power generation industries. His services include conceptual design, basic design, and process design. Some specific services mentioned are technology assessment, simulations, heat and material balances, equipment sizing, and support for hazard and operability studies. Finardi has over 28 years of experience in designing natural gas and power plants.
CCS - liquid logistics shipping concept - Anthony Veder VopakGlobal CCS Institute
The document provides preliminary results from a study on liquid logistic shipping concepts for transporting carbon dioxide (CO2). Key lessons learned include that engineering should start at the storage site, multiple emitters can be combined in a network, and liquefaction is an optimal condition for CO2 transport. Shipping sizes between 10,000-30,000 cubic meters are suitable. Transportation costs may range from €20-120 per tonne depending on distance and flow rates, and combining emitters is important to make carbon capture and storage affordable.
The document discusses CCS activities in Qatar and their relevance to the GCC region. It outlines Qatar's policy on CCS, including its support for including CCS projects under the Clean Development Mechanism. It also summarizes Qatar's carbon storage research through the Qatar Carbonates and Carbon Storage Research Centre, which conducts fundamental research on carbon storage in carbonate reservoirs over 10 years with $70 million funding. The research aims to improve oil recovery and carbon storage through reservoir characterization, pore/fracture scale modeling, and developing integrated simulation tools.
This document provides an overview of safety and environmental management practices in the upstream oil and gas industry. It discusses the health, safety, and environmental policy of ONGC, terms used in the industry, causes of accidents, major activities (drilling, production, exploration), and safety practices for each. It also covers risk assessment and analysis, technologies to enhance fire and life safety, and concludes by emphasizing the importance of addressing potential health risks early in project planning processes.
Guido van den Belt (Head of Management Services Germany, OutSmart GmbH) presented a case study Building Your ISO 55000 Asset Management Quickly at the Asset Management for Power Utilities Conference in Prague on 23rd February 2016. He focused on the advantages of ISO 55000 for wind energy assets and how to create a world-class asset management system.
Process Engineering Consultancy Services in Oil & Gas and Power Generation se...Luca Finardi
Luca Finardi offers process engineering consultancy services for the natural gas and power generation industries. His services include conceptual design, basic design, and process design. Some specific services mentioned are technology assessment, simulations, heat and material balances, equipment sizing, and support for hazard and operability studies. Finardi has over 28 years of experience in designing natural gas and power plants.
The document provides an overview of power generation in Bangladesh, including different types of power plants. It discusses the Barapukuria coal power plant, including its key components like the boiler, turbine, and generator. It also describes the Katakhali oil power plant and its diesel engines and generators. Finally, it outlines the Baghabari gas power plant and components of the gas turbine system like the compressor and turbine. The document thus summarizes different fossil fuel power generation technologies used in Bangladesh.
Nükleer Reaktörler Tipleri, Yakıt Çevrimi ve Kullanılmış YakıtlarProf.Dr. İbrahim USLU
Nükleer enerji, Nükleer reaktör tipleri, Nükleer reaktörlerin termik santral ile karşilaştırılması, Nükleer yakıtlar, Kimyasal - Nükleer yanma reaksiyonu karşılaştırılması, Açık tip – kapalı tip nükleer santraller, Dünyada nükleer santral kazaları, Nükleer Santral Güvenliği, Yaygın Nükleer Santral Tipleri, İleri tasarım nükleer santraller, Nükleer Yakıt Çevrimi, Sarı pastanın gaz UF6’ya dönüştürülmesi, U-235 Zenginleştirme, Kullanılmış nükleer yakıt, Nükleer santrallerin kurulmasına olumsuz tepkiler, Gelişmiş ülkelerde nükleer enerji AR-GE
The Khursaniyah Gas Plant in Saudi Arabia treats sour gas from oil fields, producing sales gas, natural gas liquids, and sulfur. Built by the Bechtel-Technip joint venture for Saudi Aramco, the large and complex project was completed in 2010, on time and under budget. It recovers valuable products from 1,000 million standard cubic feet per day of sour gas using acid gas removal and gas sweetening processes.
This document summarizes a workshop on risk-based measurement, monitoring, and verification of carbon capture and storage projects hosted by Shell Canada Energy and the Quest subsurface team in Mobile, Alabama on May 16-17, 2012. The workshop aimed to share knowledge on evaluating and ensuring the effectiveness and safety of capturing and storing carbon dioxide underground. It focused on developing risk-based approaches to monitoring carbon dioxide movement and confirming storage permanence.
This document provides information about a training presentation on combustible dust hazards. It was produced with funding from the Susan Harwood Training Grant through the Occupational Safety and Health Administration. The presentation aims to define combustible dust, discuss historical dust explosions, identify at-risk industries, perform a risk analysis of dust hazards, and describe principal control methods including prevention and mitigation. It will cover topics such as definitions, risks, facility evaluation, applicable standards, and proposed OSHA regulations on combustible dust.
Sungrow is a global leader in solar PV inverters and energy storage systems. It was founded in 1997 in China and has since grown rapidly. In 2016, Sungrow shipped over 11GW of PV inverters globally, with over 40GW installed worldwide and a global market share of over 15%. It has established a strong global footprint through regional headquarters and a service network across over 40 countries. Sungrow is focused on innovation through R&D and has over 500 patents. It aims to provide integrated energy solutions including inverters, energy storage and hybrid systems. In India, Sungrow has supplied over 1GW of inverters and has established local offices, warehouses and a service network to support the
The document provides an integrity management plan for [Pipeline Operating Company]'s pipeline assets. It outlines the objectives, scope, organizational structure, roles and responsibilities, hazard identification processes, maintenance and inspection strategies, emergency response procedures, and performance assessment processes for pipeline integrity management. Key aspects covered include risk-based inspection planning, preventative maintenance approaches, independent verification of inspection results, and annual reviews of integrity program performance. The plan aims to ensure pipeline integrity and compliance with regulations through defined inspection and monitoring activities.
Nuclear energy & its Pros and cons and disasters.Sunesh Malik
A detailed presentation on Nuclear reactions - fission & fusion and how they are used to form energy. Pros and cons of Nuclear energy and perminent examples.
The document summarizes the Deepwater Horizon oil spill, including causes and timeline of events. It describes:
1) The spill occurred when the Deepwater Horizon oil rig exploded on April 20, 2010, killing 11 crew and spilling over 4 million barrels of oil.
2) A series of decisions ignored warnings and best practices, compromising the well design and cementing job. This included only using 6 centralizers instead of the recommended minimum of 21.
3) Pressure tests before temporarily abandoning the well showed warning signs of integrity issues but these were ignored. The rig then exploded as hydrocarbon gases rose up the well.
Nuclear Power Plant Fertile and Fissile materialMukul Sharma
The document discusses nuclear power plants and fissile and fertile materials. It provides information on:
1) The key components of a nuclear power plant, including the nuclear reactor, steam generators, pressurizer, and reactor coolant pumps.
2) How nuclear power plants produce electricity through using heat from nuclear fission to create steam that drives turbines.
3) The differences between fissile materials, which can sustain nuclear fission, and fertile materials, which can be converted to fissile materials through neutron absorption.
The document summarizes the accomplishments and strategic objectives of Nigeria's oil and gas sector over the past two years under the country's Transformation Agenda. Key areas of focus have included increasing reserves and production, growing domestic gas utilization, sustaining domestic product supply through infrastructure upgrades, and linking gas to the wider economy through pipelines and industrialization. Going forward, plans are outlined to further these strategic goals through initiatives like frontier exploration, improved monitoring and data processing, increased pipeline capacity, and development of industrial cities.
The document discusses several engineering, procurement, and construction (EPC) contractors that have implemented IFS Applications to manage their complex projects and global operations. It provides examples of Agility Group, Apply Sørco, BW Offshore, Damen Shipyards, Doosan Babcock, Hamworthy Gas Systems, Heerema Fabrication Group, and Icon Engineering, describing how IFS Applications has helped each company improve reporting, resource management, decision making, and overall project execution. Representatives from each company remark that IFS Applications provides effective project management support and a standardized, integrated system to facilitate continued growth.
Risk management: the systematic application of management policies , procedures and practices to the tasks of identifying , analysing , assessing , treating and monitoring risk.
Regulatory Frameworks and Standards for Agricultural Robots: what is the stat...FIRA / GOFAR
The document discusses regulatory frameworks and standards for agricultural robotics. It covers the current state of various standards and regulations in Europe, including the Machinery Directive, relevant safety standards, and efforts to develop new standards. It also discusses regulatory approaches in other regions, such as the OECD codes for tractor testing and proposals to develop mutual recognition standards for agricultural robots. Additionally, the document outlines considerations for farm automation regulations in Australia and proposals to develop an industry code of practice to guide the safe introduction of autonomous agricultural machinery.
Laporan ini disusun sebagai salah satu tugas besar mata kuliah
AE3140 Sertifikasi Kelaikudaraan
Disusun oleh:
Mohammad Arif Izzuddin - 13617035
Rais Fadillah - 13617058
I Gede Anjastara Bandem - 13617064
Marco Wijaya - 13617066
David Waldo Parlindungan - 13617069
Dosen:
Dr. Ir. Rais Zain M.Eng.
PROGRAM STUDI TEKNIK DIRGANTARA
FAKULTAS TEKNIK MESIN DAN DIRGANTARA
INSTITUT TEKNOLOGI BANDUNG
2019
Prysmian Group is a worldwide leader in cables and accessories for power and telecommunications. They provide cable solutions to major organizations across industries. This document introduces their cable support and fixing systems product range, which includes cleats, joints, and other accessories. It describes the various cleat options for single cables or trefoil formations and notes approvals and testing conducted to rigorous standards. The product range and ordering information is then outlined to help customers select the appropriate cleat for their application and cable type.
This document provides information on an A1/A2 LSOH Gland Kit for securing low smoke zero halogen (LSOH) unarmored cables. The kit includes a brass gland, locknut, and LSOH shroud for cables between 3.5-67mm in diameter. It is suitable for indoor and outdoor use in most climatic conditions and is waterproof. The kit complies with various industry standards and has approval for use on the London Underground network.
This document provides information on an A1/A2 LSOH Brass Gland Kit that includes a brass gland, locknut, and shroud for securing circular, unarmored plastic or rubber cables. The kit is suitable for indoor and outdoor use in most climatic conditions and temperatures between -20°C and +90°C. Technical specifications and dimensions for gland kits in various sizes are provided.
The document summarizes an E1W gland kit that contains brass components for securing steel wire armored cables. The kit contains a gland, earth tag, locknut, and shroud(s) to provide a weatherproof, dual seal for cable entry. Specifications list various kit part numbers corresponding to cable and gland dimensions for sizes ranging from 16mm to 90mm. Materials and performance details are also noted.
The document describes an E1W brass gland kit for securing cables. The kit includes a brass gland, brass earth tag, zinc plated steel locknut, and PVC shroud. It is suitable for circular steel-armored plastic or rubber sheathed cables and provides an IP66 waterproof and weatherproof seal. The kit is available in sizes ranging from 6.3mm to 75mm to accommodate different cable diameters.
The document describes an E1W gland kit for securing steel wire armored cables. It contains brass glands and accessories for indoor and outdoor use with galvanized steel cables. The gland features a three-part armor lock for simple inspection and checking electrical continuity. Specifications are provided for 13 different gland kits covering a range of cable diameters.
This document provides information on the E1W LSOH Brass Gland Kit, including:
- It is an indoor/outdoor cable gland for sealing circular, steel-armored cables in most climates.
- The kit includes a brass gland, earth tag, locknut, and shroud to provide an IP66-rated seal for cables up to 75mm in diameter.
- It is made of corrosion-resistant brass alloy and has zero halogen silicone seals approved for use in the UK.
The document provides an overview of power generation in Bangladesh, including different types of power plants. It discusses the Barapukuria coal power plant, including its key components like the boiler, turbine, and generator. It also describes the Katakhali oil power plant and its diesel engines and generators. Finally, it outlines the Baghabari gas power plant and components of the gas turbine system like the compressor and turbine. The document thus summarizes different fossil fuel power generation technologies used in Bangladesh.
Nükleer Reaktörler Tipleri, Yakıt Çevrimi ve Kullanılmış YakıtlarProf.Dr. İbrahim USLU
Nükleer enerji, Nükleer reaktör tipleri, Nükleer reaktörlerin termik santral ile karşilaştırılması, Nükleer yakıtlar, Kimyasal - Nükleer yanma reaksiyonu karşılaştırılması, Açık tip – kapalı tip nükleer santraller, Dünyada nükleer santral kazaları, Nükleer Santral Güvenliği, Yaygın Nükleer Santral Tipleri, İleri tasarım nükleer santraller, Nükleer Yakıt Çevrimi, Sarı pastanın gaz UF6’ya dönüştürülmesi, U-235 Zenginleştirme, Kullanılmış nükleer yakıt, Nükleer santrallerin kurulmasına olumsuz tepkiler, Gelişmiş ülkelerde nükleer enerji AR-GE
The Khursaniyah Gas Plant in Saudi Arabia treats sour gas from oil fields, producing sales gas, natural gas liquids, and sulfur. Built by the Bechtel-Technip joint venture for Saudi Aramco, the large and complex project was completed in 2010, on time and under budget. It recovers valuable products from 1,000 million standard cubic feet per day of sour gas using acid gas removal and gas sweetening processes.
This document summarizes a workshop on risk-based measurement, monitoring, and verification of carbon capture and storage projects hosted by Shell Canada Energy and the Quest subsurface team in Mobile, Alabama on May 16-17, 2012. The workshop aimed to share knowledge on evaluating and ensuring the effectiveness and safety of capturing and storing carbon dioxide underground. It focused on developing risk-based approaches to monitoring carbon dioxide movement and confirming storage permanence.
This document provides information about a training presentation on combustible dust hazards. It was produced with funding from the Susan Harwood Training Grant through the Occupational Safety and Health Administration. The presentation aims to define combustible dust, discuss historical dust explosions, identify at-risk industries, perform a risk analysis of dust hazards, and describe principal control methods including prevention and mitigation. It will cover topics such as definitions, risks, facility evaluation, applicable standards, and proposed OSHA regulations on combustible dust.
Sungrow is a global leader in solar PV inverters and energy storage systems. It was founded in 1997 in China and has since grown rapidly. In 2016, Sungrow shipped over 11GW of PV inverters globally, with over 40GW installed worldwide and a global market share of over 15%. It has established a strong global footprint through regional headquarters and a service network across over 40 countries. Sungrow is focused on innovation through R&D and has over 500 patents. It aims to provide integrated energy solutions including inverters, energy storage and hybrid systems. In India, Sungrow has supplied over 1GW of inverters and has established local offices, warehouses and a service network to support the
The document provides an integrity management plan for [Pipeline Operating Company]'s pipeline assets. It outlines the objectives, scope, organizational structure, roles and responsibilities, hazard identification processes, maintenance and inspection strategies, emergency response procedures, and performance assessment processes for pipeline integrity management. Key aspects covered include risk-based inspection planning, preventative maintenance approaches, independent verification of inspection results, and annual reviews of integrity program performance. The plan aims to ensure pipeline integrity and compliance with regulations through defined inspection and monitoring activities.
Nuclear energy & its Pros and cons and disasters.Sunesh Malik
A detailed presentation on Nuclear reactions - fission & fusion and how they are used to form energy. Pros and cons of Nuclear energy and perminent examples.
The document summarizes the Deepwater Horizon oil spill, including causes and timeline of events. It describes:
1) The spill occurred when the Deepwater Horizon oil rig exploded on April 20, 2010, killing 11 crew and spilling over 4 million barrels of oil.
2) A series of decisions ignored warnings and best practices, compromising the well design and cementing job. This included only using 6 centralizers instead of the recommended minimum of 21.
3) Pressure tests before temporarily abandoning the well showed warning signs of integrity issues but these were ignored. The rig then exploded as hydrocarbon gases rose up the well.
Nuclear Power Plant Fertile and Fissile materialMukul Sharma
The document discusses nuclear power plants and fissile and fertile materials. It provides information on:
1) The key components of a nuclear power plant, including the nuclear reactor, steam generators, pressurizer, and reactor coolant pumps.
2) How nuclear power plants produce electricity through using heat from nuclear fission to create steam that drives turbines.
3) The differences between fissile materials, which can sustain nuclear fission, and fertile materials, which can be converted to fissile materials through neutron absorption.
The document summarizes the accomplishments and strategic objectives of Nigeria's oil and gas sector over the past two years under the country's Transformation Agenda. Key areas of focus have included increasing reserves and production, growing domestic gas utilization, sustaining domestic product supply through infrastructure upgrades, and linking gas to the wider economy through pipelines and industrialization. Going forward, plans are outlined to further these strategic goals through initiatives like frontier exploration, improved monitoring and data processing, increased pipeline capacity, and development of industrial cities.
The document discusses several engineering, procurement, and construction (EPC) contractors that have implemented IFS Applications to manage their complex projects and global operations. It provides examples of Agility Group, Apply Sørco, BW Offshore, Damen Shipyards, Doosan Babcock, Hamworthy Gas Systems, Heerema Fabrication Group, and Icon Engineering, describing how IFS Applications has helped each company improve reporting, resource management, decision making, and overall project execution. Representatives from each company remark that IFS Applications provides effective project management support and a standardized, integrated system to facilitate continued growth.
Risk management: the systematic application of management policies , procedures and practices to the tasks of identifying , analysing , assessing , treating and monitoring risk.
Regulatory Frameworks and Standards for Agricultural Robots: what is the stat...FIRA / GOFAR
The document discusses regulatory frameworks and standards for agricultural robotics. It covers the current state of various standards and regulations in Europe, including the Machinery Directive, relevant safety standards, and efforts to develop new standards. It also discusses regulatory approaches in other regions, such as the OECD codes for tractor testing and proposals to develop mutual recognition standards for agricultural robots. Additionally, the document outlines considerations for farm automation regulations in Australia and proposals to develop an industry code of practice to guide the safe introduction of autonomous agricultural machinery.
Laporan ini disusun sebagai salah satu tugas besar mata kuliah
AE3140 Sertifikasi Kelaikudaraan
Disusun oleh:
Mohammad Arif Izzuddin - 13617035
Rais Fadillah - 13617058
I Gede Anjastara Bandem - 13617064
Marco Wijaya - 13617066
David Waldo Parlindungan - 13617069
Dosen:
Dr. Ir. Rais Zain M.Eng.
PROGRAM STUDI TEKNIK DIRGANTARA
FAKULTAS TEKNIK MESIN DAN DIRGANTARA
INSTITUT TEKNOLOGI BANDUNG
2019
Prysmian Group is a worldwide leader in cables and accessories for power and telecommunications. They provide cable solutions to major organizations across industries. This document introduces their cable support and fixing systems product range, which includes cleats, joints, and other accessories. It describes the various cleat options for single cables or trefoil formations and notes approvals and testing conducted to rigorous standards. The product range and ordering information is then outlined to help customers select the appropriate cleat for their application and cable type.
This document provides information on an A1/A2 LSOH Gland Kit for securing low smoke zero halogen (LSOH) unarmored cables. The kit includes a brass gland, locknut, and LSOH shroud for cables between 3.5-67mm in diameter. It is suitable for indoor and outdoor use in most climatic conditions and is waterproof. The kit complies with various industry standards and has approval for use on the London Underground network.
This document provides information on an A1/A2 LSOH Brass Gland Kit that includes a brass gland, locknut, and shroud for securing circular, unarmored plastic or rubber cables. The kit is suitable for indoor and outdoor use in most climatic conditions and temperatures between -20°C and +90°C. Technical specifications and dimensions for gland kits in various sizes are provided.
The document summarizes an E1W gland kit that contains brass components for securing steel wire armored cables. The kit contains a gland, earth tag, locknut, and shroud(s) to provide a weatherproof, dual seal for cable entry. Specifications list various kit part numbers corresponding to cable and gland dimensions for sizes ranging from 16mm to 90mm. Materials and performance details are also noted.
The document describes an E1W brass gland kit for securing cables. The kit includes a brass gland, brass earth tag, zinc plated steel locknut, and PVC shroud. It is suitable for circular steel-armored plastic or rubber sheathed cables and provides an IP66 waterproof and weatherproof seal. The kit is available in sizes ranging from 6.3mm to 75mm to accommodate different cable diameters.
The document describes an E1W gland kit for securing steel wire armored cables. It contains brass glands and accessories for indoor and outdoor use with galvanized steel cables. The gland features a three-part armor lock for simple inspection and checking electrical continuity. Specifications are provided for 13 different gland kits covering a range of cable diameters.
This document provides information on the E1W LSOH Brass Gland Kit, including:
- It is an indoor/outdoor cable gland for sealing circular, steel-armored cables in most climates.
- The kit includes a brass gland, earth tag, locknut, and shroud to provide an IP66-rated seal for cables up to 75mm in diameter.
- It is made of corrosion-resistant brass alloy and has zero halogen silicone seals approved for use in the UK.
The document provides information about Kingsmill, a manufacturer of earthing and lightning protection equipment. It describes their manufacturing processes and materials used to produce copper earth bars, fittings, insulators, and galvanized steel bases. Standard sizes and specifications for earth bars, disconnecting links, insulators, and 600A and 1000A earth bars are shown in tables.
The document describes conduit rods used for installing draw ropes and winch ropes into ducts for cable pulling operations. The rods come in various diameters from 4mm to 14mm and lengths from 40 meters to 350 meters. They are made of glass fibre reinforced epoxy with a polyethylene coating for adhesion and bending elasticity, making them ideal for short to long duct installations. The rods are available on free standing or mobile reels and come with guide tips and accessories.
This document provides specifications for a CW LSOH Gland Kit that includes brass glands, earth tags, locknuts, and shrouds for securing low smoke zero halogen (LSOH) cables. The kit is suitable for indoor and outdoor use with galvanized steel or plastic/rubber sheathed LSOH cables in most climatic conditions. It has three-part armor locking and meets fire performance standards with approval from London Underground for subsurface installations. Specifications include kit contents and dimensions, material information, temperature rating, compliance standards, and manufacturer details.
The CW LSOH Brass Gland Kit is an indoor/outdoor cable gland for securing single-wire-armored cables. It consists of a brass gland, brass earth tag, brass locknut, and silicone shroud. The kit is rated for IP66 protection and operates in temperatures from -20°C to +90°C. It is suitable for cables up to 75mm and made from corrosion-resistant brass alloy.
The CW LSOH Brass Gland Kit is an indoor/outdoor cable gland for securing single-wire-armored cables. It consists of a brass gland, brass earth tag, brass locknut, and silicone shroud. The kit is rated for IP66 protection and operates in temperatures from -20°C to +90°C. It is suitable for circular cables up to 75mm in diameter.
The document describes the CW Gland Kit which features a 3 part armour lock for simple inspection and continuity of armoured cables. The kit includes a CW Gland, brass earth tag, brass locknut, and PVC shroud. It is suitable for indoor and outdoor use with armoured cables in various sizes from 16mm to 110mm diameter in both metric and NPT threaded versions.
This document provides specifications for an A1/A2 gland kit for securing unarmored cables. The kit includes a brass gland, locknut, and PVC shroud for cable diameters ranging from 2mm to 110mm. It is suitable for indoor and outdoor use in most climatic conditions and provides an IP66 waterproof and weatherproof seal. Technical information indicates the kit materials, standards compliance, service temperature range, and that it secures unarmored cables.
This document provides information on the A1/A2 Brass Gland Kit for securing circular, unarmored plastic or rubber sheathed cables. The kit contains a brass gland, brass locknut, and PVC shroud to provide an IP66 rated seal for cables in various sizes from 3.5mm to 67mm in diameter. The brass components are made from a copper-zinc-lead alloy designed to be strong, durable, and suitable for indoor and outdoor use in temperatures ranging from -20°C to +90°C.
The Accles & Shelvoke Cable Spiker is a tool for safely de-energizing electric power cables before work is done on them. It can penetrate all types of cable coverings and is operated remotely via a lanyard for employee safety. If a live cable is spiked, the fault current will likely trip the circuit breaker without harming the tool. The Cable Spiker provides a safer alternative to manual spiking with hammers or sticks.
The CW Aluminium Gland Kit 422AL Series is an industrial gland kit for securing aluminium wire armoured cable. It features a three-part armour lock for checking electrical continuity and grips the cable sheath. The kit includes a gland, earth tag, locknut, and PCP shroud. It is rated for indoor and outdoor use from -20°C to +90°C and provides an IP66 seal for cables up to 75mm in diameter.
The Phoenix Cable Clamp datasheet summarizes fire resistance testing and specifications for various cable clamp models. Short circuit testing was completed successfully in accordance with IEC 61914:2009. The cable clamps are manufactured from 316L Stainless Steel and comply with fire resistance standards BS 8491:2008 and BS 5839-1: 2002. Dimensions, weight, cable diameter ranges and fixing holes are provided for each model number.
Prysmian Group is a worldwide leader in cable systems and accessories. They provide major organizations with cable solutions tailored to their needs. This document discusses Prysmian Group's cable support and fixing systems product range, including cleats for single cables and trefoil configurations. It provides information on selecting the appropriate cleat based on cable size and application requirements.
Cablofil are the world leader in the design and innovation of wire mesh cable basket tray providing the highest quality cable support and containment. Power cable installations require reliable, tested and trusted containment - Cablofil provides strong, fast, safe, clean and ventilated cable containment and support.
The Cablofil Wiremesh Cable Tray concept based upon performance, safety and economy - 3 qualities which make Cablofil Wiremesh Cable Tray system preferred by installers. Cablofil adapts to the most complex cable containment configurations and its structure gives maximum strength for minimum weight. The ease of creating Cablofil fittings, carried out on site, as well as the wide range of unique and universal accessories gives complete freedom in cable routing combined with exceptionally fast installation. See for yourself and don't look back - contact T&D UK for an on-site Cablofil product demo.
Not Just for Data Cables.....Cablofil Contains & Supports Power Cables :
Cablofil cable basket provides low and high voltage power cable containment with excellent short circuit withstand (70kA, 100kA and 130kA fault current ratings) and mechanical loading performance to IEC61537.
Power Generation & Transmission - Cablofil cable basket demonstrates remarkable short circuit withstand for effective containment for low and high voltage (11-33kV) cable networks.
Hazardous Area Installations - Cablofil cable basket withstands degradation and attack caused by aggressive acids, solvents and chemicals providing high level corrosion resistance and containment of power, control and instrumentation cables in the oil, gas and petrochemicals industries.
Cablofil steel wire cable tray systems are designed for fast and simple installation. Cablofil was introduced in the UK in the 1990s and has since led the steel wire cable tray revolution. As part of Legrand UK's cable management business unit, Cablofil products are supported by experts with in-depth knowledge of cable management solutions. The document provides information on Cablofil's steel wire cable tray products including straight lengths, couplers, fixing components, covers, and accessories.
This document is a shortform catalogue from Prysmian Cables & Systems Limited that provides an overview of their extensive range of power cable accessories. It introduces Prysmian as the new name for Pirelli Cables and contains their latest product ranges. The catalogue includes sections on cable glands, cleats, cable connectors and tooling, cable joints and terminations, separable connectors, and other accessories. It provides contact information for sales and technical support.
Nestor Cables has evolved from a traditional cable manufacturer to a provider of complete connectivity solutions. The document introduces six of Nestor's solutions: Fibre to the Antenna, Fibre to the Home, Fibre Optic Cables for Windmill Farms, Mobile Optical Cable Units, the Nestor Cables Security System, and a Microduct Cabling Solution. It provides details on the Fibre to the Antenna solution and its main feeder cable and jumper cables. It also gives an overview of Nestor's product portfolio for Fibre to the Home networks including cables, installation accessories, termination products and more.
The document discusses fiber optic ducting-raceway systems for routing fiber optic cables. It describes Lightpaths as a unique ducting system that protects fiber cables and ensures minimum bend radiuses are not compromised. The system includes various components like straight ducts, joiners, elbows, and mounting hardware that snap together for easy installation. Design considerations include cable capacity needs, color coding for network identification, and mounting options.
Belden provides a comprehensive portfolio of audio, video, networking, and fiber optic cabling and connectivity solutions. Their product offering includes traditional AV cabling as well as solutions for newer technologies like HDBaseT, HDMI, and AV over IP. Belden's cabling products are available through their network of distributors nationwide and are supported by technical services to ensure successful system planning and deployment.
This document provides specifications for various low voltage cables produced by SCC, including:
- PVC insulated unarmoured cables in single core and multicore configurations with copper or aluminium conductors
- XLPE insulated cables available in armoured and unarmoured designs
- Information on construction details, materials used, applications, electrical characteristics, and ordering for each cable type.
The document also outlines SCC's quality assurance procedures and availability of accessory products.
Yamuna Infra & Technology Pvt. Ltd. is an India based leading manufacturer and exporter of high-quality heat shrinkable power cable jointing kits, heat shrinkable power cable termination kits and power cable accessories upto 36kV. Established in 1996, we have been supplying many of the leading power and telecom industries all over the world. We manufacture and market our products under 'US-SEAL' brand/trademark, which itself speak about million acknowledgements for their performance. We are one of the leading companies focused on manufacturing high-quality heat shrinkable moulded components such as cable breakout boots, cable end sealing caps and other electric cable accessories.
For more information visit www.yamunainfra.com
ERICO provides products and solutions for connecting cables to rails for signaling, grounding, and traction power requirements in the global railway industry. They offer a wide range of exothermic rail connections using CADWELD technology, as well as mechanical and arc-welded bonding products. ERICO has a global network of manufacturing, sales, and distribution to serve the railway industry worldwide.
MCL Data Solutions Pre-terminated Optical Fibre Cable RangeMCL Data Solution
MCL Data Solutions provides pre-terminated optical fibre cables as a simple and scalable solution for network cabling infrastructure. Their pre-terminated cables can reduce installation time by 65% compared to traditional cabling methods. They manufacture their pre-terminated cables in a quality controlled facility using high quality components to ensure low insertion loss. MCL aims to be a reliable technology partner by providing technically advanced fibre optic products that meet industry standards.
MCL Data Solutions provides pre-terminated optical fibre cables as a simple and scalable solution for network cabling infrastructure. Their pre-terminated cables can reduce installation time by 65% compared to traditional cabling methods. They manufacture the cables in a quality-controlled facility using high-quality components to ensure maximum performance. MCL aims to be a reliable technology partner by providing technically advanced fibre optic products and expert support for customers' networking needs.
This document provides information on Euromold's medium voltage symmetrical separable connectors, including the Interface C connectors. It describes the 400LB elbow connector, 400TB and 440TB tee connectors, their design, specifications, standards, kit contents and ordering instructions. Euromold is a leading European manufacturer and distributor of prefabricated cable accessories for medium voltage energy distribution.
This document provides information on Euromold's medium voltage symmetrical separable connectors, including the Interface C connectors. It describes the 400LB elbow connector, 400TB and 440TB tee connectors, their design, specifications, standards, kit contents and ordering instructions. Euromold is a leading European manufacturer and distributor of prefabricated cable accessories for medium voltage energy distribution.
This document provides information about Axon Cable's flat flexible cables and flat cable assemblies. It discusses their flat flexible cables (AXOJUMP), flat cables with round pins (AXOSTRIP), bulk flat cables (FLEXLINK), flat display connections (AXOLINK), and flat display connections for high speed transmission (FDC 100). It provides details on specifications, applications, advantages, production, quality assurance, and connection methods. Axon Cable offers a comprehensive range of flat cable products and custom assembly designs to meet various application needs.
This document provides information on various types of outdoor fiber optic waterproof connectors. It describes 6 series of connectors: ODVA, Fullaxs, Mini-SC, ODC, field tactical, and aviation connectors. For each series, it provides details on features, specifications, compatible accessories, and example products. The document serves as a product manual for outdoor fiber optic waterproof connectors.
The document is a catalogue from Euromold, a manufacturer of medium voltage cable accessories. It provides information on Euromold's symmetrical separable connectors for Interface C, including the 400LB elbow connector, 400TB and 440TB tee connectors, and 440PB coupling connector. It describes the components, applications, standards, and ordering information for these connector products.
This document from Belden discusses industrial Ethernet and cybersecurity. It promotes Belden's products for implementing Ethernet networks in industrial environments. It describes the advantages of Ethernet for industry. It also discusses cybersecurity threats and recommends a defense-in-depth approach using network segmentation, zones, and conduits. Belden presents its portfolio of industrial Ethernet cables, connectivity solutions, and services to help customers securely implement industrial networks.
Isolation Procedures for Safe Working on Electrical Systems and Equipment by the JIB | solation Procedures for Safe Working on Electrical Systems and Equipment
This chart shows the safe isolation procedure that you should use when working on electrical systems and equipment.
You'll receive a printed copy of this from your Training Provider, but it's also here as a handy reference to keep electronically.
THE RULES OF SAFE ISOLATION ARE:
Obtain permission to start work (a Permit may be required in some situations)
Identify the source(s) of supply using an approved voltage indicator or test lamp
Prove that the approved voltage indicator or test lamp is functioning correctly
Isolate the supply(s)
Secure the isolation
Prove the system/equipment is DEAD using an approved voltage indicator or test lamp
Prove that the approved voltage indicator or test lamp is functioning correctly
Put up warning signs to tell other people that the electrical installation has been isolated
Once the system/equipment is proved DEAD, work can begin
Uploaded by THORNE & DERRICK LV HV Jointing, Earthing, Substation & Electrical Eqpt | Explosive Atmosphere Experts & ATEX IECEx.
Thorne & Derrick International are specialist distributors of low, medium, and high voltage cable installation, jointing, substation, and electrical equipment. They have over 30 years of experience and stock over 100,000 products from over 100 brands. Their product range includes cable joints, terminations, tools, accessories, distribution equipment, and safety products for voltages up to 132kV.
The document advertises the Children North East Annual Golf Day fundraising event to be held on May 9th, 2018 at Close House golf course in Northumberland. The event will include a shotgun start at 2pm for teams of four playing in a Stableford scoring competition. The £490 entry fee per team includes breakfast, a two course meal after play, and goodie bags. Proceeds will benefit Children North East, a charity supporting children in the Newcastle region.
This document provides information on 3M's electrical products, including electrical connectors, wire connectors, splice kits, wire markers, and protective coatings. It highlights key features and applications of 3M's Scotchlok electrical insulation displacement connectors, Performance Plus wire connectors, direct bury splice kits, ScotchCode wire markers, insulating and anti-corrosion sprays, and Scotchkote electrical coating. The document is intended to showcase 3M's quality solutions for electrical connections, identification, and corrosion protection.
This document provides a catalogue of products from SICAME GROUP for electrical safety. It begins by emphasizing the importance of electrical safety for professionals working in the electrical industry. The catalogue then outlines the company's commitment to supporting customers through new products designed by their teams, an updated catalogue focusing on product functions and uses, and new educational tools like guidance documents. The bulk of the document consists of the catalogue content organized into sections covering personal protective equipment, locking, signaling, low voltage test and measurement, low voltage earthing systems, low voltage live working tools, medium voltage substation equipment, medium voltage equipment, high voltage lines and switchgear equipment, and earthing connections. Each section lists and provides brief descriptions of the various safety products
1) The document provides installation instructions for heatshrink termination of 3 core polymeric cables with voltages ranging from 7.2kV to 36kV. It describes the steps for preparing the cable, installing stress control tapes and tubes, cable lugs, and rain sheds.
2) Key steps include removing the cable sheath and screens, applying stress control tape, installing cable lugs and boots, and shrinking tubes onto the assembly. Proper distances must be maintained for phase clearance and bending radii.
3) Outdoor terminations require additional rain sheds installed from the bottom up at specified distances between the anti-track tube and shed edges. Indoor distances between phases and grounds are also outlined.
THORNE & DERRICK based in the UK are international distributors of LV, MV & HV Cable Installation, Jointing, Substation & Electrical Equipment.
Since 1985, T&D have established an international reputation based on SERVICE | INTEGRITY | TRUST.
Contact us for 3M, ABB, Alroc, AN Wallis, CATU, Cembre, Centriforce, CMP, CSD, Elastimold, Ellis Patents, Emtelle, Euromold, Filoform , Furse, Lucy Electric & Zodion, Nexans, Pfisterer, Polypipe, Prysmian, Roxtec, Sicame, WT Henley.
The document provides technical specifications for EJB series explosion proof enclosures made of galvanized carbon steel. The enclosures have an IP rating of IP65, IP66, or IP67 and an operating temperature range of -50°C to +60°C. They offer explosion protection of Ex d IIB or IIB+H2 and are suitable for indoor and outdoor use in hazardous industrial areas. The enclosures can house various electrical and electronic components and accessories.
This certificate of attendance awards Adam Rowe and Michael Wenglorz for successfully completing a SIL (Safety Integrity Level) training seminar held by PEPPERL+FUCHS GB LTD on November 7th, 2016.
Thorne & Derrick were established in 1985 and are now one of the largest specialist distributors and worldwide exporters of equipment for explosive atmospheres. They stock over 100,000 products from over 100 brands for industries such as oil & gas, mining, manufacturing, and more. Thorne & Derrick provide hazardous area lighting, heating, sensors, detectors, valves, cables, and other equipment certified for explosive atmospheres. They also offer technical support, international delivery, and over 30 years of experience in serving hazardous area applications.
This document is an application datasheet for flow measurement devices. It requests contact and process information from customers. It asks for details about the application environment and pipe parameters. It also requests information on process parameters like temperature, pressure, and flow rates. Finally, it inquires about desired measurement configuration including units of measurement, data logging, power supply, and electrical and communication interfaces.
This document provides information on Emtelle fibre optic cables, including:
- An overview of Emtelle as a leading global manufacturer of blown fibre and ducted network solutions.
- Descriptions of different cable types including Direct Install, Direct Buried, Aerial, and more.
- Specifications for various cable models including fibre count options, dimensions, tensile strength and other test standards.
Thorne & Derrick provide electrical heating solutions for industrial and hazardous area applications. They have over 30 years of experience in process heating and specialize in frost protection and winterization packages. They offer a wide range of electrical heating equipment for hazardous areas, including portable air heaters certified for use in explosive atmospheres. Their product range and engineering expertise help customers solve heating challenges across various industries.
The document provides information on tools for preparing electric utility distribution and transmission cables. It includes tools for stripping insulation from secondary distribution cables, mid-span stripping of overhead primary distribution cables, insulation stripping and jacket stripping for underground cables, removing insulation shields from underground and transmission cables, pencilling transmission cables, and other specialty distribution tools. Tables provide part numbers and specifications for various cable end strippers and other tools to prepare different cable types.
The document describes the RIDGID micro CD-100 combustible gas leak detector. It can quickly identify the presence of combustible gases with a flexible 41 cm probe. It is designed to detect gases like methane, propane, and more. The micro CD-100 has adjustable sensitivity settings and Tri-Mode Detection that provides alerts through visual, audible or vibration signals. It is listed as catalog number 36163 and weighs 0.45 kg.
Itron is a leading technology company dedicated to measuring, managing, and analyzing energy and water resources. It provides comprehensive solutions including meters, communication systems, software, and consulting services to over 8,000 customers in more than 100 countries. Itron employs thousands of people globally and invests over 8.5% of its $1.9 billion annual revenue in research and development.
The FiloSeal+HD is a duct sealing system that uses hexagonal tubes and a flexible silicon-based sealant to seal cable configurations and pipes within conduits. It provides resistance to up to 2 bars of pressure and can withstand pulling forces of 100kg on sealed cables. The sealant is easily applied and cures with air, providing high levels of gas and water tightness. The system allows for easy addition or removal of cables or pipes as needed.
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
This keynote will reveal how Deloitte leverages Neo4j’s graph power for groundbreaking digital twin solutions, achieving a staggering 100x performance boost. Discover the essential role knowledge graphs play in successful generative AI implementations. Plus, get an exclusive look at an innovative Neo4j + Generative AI solution Deloitte is developing in-house.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Infrastructure Challenges in Scaling RAG with Custom AI modelsZilliz
Building Retrieval-Augmented Generation (RAG) systems with open-source and custom AI models is a complex task. This talk explores the challenges in productionizing RAG systems, including retrieval performance, response synthesis, and evaluation. We’ll discuss how to leverage open-source models like text embeddings, language models, and custom fine-tuned models to enhance RAG performance. Additionally, we’ll cover how BentoML can help orchestrate and scale these AI components efficiently, ensuring seamless deployment and management of RAG systems in the cloud.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/building-and-scaling-ai-applications-with-the-nx-ai-manager-a-presentation-from-network-optix/
Robin van Emden, Senior Director of Data Science at Network Optix, presents the “Building and Scaling AI Applications with the Nx AI Manager,” tutorial at the May 2024 Embedded Vision Summit.
In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
Programming Foundation Models with DSPy - Meetup SlidesZilliz
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
2. 2
As the worldwide leader in the cable industry, Prysmian
Group believes in the effective, efficient and sustainable
supply of energy and information as a primary driver in the
development of communities.
With this in mind, we provide major global organisations
in many industries with best-in-class cable and accessory
solutions, based on state-of-the-art technology. Through
two renowned commercial brands - Prysmian and Draka
– based in almost 50 countries, we’re constantly close
to our customers, enabling them to further develop the
world’s energy and telecoms infrastructures, and achieve
sustainable, profitable growth.
In our energy business, we design, produce, distribute
and install cables and systems for the transmission and
distribution of power at low, medium, high and extra high
voltage.
In telecoms, the Group is a leading manufacturer of all
types of copper and fibre cables, systems and accessories -
covering voice, video and data transmission.
Drawing on over 130 years’ experience and continuously
investing in R&D, we apply excellence, understanding and
integrity to everything we do, meeting and exceeding the
precise needs of our customers across all continents, at the
same time shaping the evolution of our industry.
In applications ranging from drilling, extraction and storage
equipment to platform and processing facilities operation,
Prysmian’s state-of-the-art cable systems support many major
customers in the oil, gas and petrochemical industry, along
with related businesses.
Whether they’re deployed in Brazil, the Gulf of Mexico, the
North Sea or South-East Asia, our cable solutions are proving
their value in harsh off shore and onshore environments;
helping customers minimize environmental impact and achieve
sustainable, profi table growth.
What links the oil and gas
industry from end to end?
Cable solutions to support the sector around the world
Linking the future
3. 3
• BICON® Cable Glands
• BICON® Cable Cleats
• BICAST® Joints & Terminations
• BICON® Connectors and Tooling
• Flexo® Modular Power Systems
• Flexo® Rail products
• JEM™ Resin
• Connecta System®
Prysmian Group’s dedicated Components facility based in
Wrexham, Wales manufactures and supplies the market with
products which are widely used in industrial, commercial and
domestic power distribution systems. In addition it offers
products for more specialist applications such as Utilities,
Railways, Oil, Gas and Petrochemical, Hazardous Areas, Wind
and Solar Energy. Today’s BICON® product ranges represent
over 100 years of cable accessory development and quality
engineering building on the pedigree of our previous company
names - going back to BICC. Of course Prysmian Group’s
Components products are the perfect installation accessory
for the Company’s vast range of quality, approved cables.
Prysmian Group’s comprehensive component product
range includes:
Prysmian Group’s Components business unit, based in
Wrexham, is the UK’s most experienced manufacturer of
Cable Glands. Bicon® cable glands are supplied for use in both
industrial and hazardous locations. Through many years of
industry experience and working closely with our customers,
Prysmian Group is able to offer glands to terminate all cable
types on the market. As the world’s number one manufacturer
of cables, Prysmian Groups Bicon® cable glands are designed
and manufactured utilising all the knowledge of the critical
requirements to safely terminate cables in all types of
installations.
Bicon® Cable Glands are mechanical cable entry devices
that attach and secure the end of a cable to an enclosure or
directly into equipment providing for mechanical support,
earth continuity and protection against the ingress of dust
and moisture. Additionally, in hazardous areas they prevent
the migration of gases and control and contain any potential
explosions.
The Bicon® ranges of glands have been designed and tested
with The Prysmian Group cable products. They are the
recommended and preferred method of installation for all
Prysmian and Draka cables.
When installing fire resistant and Low Smoke Zero Halogen
(LSOH) cables it is important that the accessories used meet
the same performance requirements as the cable. Thus, the
accessory does not impact on the system performance as a
whole in the event of a fire. As the world market leader in both
of these types of cables it is no surprise that the Prysmian
Group is able to offer specific glanding solutions. Look out for
the FP, Afumex, FT and Saffire logos in the catalogue which
highlight these.
Bicon® LSOH industrial gland kits have been granted LUL
approvals. These products are highlighted in the catalogue.
Please note the relevant LUL APR Product ID numbers on the
relevant pages.
Bicon® cable glands are manufactured in either aluminium,
brass or nylon as standard. In the event that the installation
requires electroless nickel plated brass these can also be
supplied.
Bicon® glands have been used on a vast number of major
electrical engineering projects including: Terminal 5 Heathrow,
oil platforms in the North Sea, and power stations in the UK
and Europe.
From its UK base, Prysmian Group’s Components business is able to
efficiently service the needs of its UK and overseas customers and
offers a high level of pre-sales and post-sales customer service.
For further information please contact:
Sales Hotline: 0845 767 8345
International Sales Office: +44 2380 295481
www.biconcomponents.co.uk
Introduction to Bicon® Cable Glands
5. 5
Contents
Industrial Glands
LS0H or LSF materials
Ingress Protection Index
Industrial Glands Selector
Industrial Glands Contents
BW Gland Kit Indoor Cable Gland (KA410 Series)
BW LSOH Gland Kit Indoor Cable Gland (420LSF Series)
BWL Gland Kit Indoor Cable Gland (KJ417 Series)
Nylon Cable Gland Cable Gland (403K Series)
Nylon Cable Gland Cable Gland (FP250)
A1/A2 Gland Kit Indoor / Outdoor Cable Gland (KM409 Series)
A1/A2 LSOH Gland Kit Indoor / Outdoor Cable Gland (423LSF Series)
AXT Gland Kit Indoor / Outdoor Cable Gland (423AX Series)
CW Gland Kit Indoor / Outdoor Cable Gland (KA419 Series)
CW-B Gland Kit (Long entry thread) Indoor / Outdoor Cable Gland (KA419-B Series)
CW LSOH Gland Kit Indoor / Outdoor Cable Gland (422LSF Series)
CW-AL Gland Kit Indoor / Outdoor Cable Gland (KA422 Series)
CW-AL LSOH Gland Kit Indoor / Outdoor Cable Gland (432LSF Series)
CX Gland Kit Indoor / Outdoor Cable Gland (KA414 Series)
CX-B Gland Kit (Long entry thread) Indoor / Outdoor Cable Gland (KA414-B Series)
E1W Gland Kit Outdoor Wet Area Cable Gland (KAA413 Series)
E1W Gland Kit Outdoor Wet Area Cable Gland (KAA413 Series)
E1W LSOH Gland Kit Outdoor Wet Area Cable Gland (421LSF Series)
CW Integral Earth Gland Kit Indoor / Outdoor Cable Gland (419CE Series)
CW-AL Integral Earth Gland Kit Indoor / Outdoor Cable Gland (454CE Series)
CW-Dual Screen Gland Kit Concentric Bonding Cable Gland (422DA Series)
Hazardous Glands
Introduction to Hazardous Areas
Barrier Glands & when required
Hazardous gland selection chart
Hazardous area gland contents
Nylon Ex e Cable Gland (403AT Series)
A2EX Ex d IIC / Ex e II Cable Gland(494AB Series)
A2EX(NPT) Ex d IIC / Ex e II Cable Gland (494NE Series)
A2EX Ex d IIC / Ex e II Cable Gland kit (KM494 Series)
A2EXP Ex d IIC / Ex e II Dual Seal Cable Gland (495AB Series)
A2EXP (NPT) Ex d IIC / Ex e II Dual Seal Cable Gland (495NE Series)
A2EXP Ex d IIC / Ex e II Dual Seal Cable Gland Kit (KM495 Series)
E1WF Ex d IIC / Ex e II Cable Gland (472AA Series)
E1WF(NPT) Ex d IIC / Ex e II Cable Gland (472NP Series)
E1WF Ex d IIC / Ex e II Cable Gland Kit (PVC) (KCA472 Series)
E1WF Ex d IIC / Ex e II Cable Gland Kit (PCP) (KA472 Series)
E1WF-Al Ex d IIC / Ex e II Cable Gland (455AA Series)
E1WF-Al Ex d IIC / Ex e II Cable Gland Kit (KCA455 Series)
E1XF Ex d IIC / Ex e II Cable Gland (473AA Series)
E1XF(NPT) Ex d IIC / Ex e II Cable Gland (473NP Series)
E1XF Ex d IIC / Ex e II Cable Gland Kit (PVC) (KCA473 Series)
E1XF Ex d IIC / Ex e II Cable Gland Kit (PCP) (KA473 Series)
E1W-XL Ex d IIC / Ex e II Cable Gland (474SW Series)
E1W-XL (NPT) Ex d IIC / Ex e II Cable Glands (474NP Series)
E1W-XL Ex d IIC / Ex e II Cable Gland Kit (KA474 Series)
Excel Plus Ex d IIC / Ex e II Deluge Proof Cable Gland (493AB Series)
Excel Plus (NPT) Ex d IIC / Ex e II Deluge Proof Cable Gland (493NE Series)
Excel Plus Ex d IIC / Ex e II Deluge Proof Cable Gland Kit (KA493 Series)
Barr-A Ex d IIC Cable Gland (424TA Series)
Barr-W Ex d IIC Cable Gland (424TW Series)
Barr-X Ex d IIC Cable Gland (424TX Series)
Barr-PB Ex d IIC Cable Gland (424TP Series)
Accessories
Accessories Contents
PVC Shrouds - UV Resistant PVC shrouds
PCP Shrouds - Polychloroprene Shrouds
LSOH Shrouds - Silicone LSOH Shrouds
Locknuts - Brass, Nickel Plated Brass, Steel & Aluminium
Earthtags - Brass & Aluminium
IP Washers - Nylon & Fibre Sealing Washers
Anti Vibration Washers - Stainless Steel Serrated Washers
Adaptors & Reducers Ex d
Insulated Adaptors Ex d
Notes
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6. 6
Low Smoke Zero Halogen materials known as LSOH, should be
used in any environment where public safety is a consideration.
These include locations such as offices, schools, stations or
underground systems etc.
Safety considerations have resulted in materials being
developed and specified that, in a fire, will emit less of the
harmful gases particularly smoke and halogens.
The materials that do not emit any significant halogen gas and
have reduced smoke emission properties are termed LS0H (Low
Smoke Zero Halogen) - these materials must emit less than
0.5% Hydrogen Chloride (HCl).
High levels of HCl has a damaging effect on the human
respiratory system when inhaled, as well as being damaging to
electronic circuits or machinery.
Some materials are misleadingly labelled LSF (low smoke and
fume) – this does not indicate that they emit low HCl – for
example, a modified PVC could give off over 15% HCl and still be
sold as LSF.
However, Halogens are not alone in their tendency to produce
toxic gasses during combustion. There are many polymeric
materials which, although halogen free, will also produce toxic
by-products in the event of a fire.
London Underground Specification 1-085 (A3) states that
combustible materials must not contain halogens, nitrogen
or sulphur. Materials that do contain these elements must
undergo additional testing to ensure compliance with the toxic
emission potential requirements of BS6853.
Nylon, for example, contains nitrogen which, during a fire,
can produce toxic gasses such as ammonia, mixed oxides of
nitrogen and small amounts of hydrogen cyanide.
The materials used in Bicon® LSOH accessories are not only
halogen free but do not contain any other elements likely to
result in toxic gas emission.
As a result Bicon® gland kits have been approved by LUL - look
out for the LUL APR product number.
LS0H or LSF materials – Making the right choice!
7. 7
This test was developed by Shell & ERA Technology in 1991 to address the needs of the offshore sector where emergency deluge systems
are commonly installed.
The deluge test requires that glands are 1st pre-conditioned by exposure to vibration and thermal ageing at high humidity levels.
The test then simulates the offshore deluge systems by using a specially designed deluge chamber with nozzles firing high pressure
salt water at the glands for 3 hours.
Introduction to Deluge Testing DTS01
Introduction to Ingress Protection Index (EN 60529)
1st No.
0
1
2
3
4
5
6
2nd No.
0
1
2
3
4
5
6
7
8
Protection against solids Protection against liquids
No-protection No-protection
Protected against solid bodies
Larger than 50mm
(e.g. Accidental contact
with a hand)
Protection against vertically
falling drops of water
(Condensation)
Protected against solid bodies
Larger than 12mm
(e.g. A finger of a hand)
Protected against drops of water
falling at up to 15° from vertical
Ø 50mm
Ø 12.5mm
Ø 2.5mm
Ø 1mm
Protected against solid bodies
larger than 2.5mm
(e.g. tools and wires)
Protected against drops of water
up to 60° from vertical
Protected against solid bodies
larger than 1mm
(e.g. fine tools and
small wires)
Protected against projections of
water from all directions
protected against dust
(no harmful deposites)
Protected against jets of water
from all directions
Completely protected
against dust
Protected against powerd jets of
water from all directions
Protection against the
effects of immersion
Protection against the
effects of submersion
1m
15cm
min
8. 8
Correctly selected and installed Cable Glands will
attach and secure the end of a cable to an enclosure/
equipment providing for:
• Mechanical support
• Earth continuity
• Protection against ingress of dust
• Protection against ingress of moisture
See Selection chart below for Industrial gland Selection
Plus in Hazardous areas
• Prevents migration of gases
• Controls/contains explosions
Go to page 36 for Hazardous gland selection
Industrial Glands Selector
INDUSTRIAL GLAND SELECTION CHART
Brass A1/A2
LSOH Version
423LSF
Brass A1/A2
KM409
Nylon FP2520R
/ WFP 200
upto 12mm
Nylon 403K
Brass AXT
AXT
(pigtail earthing)
Brass CX KA414
Aluminium CW
LSOH Version
432LSF
Aluminium CW
KA422AL
Aluminium CW
+ Integral Earth
454CE
Brass BW
LSOH Version
420LSF
Brass BW
KA410
Brass CW
LSOH Version
422LSF
Brass CW
KA419
Brass CW
+ Integral Earth
419CE
Brass E1W
LSOH Version
421LSF
Brass E1W
PCP shroud
KA413
Brass E1W
PVC shroud
KAA413
FP200
< 12mm Ø
Does
Customer
Prefer Plastic
or Brass
Fault
Current Level
Equipment
Fixed or
Mobile
Cable
25mm Ø
< 12mm Ø
Plastic
Fixed OutdoorYes
Mobile
Brass
un-armoured
Upto 25mm Ø
Cable type
& Diameter
Fault
Current Level
Where is
The gland
Installed
Armour Type
IS THE CABLE
ARMOURED
CY, SY types
< 21mm Ø
Wet
Conditions
Standard
Standard
Indoor
All Braids High
High
No
Aluminium
Wire Armour
(AWA)
Non Armoured Glands
Brass or Plastic
Steel
Wire Armour
Braid Armours
No - Un-armoured Yes
INDUSTRIAL CABLE GLAND
REQUIRED
10. 10
Specifications
Features and benefits:
• Indoor type for SWA cable.
• Brass indoor gland and accessories
• For galvanized-steel single-wire armour plastic or rubber sheathed cables
• For use in dry, dust free situations
• Provides mechanical cable retention and electrical continuity via armour
locking mechanism
Technical Information:
Suitable for use with all Steel Wire Armoured Cables inc: BS 5467,
BS 6622, BS 5308
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS 6121-1: 2005
Service temperature range -20°C to +90°C
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour Ø (A)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Max A/F (G) A/C (H)
KA410-52 20S 2 11.6 0.9 M20×1.5 10 24 22 24.9
KA410-53 20 2 13.9 0.9/1.25 M20×1.5 10 25 27 30.5
KA410-55 25 2 19.9 1.25/1.6 M25×1.5 10 26 32.9 36.8
KA410-56 32 1 26.2 1.6/2.0 M32×1.5 10 28 42.4 47.8
KA410-57 40 1 32.1 1.6/2.0 M40×1.5 15 25 50 57
KA410-59 50 1 44.0 2.0/2.5 M50×1.5 15 36 70.1 77.2
KA410-61 63 1 55.9 2.5 M63×1.5 15 30 80 87.4
KA410-62 75S 1 61.9 2.5 M75×1.5 15 40 85 95
KA410-63 75 1 67.9 2.5 M75×1.5 15 40 98.8 109.2
KA410-64 85 1 74.5 3.15 M85x2.0 20 43 115 126
Kit comprises:
BW Gland
Brass Earth Tag
Brass Locknut
PVC Shroud
(2 per kit up to and including 25mm size)
BW Gland Kit
IndoorCableGland(KA410Series)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
INDUSTRIALGLANDS
11. 11
Specifications
Features and benefits:
• Indoor type for LSOH SWA cable
• Brass indoor gland and LSOH accessories
• For galvanized-steel single-wire armour plastic or rubber
LSOH sheathed cables
• For use in dry, dust free situations
• Provides mechanical cable retention and electrical continuity
via armour locking mechanism
Technical Information:
Suitable for use with all Steel Wire Armoured Cables inc: BS 6724
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS 6121-1: 2005
Service temperature range -20°C to +90°C
Complies with LU Standard 1-085 for installation in all sub-surface
locations
LUL APR Product ID 1968
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour Ø (A)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Max A/F (G) A/C (H)
420LSF-52 20S 2 11.6 0.9 M20×1.5 10 24 22 24.9
420LSF-53 20 2 13.9 0.9/1.25 M20×1.5 10 25 27 30.5
420LSF-55 25 2 19.9 1.25/1.6 M25×1.5 10 26 32.9 36.8
420LSF-56 32 1 26.2 1.6/2.0 M32×1.5 10 28 42.4 47.8
420LSF-57 40 1 32.1 1.6/2.0 M40×1.5 15 25 50 57
420LSF-59 50 1 44.0 2.0/2.5 M50×1.5 15 36 70.1 77.2
420LSF-61 63 1 55.9 2.5 M63×1.5 15 30 80 87.4
420LSF-62 75S 1 61.9 2.5 M75×1.5 15 40 85 95
420LSF-63 75 1 67.9 2.5 M75×1.5 15 40 98.8 109.2
Kit comprises:
BW Gland
Brass Earth Tag
Brass Locknut
LSOH Shroud
(2 per kit up to and including 25mm size)
BW LSOH Gland Kit
IndoorCableGland(420LSFSeries)
SUITABLE FOR USE WITH ALL LSOH STEEL WIRE ARMOURED CABLES
INDUSTRIALGLANDS
12. 12
Specifications
Features and benefits:
• Indoor type for SWA cable.
• Three Part Gland with separate locking ring
• Brass indoor gland and accessories
• For galvanized-steel single-wire armour plastic or rubber sheathed cables
• For use in dry, dust free situations
• Provides mechanical cable retention and electrical continuity via armour
locking mechanism
Technical Information:
Suitable for use with all Steel Wire Armoured Cables inc : BS 5467,
BS 6622, BS 5308
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS 6121-1: 2005
Service temperature range -20°C to +90°C
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour Ø (A)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Max A/F (G) A/C (H)
KJ417-51 16 2 8.6 0.9 M16×1.5 10 30 23.4 26.7
KJ417-52 20S 2 11.6 0.9 M20×1.5 10 32 25.7 29.2
KJ417-53 20 2 13.9 0.9/1.25 M20×1.5 10 32 27.0 30.5
KJ417-55 25 2 19.9 1.25/1.6 M25×1.5 10 33 36.0 40.0
KJ417-56 32 1 26.2 1.6/2.0 M32×1.5 10 35 42.4 48.0
KJ417-57 40 1 32.1 1.6/2.0 M40×1.5 15 36 56.4 61.5
KJ417-58 50s 1 38.1 2.0/2.5 M50×1.5 15 40 65.0 71.4
KJ417-59 50 1 44.0 2.0/2.5 M50×1.5 15 41 70.0 77.2
KJ417-60 63s 1 50.0 2.5 M63×1.5 15 39 79.5 87.4
KJ417-61 63 1 55.9 2.5 M63×1.5 15 41 79.5 87.4
KJ417-62 75S 1 61.9 2.5 M75×1.5 15 47 89.7 99.1
KJ417-63 75 1 67.9 2.5 M75×1.5 15 47 98.6 109.5
KJ417-64 85 1 75.0 3.15 M85x2.0 20 55 115 126
KJ417-65 90 1 82.5 3.15 M90x2.0 20 60.5 115 126
Kit comprises:
BW Gland
Brass Earth Tag
Brass Locknut
PVC Shroud
(2 per kit up to and including 25mm size)
BWL Gland Kit
IndoorCableGland(KJ417Series)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
INDUSTRIALGLANDS
13. 13
Specifications
Features and benefits:
• Suitable for indoor and outdoor applications.
• Suitable for use with all unarmoured circular cables.
• “Cable Grab Claw,” design - to grip cable firmly
• Available in four colours: black, red, white and grey.
• Supplied with locknut entry thread seal
Technical Information:
Material: UL approved nylon 66 94V-2
IP 68 rated
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Cable Diameter Ø mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
403K*51 16 10 5 10 M16x1.5 15 27 22 24.5
403K*53 20 10 10 14 M20x1.5 15 33 27 29
403K*55 25 10 13 18 M25x1.5 15 36 33 36
403K*56 32 10 18 25 M32x1.5 15 40 42 46.5
Kit comprises:
Nylon Gland
Rubber entry thread seal
Nylon lock nut
Nylon Cable Gland
CableGland(403KSeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED CABLES
Replace * to specify colour: B=Black , W=White , R=Red , G=Grey
INDUSTRIALGLANDS
14. 14
Specifications
Features and benefits:
• Suitable for indoor and outdoor applications.
• Suitable for use with all Fire Alarm Cables
• “Cable Grab Claw,” design - to grip cable firmly
• Compressible entry thread seals moulded into gland body
• Available in two colours: red and white
• Supplied complete with locknut
Technical Information:
Material: Flame Retardent Nylon
IP 68 rated
Complies with BS EN 50262
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Cable Diameter Ø mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
403P*52 20 100 6 12 M20x1.5 12 30 24 26.5
Kit comprises:
Nylon Gland
Nylon lock nut
Nylon Cable Gland
CableGland(FP250)
SUITABLE FOR USE WITH FIRE ALARM CABLES
Replace * to specify colour: R=Red , W=White
INDUSTRIALGLANDS
15. 15
Specifications
Features and benefits:
• Indoor outdoor type for un-armoured cable.
• Brass indoor and outdoor gland and accessories
• For circular, unarmoured plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
Technical Information:
Suitable for use with all Un-armoured Cables
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Service temperature range -20°C to +90°C
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Metric NPT Nickel Plated versions available
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size
Qty per Kit
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Metric NPT Min Max A/F (G) A/C (H)
KM409-51 KM409-51V 16 2 3.5 8.5 M16×1.5 10.0 20 19 21.5
KM409-71 KM409-71V 20SS 2 3.5 8.5 M20×1.5 10.0 20 22 24.9
KM409-52 KM409-52V 20S 2 8.0 11.5 M20×1.5 10.0 22 22 24.9
KM409-53 KM409-53V 20 2 11.0 13.5 M20×1.5 10.0 22 24 27
KM409-55 KM409-55V 25 2 13.0 19.5 M25×1.5 10.0 25 30.5 34
KM409-56 KM409-56V 32 1 19.0 25.5 M32×1.5 10.0 25 42.4 48
KM409-57 KM409-57V 40 1 25.0 32.0 M40×1.5 15.0 33 47.2 53.6
KM409-58 KM409-58V 50S 1 31.5 37.0 M50×1.5 15.0 30 55 60
KM409-59 KM409-59V 50 1 36.5 43.0 M50×1.5 15.0 30 56.4 61.5
KM409-60 KM409-60V 63S 1 42.5 50.0 M63×1.5 15.0 34 70.1 77.2
KM409-61 KM409-61V 63 1 49.5 55.0 M63×1.5 15.0 32 75 83
KM409-62 KM409-62V 75S 1 54.5 61.0 M75×1.5 15.0 32 80 87.4
KM409-63 KM409-63V 75 1 60.5 67.0 M75×1.5 15.0 40 85 95
KP409-65* KM409-65V 90 1 65.0 78.0 M90×2.0 20.0 45 106 117
KP409-66* KM409-66V 100 1 75.0 88.0 M100×2.0 20.0 45 115 126
KP409-67* KM409-67V 110 1 79.0 99.0 M110×2.0 20.0 55 Ø 132.0
409NP-04V ½” - 20S 1 8.0 11.5 ½” NPT 13.6 22 24.0 26.8
409NP-08V ¾” - 20 1 11.0 13.5 ¾” NPT 13.9 22 30.5 34.0
409NP-14V 1” - 25 1 13.0 19.5 1” NPT 17.5 25 37.6 42.2
409NP-20V 1 ¼” - 32 1 19.0 25.5 1 ¼” NPT 18.0 25 46 51
409NP-27V 1 ½” - 40 1 25.0 32.0 1 ½” NPT 18.5 33 56.4 61.5
409NP-31V 2” - 50S 1 31.5 37.0 2” NPT 19.5 30 65.5 72.1
409NP-32V 2” - 50 1 36.5 43.0 2” NPT 19.5 30 65.5 72.1
409NP-37V 2 ½” - 63S 1 42.5 50.0 2 ½” NPT 32.5 34 80 87.4
409NP-44V 3” - 75S 1 54.5 61.0 3” NPT 33.5 32 98.8 109.2
Kit comprises:
A1/A2 Gland
Brass Locknut
PVC Shroud
(2 per kit up to and including 25mm size)
A1/A2 Gland Kit
Indoor/OutdoorCableGland
(KM409Series)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED CABLES
*KP Kits contain only Gland Locknut **NPT threaded glands are supplied as glands only.
INDUSTRIALGLANDS
16. 16
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size Qty per Kit
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
423LSF-71 423LSF-71V 20SS 2 3.5 8.5 M20×1.5 10 20 22 24.9
423LSF-52 423LSF-52V 20S 2 8.0 11.5 M20×1.5 10 22 22 24.9
423LSF-53 423LSF-53V 20 2 11.0 13.5 M20×1.5 10 22 24 27
423LSF-55 423LSF-55V 25 2 13.0 19.5 M25×1.5 10 25 30.5 34
423LSF-56 423LSF-56V 32 1 19.0 25.5 M32×1.5 10 25 42.4 48
423LSF-57 423LSF-57V 40 1 25.0 32.0 M40×1.5 15 33 47.2 53.6
423LSF-58 423LSF-58V 50S 1 31.5 37.0 M50×1.5 15 30 55 60
423LSF-59 423LSF-59V 50 1 36.5 43.0 M50×1.5 15 30 56.4 61.5
423LSF-60 423LSF-60V 63S 1 42.5 50.0 M63×1.5 15 34 70.1 77.2
423LSF-61 423LSF-61V 63 1 49.5 55.0 M63×1.5 15 32 75 83
423LSF-62 423LSF-62V 75S 1 54.5 61.0 M75×1.5 15 32 80 87.4
423LSF-63 423LSF-63V 75 1 60.5 67.0 M75×1.5 15 40 85 95
Features and benefits:
• Indoor outdoor type for LSOH un-armoured cable.
• Brass indoor and outdoor gland and accessories
• For circular, unarmoured plastic or rubber LSOH sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
Technical Information:
Suitable for use with all LSOH un-armoured Cables
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Complies with LU Standard 1-085 for installation in all
sub-surface locations
LUL APR Product ID 1971
Nickel Plated and standard versions available
Kit comprises:
A1/A2 Gland
Brass Locknut
LSOH Shroud
(2 per kit up to and including 25mm size)
A1/A2 LSOH Gland Kit
Indoor/OutdoorCableGland
(423LSFSeries)
SUITABLE FOR USE WITH CIRCULAR LSOH UN-ARMOURED CABLES
INDUSTRIALGLANDS
17. 17
Features and benefits:
• Indoor outdoor type for flexible wire braided cable.
• Brass indoor and outdoor gland and accessories
• For circular unarmoured, or wire braid or screened, plastic or rubber
sheathed cables
• Superior retention capability
• Suitable for most climatic conditions, weatherproof and waterproof
Technical Information:
Suitable for use with CY SY type cables
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -50°C to +200°C
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
423AX-52 20S 2 5.5 11.5 M20×1.5 15 34 22 24.9
423AX-53 20 2 8.0 16.0 M20×1.5 15 44 25.7 28.7
423AX-55 25 2 11.5 21.0 M25×1.5 15 46 33.0 36.9
Kit comprises:
AXT Gland
2 x Flat Brass Washers
Brass Earth Tag
Steel Locknut
PVC Shroud
(2 per kit)
AXT Gland Kit
Indoor/OutdoorCableGland
(423AXSeries)
SUITABLE FOR USE WITH FLEXIBLE WIRE BRAIDED CABLES (E.G. CY SY TYPES)
Specifications
INDUSTRIALGLANDS
18. 18
Features and benefits:
• Indoor outdoor type for SWA cable.
• Brass indoor outdoor gland and accessories
• For galvanized-steel single-wire armour plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for checking
electrical continuity
Technical Information:
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Metric NPT versions available
Kit comprises:
CW Gland
Brass Earth Tag
Brass Locknut
PVC Shroud
(2 per kit up to and including 25mm size)
CW Gland Kit
Indoor/OutdoorCableGland
(KA419Series)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size
Qty
per Kit
Under Armour
Max Ø (A)
Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread
Length
(E)
Protrusion
Length
(F)
Hexagon
Standard Nickel Plated Metric NPT Min Max A/F (G) A/C (H)
KA419-51 KA419-51V 16 2 8.6 8.0 13.2 0.9 M16×1.5 10 44 20.8 23.8
KA419-71 KA419-71V 20SS 2 8.6 8.0 13.2 0.9 M20×1.5 10 44 23.4 26.7
KA419-52 KA419-52V 20S 2 11.6 8.0 15.8 0.9 M20×1.5 10 46 25.7 29.2
KA419-53 KA419-53V 20 2 13.9 11.7 20.8 0.9/1.25 M20×1.5 10 46 30.5 34
KA419-55 KA419-55V 25 2 19.9 17.0 27.2 1.25/1.6 M25×1.5 10 51 37.6 42.2
KA419-56 KA419-56V 32 1 26.2 23.5 33.5 1.6/2.0 M32×1.5 10 56 47.3 53.6
KA419-57 KA419-57V 40 1 32.1 29.0 39.9 1.6/2.0 M40×1.5 15 59 56.4 61.5
KA419-58 KA419-58V 50S 1 38.1 38.0 46.2 2.0/2.5 M50×1.5 15 64 65.5 72.1
KA419-59 KA419-59V 50 1 44.0 39.5 52.6 2.0/2.5 M50×1.5 15 64 70.1 77.2
KA419-61 KA419-61V 63 1 55.9 51.3 65.3 2.5 M63×1.5 15 67 80 87.4
KA419-63 KA419-63V 75 1 67.9 62.5 78.0 2.5 M75×1.5 15 76 98.8 109.2
KA419-64 KA419-64V 85 1 74 68 88 3.15 M85×2.0 20 110 115 126
KA419-65 KA419-65V 90 1 79 79 90 3.15 M90×2.0 20 136 Ø 114
KA419-66 KA419-66V 100 1 89 89 99 3.15 M100×2.0 20 136 Ø 132.5
KA419-67 KA419-67V 110 1 99.5 99.5 112.5 3.15 M110×2.0 20 136 Ø 138.5
419NP-10V 1” - 20S 1 11.6 8.0 15.8 1.25 1” NPT 17.5 46 36.0 40.0
419NP-08V ¾” - 20 1 13.9 11.7 20.8 0.9/1.25 ¾” NPT 14.0 46 30.5 34
419NP-12V 1” - 25 1 19.9 17.0 27.2 1.25/1.6 1” NPT 17.5 51 37.6 42.2
419NP-16V 1 ¼” - 32 1 26.2 23.5 33.5 1.6/2.0 1 ¼” NPT 18 56 47.3 53.6
419NP-25V 2 ½” - 50 1 44.0 39.5 52.6 2.0/2.5 2 ½” NPT 29 64 80 87.4
419NP-26V 2 ½” - 63 1 55.9 51.3 65.3 2.5 2 ½” NPT 29 67 80 87.4
*NPT threaded glands are supplied as glands only. **Other NPT sizes available upon request.
INDUSTRIALGLANDS
19. 19
Features and benefits:
• Indoor outdoor type for SWA cable.
• 15mm Entry threads to facilitate extra seals / Lock washers
• Brass indoor outdoor gland and accessories
• For galvanized-steel single-wire armour plastic or rubber sheathed cables
• Three part amour lock with separate armour locking ring, ideal for checking
electrical continuity
• Suitable for most climatic conditions, weatherproof and waterproof
Technical Information:
Suitable for use with all Steel Wire Armoured Cables inc: BS 5467,
BS 6622, BS 5308
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Kit comprises:
CW Gland
Brass Earth Tag
Brass Locknut
PVC Shroud
(2 per kit up to and including 25mm size)
CW-B Gland Kit (Long entry thread)
Indoor/OutdoorCableGland
(KA419-BSeries)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour
Max Ø (A)
Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
KA419-B81 16 2 8.6 8.0 13.2 0.9 M16×1.5 15 44 20.8 23.8
KA419-B91 20SS 2 8.6 8.0 13.2 0.9 M20×1.5 15 44 23.4 26.7
KA419-B82 20S 2 11.6 8.0 15.8 0.9 M20×1.5 15 46 25.7 29.2
KA419-B83 20 2 13.9 11.7 20.8 0.9/1.25 M20×1.5 15 46 30.5 34
KA419-B85 25 2 19.9 17.0 27.2 1.25/1.6 M25×1.5 15 51 37.6 42.2
KA419-B86 32 1 26.2 23.5 33.5 1.6/2.0 M32×1.5 15 56 47.3 53.6
INDUSTRIALGLANDS
20. 20
Features and benefits:
• Indoor outdoor type for LSOH SWA cable.
• Brass indoor outdoor gland and LSOH accessories
• For galvanized-steel single-wire armour LSOH plastic or rubber
sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for
checking electrical continuity
Technical Information:
Suitable for use with all Steel Wire Armoured Cables inc: BS 6724,
BS 8519, BS 7846, BS 6387, BS 7835
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Complies with LU Standard 1-085 for installation in all
sub-surface locations
LUL APR Product ID 1969
Nickel Plated and standard versions available
Kit comprises:
CW Gland
Brass Earth Tag
Brass Locknut
LSOH Shroud
(2 per kit up to and including 25mm size)
CW LSOH Gland Kit
Indoor/OutdoorCableGland
(422LSFSeries)
SUITABLE FOR USE WITH ALL LSOH STEEL WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Qty
per Kit
Under Armour
Max Ø (A)
Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread
Length
(E)
Protrusion
Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
422LSF-51 422LSF-51V 16 2 8.6 8.0 13.2 0.9 M16×1.5 10 44 20.8 23.8
422LSF-71 422LSF-71 V 20SS 2 8.6 8.0 13.2 0.9 M20×1.5 10 44 23.4 26.7
422LSF-52 422LSF-52 V 20S 2 11.6 8.0 15.8 0.9 M20×1.5 10 46 25.7 29.2
422LSF-53 422LSF-53 V 20 2 13.9 11.7 20.8 0.9/1.25 M20×1.5 10 46 30.5 34
422LSF-55 422LSF-55 V 25 2 19.9 17.0 27.2 1.25/1.6 M25×1.5 10 51 37.6 42.2
422LSF-56 422LSF-56 V 32 1 26.2 23.5 33.5 1.6/2.0 M32×1.5 10 56 47.3 53.6
422LSF-57 422LSF-57 V 40 1 32.1 29.0 39.9 1.6/2.0 M40×1.5 15 59 56.4 61.5
422LSF-58 422LSF-58 V 50S 1 38.1 38.0 46.2 2.0/2.5 M50×1.5 15 64 65.5 72.1
422LSF-59 422LSF-59 V 50 1 44.0 39.5 52.6 2.0/2.5 M50×1.5 15 64 70.1 77.2
422LSF-61 422LSF-61 V 63 1 55.9 51.3 65.3 2.5 M63×1.5 15 67 80 87.4
422LSF-63 422LSF-63 V 75 1 67.9 62.5 78.0 2.5 M75×1.5 15 76 98.8 109.2
422LSF-64 422LSF-64 V 85 1 74 68 88 3.15 M85×2.0 20 110 115 126
INDUSTRIALGLANDS
21. 21
Features and benefits:
• Aluminium indoor outdoor gland and accessories
• For Aluminium -wire armour plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for
checking electrical continuity
• No Risk of Bi-metallic corrosion when clamping Aluminium Armours
Technical Information:
Suitable for use with all Aluminium Wire Armoured Cables inc: BS 5467,
BS 6622, BS 5308
Constructed using 6082-T6 Alluminium alloy
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Kit comprises:
CW-AL Gland
Aluminium Earth Tag
Aluminium Locknut
PCP Shroud
(2 per kit up to and including 25mm size)
CW-AL Gland Kit
Indoor/OutdoorCableGland
(KA422Series)
SUITABLE FOR USE WITH ALL ALUMINIUM WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour
Max Ø (A)
Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
KA422-52 20S 2 11.6 8.0 15.8 0.9/1.25 M20×1.5 10 46 25.7 29.2
KA422-53 20 2 13.9 11.7 20.8 0.9/1.25 M20×1.5 10 46 30.5 34
KA422-55 25 2 19.9 17.0 27.2 1.25/1.6 M25×1.5 10 51 37.6 42.2
KA422-56 32 1 26.2 23.5 33.5 1.6/2.0 M32×1.5 10 56 47.3 53.6
KA422-57 40 1 32.1 29.0 39.9 1.6/2.0 M40×1.5 15 59 56.4 61.5
KA422-58 50S 1 38.1 38.0 46.2 2.0/2.5 M50×1.5 15 64 65.5 72.1
KA422-59 50 1 44.0 39.5 52.6 2.0/2.5 M50×1.5 15 64 70.1 77.2
KA422-61 63 1 55.9 51.3 65.3 2.5 M63×1.5 15 67 80 87.4
KA422-63 75 1 67.9 62.5 78.0 2.5 M75×1.5 15 76 98.8 109.2
KA422-64 85 1 74 68 88 3.15 M85×2.0 20 110 115 126
INDUSTRIALGLANDS
22. 22
Features and benefits:
• Indoor outdoor type for LSOH Aluminium cable.
• Aluminium indoor outdoor gland and LSOH accessories
• For Aluminium wire armour LSOH plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for
checking electrical continuity
• No Risk of Bi-metallic corrosion when clamping Aluminium Armours
Technical Information:
Suitable for use with all Aluminium Wire Armoured Cables inc:
BS 6724, BS 7835
Constructed using 6082-T6 Alluminium alloy
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Kit comprises:
CW-AL Gland
Aluminium Earth Tag
Aluminium Locknut
LSOH Shroud
(2 per kit up to and including 25mm size)
CW-AL LSOH Gland Kit
Indoor/OutdoorCableGland
(432LSFSeries)
SUITABLE FOR USE WITH ALL LSOH ALUMINIUM WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Armour
Max Ø (A)
Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
432LSF-52 20S 2 11.6 8.0 15.8 0.9 M20×1.5 10 46 25.7 29.2
432LSF-53 20 2 13.9 11.7 20.8 0.9/1.25 M20×1.5 10 46 30.5 34
432LSF-55 25 2 19.9 17.0 27.2 1.25/1.6 M25×1.5 10 51 37.6 42.2
432LSF-56 32 1 26.2 23.5 33.5 1.6/2.0 M32×1.5 10 56 47.3 53.6
432LSF-57 40 1 32.1 29.0 39.9 1.6/2.0 M40×1.5 15 59 56.4 61.5
432LSF-58 50S 1 38.1 38.0 46.2 2.0/2.5 M50×1.5 15 64 65.5 72.1
432LSF-59 50 1 44.0 39.5 52.6 2.0/2.5 M50×1.5 15 64 70.1 77.2
432LSF-61 63 1 55.9 51.3 65.3 2.5 M63×1.5 15 67 80 87.4
432LSF-63 75 1 67.9 62.5 78.0 2.5 M75×1.5 15 76 98.8 109.2
INDUSTRIALGLANDS
23. 23
Features and benefits:
• Indoor outdoor type for Wire Braid Armour cable
• Brass indoor outdoor gland and accessories
• For Wire braid armour plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for
checking electrical continuity
Technical Information:
Suitable for use with all Wire Braid Armoured Cables
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Kit comprises:
CX Gland
Brass Earth Tag
Brass Locknut
PCP Shroud
(2 per kit up to and including 25mm size)
CX Gland Kit
Indoor/OutdoorCableGland
(KA414Series)
SUITABLE FOR USE WITH ALL BRAID WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Braid
Max Ø (A)
Overall Ø (B)
Braid Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
KA414-81 16* 2 7.5 3.5 9.2 0.2 / 0.3 M16×1.5 10 40 19.0 21.5
KA414-91 20mini* 2 7.5 3.5 9.2 0.2 / 0.3 M20×1.5 15 40 22.0 24.9
KA414-51 16 2 8.6 8.0 13.2 0.2 / 0.3 M16×1.5 10 44 23.4 26.7
KA414-71 20SS 2 8.6 8.0 13.2 0.2 / 0.3 M20×1.5 10 44 23.4 26.7
KA414-52 20S 2 11.6 8.0 15.8 0.2 / 0.3 M20×1.5 10 46 25.7 29.2
KA414-53 20 2 13.9 11.7 20.8 0.2 / 0.3 M20×1.5 10 46 30.5 34
KA414-55 25 2 19.9 17.0 27.2 0.2 / 0.45 M25×1.5 10 51 37.6 42.2
KA414-56 32 1 26.2 23.5 33.5 0.3 / 0.45 M32×1.5 10 56 47.3 53.6
KA414-57 40 1 32.1 29.0 39.9 0.3 / 0.45 M40×1.5 15 59 56.4 61.5
KA414-59 50 1 44.0 39.5 52.6 0.3 / 0.45 M50×1.5 15 64 70.1 77.2
KA414-61 63 1 55.9 51.3 65.3 0.3 / 0.45 M63×1.5 15 67 80.0 87.4
KA414-63 75 1 67.9 62.5 78.0 0.3 / 0.45 M75×1.5 15 76 98.8 109.2
KA414-64 85 1 74 68 88 0.3 / 0.45 M85×2.0 20 110 115 126
KA414-65 90 1 79 79 90 0.3 / 0.45 M90×2.0 20 136 Ø 114
* For use with miniature braided cables. These kits do not include a shroud
INDUSTRIALGLANDS
24. 24
Features and benefits:
• Indoor outdoor type for Wire Braid Armour cable.
• 15mm Entry threads to facilitate extra seals / Lock washers
• Brass indoor outdoor gland and accessories
• For Wire braid armour plastic or rubber sheathed cables
• Suitable for most climatic conditions, weatherproof and waterproof
• Three part amour lock with separate armour locking ring, ideal for
checking electrical continuity
Technical Information:
Suitable for use with all Wire Braid Armoured Cables
CuZn39Pb3 brass alloy used for guaranteed strength and performance
Complies with BS EN 50262 BS 6121-1: 1989
Gland rated to IP66 with use of suitable sealing washer or thread sealant
at gland interface
Service temperature range -20°C to +90°C
Kit comprises:
CX Gland
Brass Earth Tag
Brass Locknut
PCP Shroud
(2 per kit up to and including 25mm size)
CX-B Gland Kit (Long entry thread)
Indoor/OutdoorCableGland
(KA414-BSeries)
SUITABLE FOR USE WITH ALL BRAID WIRE ARMOURED CABLES
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size Qty per Kit
Under Braid
Max Ø (A)
Overall Ø (B)
Braid Armour
Wire Ø
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
KA414-B81 16 2 8.6 8.0 13.2 0.2 / 0.3 M16×1.5 15 44 23.4 26.7
KA414-B91 20SS 2 8.6 8.0 13.2 0.2 / 0.3 M20×1.5 15 44 23.4 26.7
KA414-B82 20S 2 11.6 8.0 15.8 0.2 / 0.3 M20×1.5 15 46 25.7 29.2
KA414-B83 20 2 13.9 11.7 20.8 0.2 / 0.3 M20×1.5 15 46 30.5 34
KA414-B85 25 2 19.9 17.0 27.2 0.2 / 0.45 M25×1.5 15 51 37.6 42.2
KA414-B86 32 1 26.2 23.5 33.5 0.3 / 0.45 M32×1.5 15 56 47.3 53.6
INDUSTRIALGLANDS
32. 32
Introduction to
Hazardous Areas
Explosive Atmospheres
Explosive Atmospheres are defined as a combination
of flammable gases, vapours or solids ( dusts fibres )
mixed with Air. When combined with a source of ignition
the combination will combust burning all of the available
flammable mixture.
Hazardous Locations
In order to protect personal and equipment from potential
explosions the principle of area classification is used - this
involves risk assessing the plant area and defining areas
according to the type of flammable material and the
probability of its release to create an explosive atmosphere.
Area classification
Under the IECEx / Atex systems a plant will be divided into
non-hazardous and hazardous areas. The hazardous areas are then
sub-divided into Zones.
Combustible Gases Vapours :
Zone 0 : Explosive Atmosphere permanently present , or present
for very long periods.
Zone 1 : Explosive Atmospheres may be present as a result of
normal operation
Zone 2 : Explosive Atmospheres not present as a result of normal
operations and if they do occur they are only present for a very
short duration.
Combustible Dusts Fibres:
Zones 20 , 21 and 22 are the dust fibre equivalents of
Zones 0,1 2.
Ex Ia Ex Ib -Intrinsically safe equipment designed in such a
way that the energy of any spark is lower than that can ignite a
flammable mixture. Ia is designed to a higher integrity and can
be used in Zone 0 locations whereas Ib is only suitable for Zone
1 2 locations.
Ex d – Flameproof equipment is designed in such a way that it
can contain / control an ignited flammable mixture and prevent
it from igniting any flammable mixture that may be outside the
equipment. This protection method can be used in Zones 1 2.
Ex e – Increased safety equipment is designed using
components that cannot create arcs and sparks i.e. result in
ignition – these enclosures can be made from thinner section
materials but are required to be sealed to a minimum ingress
protection level of IP54. This protection method can be used in
Zones 1 2.
Ex p – pressurized equipment that is constantly pressurized such
that flammable mixtures are continuously expelled from the
equipment. This protection method can be used in zones 1 2.
Ex nA - Similar to Exe in that equipment should not create arcs
and sparks but not to the same stringent levels. This protection
method can only be used in Zone 2.
Ex nR - Restricted breathing equipment is fitted with tightly
fitting seals which help prevent the ingress of explosive
mixtures and thus prevents them from reaching hot
components. This protection method can only be used in Zone 2.
Protection Methods - (applicable to Bicon glands)
HAZARDOUSGLANDS
33. 33
Gas Groups
Explosive gases are split into 2 groups:
Group 1: Underground mining related gases i.e
Firedamp / Methane
Group 2: Gases present in other locations.
Exd and Exi Equipment used with Group 2 gases are further
sub divided into 3 categories IIA, IIB IIC appropriate to the
gas / vapour sub-division.
Surface Temperature classification
Temperature Class Max surface Temp ºC
T1 450
T2 300
T3 200
T4 135
T5 100
T6 85
Gas / Vapour Equipment Sub Group Allowed
Hydrogen IIC
Acetylene IIC
Carbon Di-Sulphide IIC
Hydrogen Sulphide IIC , IIB
Ethylene Sulphide IIC , IIB
Ethylene IIC , IIB
Propane IIC , IIB , IIA
Butane IIC , IIB , IIA
Temperature Ratings / Classes
for Cable Glands
Cable glands are not allocated a ‘T’ class because they are
designed as a component part of a piece of equipment and in
themselves do not produce heat; therefore it is impossible to
assess any heating effects. However glands are allocated a
‘service’ temperature, which is the temperature range to which
a gland may be subjected to in service (if not specified in the
certification report this is assumed to be -20ºC / +40ºC and it is
the responsibility of the user, in accordance with the installation
codes of practice, to select an appropriate gland.
In some cases it may be possible for a gland manufacturer to
state that a gland is suitable for a specific ‘T’ class application,
i.e. where the glands specified ‘service’ temperature significantly
exceeds the limiting temperature of the specified ‘T’ class, but
the gland will not be marked with any ‘T’ rating. In most cases
the above assessment is best left to the user, since ‘T’ classes are
allocated on the basis of a maximum possible external surface
temperature, whilst in service the gland may see greater internal
temperatures, or vastly reduced temperatures, due to factors
like positioning, the external ambient and the geometry of the
enclosure to which they are fitted.
34. 34
Barrier Glands when required
Selection of cable glands (BS EN 60079-14:2008 10.4.2 Selection of cable glands)
The cable entry system shall comply with one of the following:
A) Cable glands in compliance with IEC 60079-1 and certified as part of the equipment when tested with a sample of the particular
type of cable;
B) Where a cable, in compliance with 9.3.1(a) is substantially compact; a flameproof cable gland, in compliance with IEC 60079-1,
may be utilized, providing this incorporates a sealing ring and is selected in accordance with Figure 2.
C) Compliance with Figure 1 is not necessary if the cable gland complies with IEC 60079-1 and has been tested with a sample of
specific cable to repeated ignitions of the flammable gas inside an enclosure and shows no ignition outside the enclosure.
D) Flameproof sealing device (for example a sealing chamber) specified in the equipment documentation or complying with IEC
60079-1 and employing a cable gland appropriate to the cables used. The sealing device shall incorporate compound or other
appropriate seals which permit stopping around individual cores. The sealing device shall be fitted at the point of entry of
cables to the equipment;
E) Flameproof cable gland, specified in the equipment documentation or complying with IEC 60079-1, incorporating compound
filled seals or elastomeric seals that seal around the individual cores or other equivalent sealing arrangements;
Does this
enclosure contain
an internal source
of ignition? a
Is the
area of
installation
zone 1?
Does the
hazardous
gas require IIC
apparatus?
Is the
volume b
of the
enclosure greater
than 2 dm3
?
START
10.4.2
Apply
D) or E)
Use a suitable
flameproof
cable entry
device with a
sealing ring
Yes No
Yes
Yes No
No
No
Yes
a
Internal sources of ignition include sparks or equipment temperatures occurring in normal operation which can cause ignition.
An enclosure containing terminals only or an indirect entry enclosure (see 10.4.1) is considered not to
constitute an internal source of ignition.
IEC 2696/02
HAZARDOUSGLANDS
36. 36
HAZARDOUS GLAND SELECTION CHART
A2EX A2EXBarr-W Barr-X
Armour
Type?
Armour
Type?
Zone 1?
IIC?
Armour
Type?
Armoured
Cable?
Armoured
Cable?
Volume
2 litres?
Armoured
Cable?
Ignition
Source?
Cable
Construction?
Equipment Type?
E1WF
E1W-XL
Excel
Plus
Excel
Plus
Excel
Plus
E1W-XL
Excel
Plus
E1WF
SWA
SWA
SWA
E1XF
E1W-XL
Excel
Plus
E1W-XL
Excel
Plus
E1XF
Barr-A
Barrier
Type
Fameproof
Type
Braid
Braid
Braid
No
No
No
Yes
Yes Yes
TapeTape
Yes
Yes
Yes
No
No
No
No
Yes
Fully Filled
Ex dEx e
Not
Fully
Filled
METRIC GLANDS TO
ATEX IECEX STANDARDS
HAZARDOUSGLANDS
38. 38
Features and benefits:
• Nylon indoor and outdoor cable gland for use in hazardous locations.
• Suitable for use with all unarmoured circular cables.
• Suitable for most climatic conditions - weather proof waterproof
• Supplied with nylon locknut
Technical Information:
Achieves IP66 and IP68 seal onto cable and to enclosure with
suitable sealing washer or thread sealant
Certified ΙΙ 2GD, Ex e ΙΙ under ATEX directive 94/9/EC.
Atex Compliance Standards: EN 60079-0, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number LCIE07ATEX6082X.
Service temperature range –35°C to +95°C.
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Kit comprises:
Nylon Gland
Nylon lock nut
Nylon Ex e
CableGland
(403ATSeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED CABLES
Specifications
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference Size
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Min Max A/F (G) A/C (H)
403AT-51 16 5 8 M16x1.5 15 27 22 24.2
403AT-52 20S 7 12 M20x1.5 15 30 26 28.6
403AT-53 20 10 14 M20x1.6 15 33 26 28.6
403AT-55 25 12 18 M25x1.5 15 38 32 35.2
403AT-56 32 16 25 M32x1.5 15 42 42 46.2
403AT-57 40 22 32 M40x1.5 16 52 54 59.4
403AT-59 50 28 38.5 M50x1.5 16 55 66 72.6
403AT-61 63 40 48 M63x1.5 16 56 80 88
HAZARDOUSGLANDS
39. 39
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1,
IEC 60079-7, IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
494AB-51 494AB-51V 16 3.5 8.5 M16×1.5 15 36 22 24.9
494AB-71 494AB-71V 20SS 3.5 8.5 M20×1.5 15 36 22 24.9
494AB-52 494AB-52V 20S 8.0 11.5 M20×1.5 15 36 22 24.9
494AB-53 494AB-53V 20 8.0 16.0 M20×1.5 15 34 25.7 28.7
494AB-55 494AB-55V 25 11.5 21.0 M25×1.5 15 44 33 36.9
494AB-56 494AB-56V 32 18.5 27.5 M32×1.5 15 38 37.5 42.2
494AB-57 494AB-57V 40 24.0 34.0 M40×1.5 15 46 47.2 53.6
494AB-59 494AB-59V 50 31.0 41.0 M50×1.5 15 44 56.4 61.5
494AB-61 494AB-61V 63 40.0 52.5 M63×1.5 15 61 70 77.2
494AB-62 494AB-62V 75S 52.5 58.0 M75×1.5 15 46 80 87.4
494AB-63 494AB-63V 75 54.5 65.5 M75×1.5 15 66 80 87.4
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EX Ex d IIC / Ex e II
CableGland
(494ABSeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Sizes 32mm and above shall only be used for fixed installations.
In addition the user / installer should ensure that the cables are adequately clamped.
HAZARDOUSGLANDS
40. 40
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
494NE-03 494NE-03V ½”- 16 3.5 8.5 ½” NPT 15.5 36 25.7 28.7
494NE-04 494NE-04V ½”- 20S 8.0 11.5 ½” NPT 15.5 36 27.8 31.8
494NE-05 494NE-05V ½”- 20 8.0 16.0 ½” NPT 15.5 34 33 36.9
494NE-08 494NE-08V ¾” - 20 8.0 16.0 ¾” NPT 16.4 34 33 36.9
494NE-10 494NE-10V ¾” - 25 11.5 21.0 ¾” NPT 16.4 44 33 36.9
494NE-14 494NE-14V 1” - 25 11.5 21.0 1” NPT 19.5 44 37.5 42.2
494NE-15 494NE-15V 1” - 32 18.5 27.5 1” NPT 19.5 38 37.5 42.2
494NE-20 494NE-20V 1¼” - 32 18.5 27.5 1¼” NPT 20.5 38 47.2 52.9
494NE-21 494NE-21V 1¼” - 40 24.0 34.0 1¼” NPT 20.5 46 47.2 53.6
494NE-27 494NE-27V 1 ½” - 40 24.0 34.0 1½” NPT 21 46 56.4 63.1
494NE-32 494NE-32V 2” - 50 31.0 41.0 2” NPT 22 44 65 71.5
494NE-38 494NE-38V 2½” - 63 40.0 52.5 2½” NPT 32.5 61 80 87.4
494NE-44 494NE-44V 3” - 75S 52.5 58.0 3” NPT 33.5 46 98.8 109.2
494NE-45 494NE-45V 3”- 75 54.5 65.5 3” NPT 33.5 66 98.8 109.2
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EX(NPT) Ex d IIC / Ex e II
CableGland
(494NESeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Sizes 32 and above shall only be used for fixed installations.
In addition the user / installer should ensure that the cables are adequately clamped.
*NPT Threaded glands are supplied as glands only. **Other NPT sizes available upon request.
HAZARDOUSGLANDS
41. 41
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
Gland Kit Reference
Cable Dimensions
mm
Gland Dimensions mm
Design Reference
Size
Qty per
Kit
Cable Diameter Ø (B)
mm Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
KM494-51 KM494-51V 16 2 3.5 8.5 M16×1.5 15 36 22 24.9
KM494-71 KM494-71V 20SS 2 3.5 8.5 M20×1.5 15 36 22 24.9
KM494-52 KM494-52V 20S 2 8.0 11.5 M20×1.5 15 36 22 24.9
KM494-53 KM494-53V 20 2 8.0 16.0 M20×1.5 15 34 25.7 28.7
KM494-55 KM494-55V 25 2 11.5 21.0 M25×1.5 15 44 33 36.9
KM494-56 KM494-56V 32 1 18.5 27.5 M32×1.5 15 38 37.5 42.2
KM494-57 KM494-57V 40 1 24.0 34.0 M40×1.5 15 46 47.2 53.6
KM494-59 KM494-59V 50 1 31.0 41.0 M50×1.5 15 44 56.4 61.5
KM494-61 KM494-61V 63 1 40.0 52.5 M63×1.5 15 61 70 77.2
KM494-62 KM494-62V 75S 1 52.5 58.0 M75×1.5 15 46 80 87.4
KM494-63 KM494-63V 75 1 54.5 65.5 M75×1.5 15 66 80 87.4
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EX Ex d IIC / Ex e II
CableGlandkit
(KM494Series)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Sizes 32 and above shall only be used for fixed installations.
In addition the user / installer should ensure that the cables are adequately clamped.
Kit comprises:
A2EX Gland
Brass Locknut
Nylon Sealing Washer
PVC Shroud
(2 per kit up to and including 25mm size)
HAZARDOUSGLANDS
42. 42
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
495AB-51 495AB-51V 16 3.5 8.5 M16×1.5 15 65 22 24.9
495AB-71 495AB-71V 20SS 3.5 8.5 M20×1.5 15 65 22 24.9
495AB-52 495AB-52V 20S 8.0 11.5 M20×1.5 15 62 22 24.9
495AB-53 495AB-53V 20 8.0 16.0 M20×1.5 15 81 25.7 28.7
495AB-55 495AB-55V 25 11.5 21.0 M25×1.5 15 85 33 36.9
495AB-56 495AB-56V 32 18.5 27.5 M32×1.5 15 69 37.5 42.2
495AB-57 495AB-57V 40 24.0 34.0 M40×1.5 15 82 47.2 53.6
495AB-59 495AB-59V 50 31.0 41.0 M50×1.5 15 79 56.4 61.5
495AB-61 495AB-61V 63 40.0 52.5 M63×1.5 15 113.5 70 77.2
495AB-62 495AB-62V 75S 52.5 58.0 M75×1.5 15 78.5 80 87.4
495AB-63 495AB-63V 75 54.5 65.5 M75×1.5 15 120 80 87.4
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EXP Ex d IIC / Ex e II
DualSealCableGland
(495ABSeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Sizes 75s and 75 shall only be used for fixed installations.
In addition the user / installer should ensure that the cables are adequately clamped.
HAZARDOUSGLANDS
43. 43
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EXP (NPT) Ex d IIC / Ex e II
DualSealCableGland
(495NESeries)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Specifications
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Cable Diameter Ø (B) mm
Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
495NE-03 495NE-03V ½”- 16 3.5 8.5 ½” NPT 15.5 65 25.7 28.7
495NE-04 495NE-04V ½”- 20S 8.0 11.5 ½” NPT 15.5 65 27.8 31.8
495NE-05 495NE-05V ½”- 20 8.0 16.0 ½” NPT 15.5 62 33 36.9
495NE-08 495NE-08V ¾” - 20 8.0 16.0 ¾” NPT 16.4 62 33 36.9
495NE-10 495NE-10V ¾” - 25 11.5 21.0 ¾” NPT 16.4 81 33 36.9
495NE-14 495NE-14V 1” - 25 11.5 21.0 1” NPT 19.5 81 37.5 42.2
495NE-15 495NE-15V 1” - 32 18.5 27.5 1” NPT 19.5 69 37.5 42.2
495NE-20 495NE-20V 1¼” - 32 18.5 27.5 1¼” NPT 20.5 69 47.2 52.9
495NE-21 495NE-21V 1¼” - 40 24.0 34.0 1¼” NPT 20.5 82 47.2 53.6
495NE-27 495NE-27V 1½”- 40 24.0 34.0 1½” NPT 21 82 56.4 63.1
495NE-32 495NE-32V 2” - 50 31.0 41.0 2” NPT 22 79 65 71.5
495NE-38 495NE-38V 2½” - 63 40.0 52.5 2½” NPT 32.5 113.5 80 87.4
495NE-44 495NE-44V 3”- 75S 52.5 58.0 3” NPT 33.5 78.5 98.8 109.2
495NE-45 495NE-45V 3”- 75 54.5 65.5 3” NPT 33.5 120 98.8 109.2
*NPT Threaded glands are supplied as glands only. **Other NPT sizes available upon request.
Sizes 75s and 75 shall only be used for fixed installations.
In addition the user / installer should ensure that the cables are adequately clamped.
HAZARDOUSGLANDS
44. 44
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular unarmoured cables with extruded oversheath
• Fitted with silicone rubber low smoke, zero halogen seal
• Achieves IP66, IP68 (1 bar) and deluge proof (DTS01:1991) seal onto
cable and to enclosure with suitable sealing washer or thread sealant
• Suitable for most climatic conditions – weatherproof, waterproof and
deluge proof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira99ATEX1086X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0069X
Service temperature range –50°C to +200°C
UL Classified in accordance with IEC 60079-0, 60079-1 and 60079-7 for use
in hazardous locations
UL Listed for use in Class 1, Zone 0, 1 and 2 hazardous locations for Canada
Gland Kit Reference
Cable Dimensions
mm
Gland Dimensions mm
Design Reference
Size
Qty per
Kit
Cable Diameter Ø (B)
mm Entry Thread
(D)
Thread Length
(E)
Protrusion Length
(F)
Hexagon
Standard Nickel Plated Min Max A/F (G) A/C (H)
KM495-51 KM495-51V 16 2 3.5 8.5 M16×1.5 15 65 22 24.9
KM495-71 KM495-71V 20SS 2 3.5 8.5 M20×1.5 15 65 22 24.9
KM495-52 KM495-52V 20S 2 8.0 11.5 M20×1.5 15 62 22 24.9
KM495-53 KM495-53V 20 2 8.0 16.0 M20×1.5 15 81 25.7 28.7
KM495-55 KM495-55V 25 2 11.5 21.0 M25×1.5 15 85 33 36.9
KM495-56 KM495-56V 32 1 18.5 27.5 M32×1.5 15 69 37.5 42.2
KM495-57 KM495-57V 40 1 24.0 34.0 M40×1.5 15 82 47.2 53.6
KM495-59 KM495-59V 50 1 31.0 41.0 M50×1.5 15 79 56.4 61.5
KM495-61 KM495-61V 63 1 40.0 52.5 M63×1.5 15 113.5 70 77.2
KM495-62 KM495-62V 75S 1 52.5 58.0 M75×1.5 15 78.5 80 87.4
KM495-63 KM495-63V 75 1 54.5 65.5 M75×1.5 15 120 80 87.4
May be used in:
• Zones 0, 1 2 with Ex ia ΙΙA, B C equipment
• Zones 1 2 with Ex ib ΙΙA, B C equipment
• Zones 1 2 with Ex e ΙΙ equipment
• Zones 1 2 with Ex p ΙΙ equipment
• Zone 2 with Ex nA ΙΙ equipment
• Zones 21 22 with Ex tD ΙΙ equipment
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d ΙΙC equipment not containing a
source of ignition with a volume less than 2000 cm³
• Zones 1 2 with Ex d ΙΙA Ex d ΙΙB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with a volume less than 2000 cm³
• Zone 2 with Ex d ΙΙA Ex d ΙΙB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR ΙΙ equipment
A2EXP Ex d IIC / Ex e II
DualSealCableGlandKit
(KM495Series)
SUITABLE FOR USE WITH CIRCULAR UN-ARMOURED BRAIDED CABLES
Kit comprises:
A2EX Gland
Brass Locknut
Nylon Sealing Washer
PVC Shroud
(2 per kit up to and including 25mm size)
HAZARDOUSGLANDS
45. 45
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular, galvanised steel wire armour cables with extruded
polymeric bedding and oversheath
• Achieves IP66 seal onto cable and to enclosure with suitable sealing
washer or thread sealant
• Three part armour lock provides mechanical cable retention and
electrical continuity
• Inner PCP seal grips cable bedding and provides additional
ingress protection
• Suitable for most climatic conditions - weatherproof and waterproof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira 02ATEX3092X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0071X
Service temperature range -60°C to +90°C
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Under Armour Ø (A) Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread
Length
(E)
Protrusion
Length
(F)
Hexagon
Standard Nickel Plated Min Max Min Max A/F (G) A/C (H)
472AA-51 472AA-51V 16 3.8 8.7 8.0 13.2 0.9 M16 × 1.5 15 41 23.4 26.7
472AA-71 472AA-71V 20SS 3.8 8.7 8.0 13.2 0.9 M20 × 1.5 15 41 23.4 26.7
472AA-52 472AA-52V 20S 8.0 11.8 8.0 15.8 0.9 / 1.25 M20 × 1.5 15 43 25.7 29.2
472AA-53 472AA-53V 20 11.8 14.2 11.7 20.8 0.9 / 1.25 M20 × 1.5 15 43 30.5 34.0
472AA-55 472AA-55V 25 14.0 20.1 17.0 27.2 1.25 / 1.6 M25 × 1.5 15 48 37.6 42.2
472AA-56 472AA-56V 32 19.7 26.6 23.5 33.5 1.6 / 2.0 M32 × 1.5 15 53 47.2 53.6
472AA-57 472AA-57V 40 26.6 32.4 29.0 39.9 1.6 / 2.0 M40 × 1.5 15 56 56.4 61.5
472AA-58 472AA-58V 50S 32.4 38.4 38.0 46.2 2.0 / 2.5 M50 × 1.5 15 61 60.0 66.0
472AA-59 472AA-59V 50 38.4 44.3 39.5 52.6 2.0 / 2.5 M50 × 1.5 15 61 70.1 77.2
472AA-60 472AA-60V 63S 44.3 50.3 50.0 58.9 2.5 M63 × 1.5 15 64 75.0 83.0
472AA-61 472AA-61V 63 50.3 56.2 51.3 65.3 2.5 M63 × 1.5 15 64 80.0 87.4
472AA-62 472AA-62V 75S 56.2 62.2 62.0 71.6 2.5 M75 × 1.5 15 73 90.2 99.1
472AA-63 472AA-63V 75 62.2 68.1 62.5 78.0 2.5 M75 × 1.5 15 73 98.8 109.2
472AA-64 472AA-64V 85 68.0 74.0 68.0 88.0 3.15 M80 × 2.0 20 102 115.1 126.0
May be used in:
• Zones 0, 1 2 with Ex ia IIA, B C equipment
• Zones 1 2 with Ex ib IIA, B C equipment
• Zones 1 2 with Ex e II equipment
• Zones 2 with Ex nA II equipment
• Zone 21 22 with Ex tD A21
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d IIC equipment not containing a
source of ignition with a volume less than 2000cm³
• Zones 1 2 with Ex d IIA Ex d IIB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d IIA Ex d IIB equipment containing a
source of ignition with a volume less than 2000cm³
• Zone 2 with Ex d IIA Ex d IIB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR II equipment
E1WF Ex d IIC / Ex e II
CableGland
(472AASeries)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
HAZARDOUSGLANDS
46. 46
Specifications
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular, galvanised steel wire armour cables with extruded
polymeric bedding and oversheath
• Achieves IP66 seal onto cable and to enclosure with suitable sealing
washer or thread sealant
• Three part armour lock provides mechanical cable retention and
electrical continuity
• Inner PCP seal grips cable bedding and provides additional
ingress protection
• Suitable for most climatic conditions - weatherproof and waterproof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira 02ATEX3092X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0071X
Service temperature range -60°C to +90°C
Gland Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Under Armour Ø (A) Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread
Length
(E)
Protrusion
Length
(F)
Hexagon
Standard Nickel Plated Min Max Min Max A/F (G) A/C (H)
472NP-03 472NP-03V ½”- 16 3.8 8.7 8.0 13.2 0.9 ½” NPT 15.5 41 23.4 26.7
472NP-04 472NP-04V ½”- 20S 8.0 8.7 8.0 15.8 0.9 / 1.25 ½” NPT 15.5 43 25.7 29.2
472NP-07 472NP-07V ¾” - 20S 8.0 11.8 8.0 15.8 0.9 / 1.25 ¾” NPT 16.4 43 27.9 31.8
472NP-05 472NP-05V ½”- 20 11.8 14.2 11.7 20.8 0.9 / 1.25 ½” NPT 15.5 43 30.5 34.0
472NP-08 472NP-08V ¾” - 20 11.8 20.1 11.7 20.8 0.9 / 1.25 ¾” NPT 16.4 43 30.5 34.0
472NP-10 472NP-10V ¾” - 25 14.0 26.6 17.0 27.2 1.25 / 1.6 ¾” NPT 16.4 48 37.6 42.2
472NP-14 472NP-14V 1” - 25 14.0 32.4 17.0 27.2 1.25 / 1.6 1” NPT 19.5 48 37.6 42.2
472NP-15 472NP-15V 1” - 32 19.7 38.4 23.5 33.5 1.6 / 2.0 1” NPT 19.5 53 47.2 53.6
472NP-20 472NP-20V 1¼” - 32 19.7 44.3 23.5 33.5 1.6 / 2.0 1¼” NPT 20.5 53 47.2 53.6
472NP-21 472NP-21V 1¼” - 40 26.6 50.3 29.0 39.9 1.6 / 2.0 1¼” NPT 20.5 56 56.4 61.5
472NP-27 472NP-27V 1½” - 40 26.6 56.2 29.0 39.9 1.6 / 2.0 1½” NPT 21 56 56.4 61.5
472NP-28 472NP-28V 1½”- 50S 32.4 62.2 38.0 46.2 2.0 / 2.5 1½” NPT 21 61 60.0 66.0
472NP-31 472NP-31V 2 - 50S 32.4 68.1 38.0 46.2 2.0 / 2.5 2” NPT 22 61 65.5 72.1
472NP-32 472NP-32V 2 - 50 38.4 74.0 39.5 52.6 2.0 / 2.5 2” NPT 22 61 70.1 77.2
472NP-33 472NP-33V 2 - 63S 44.3 68.1 50.0 58.9 2.5 2” NPT 22 64 75.0 83.0
472NP-38 472NP-38V 2½” - 63 50.3 74.0 51.3 65.3 2.5 2½” NPT 32.5 64 80.0 87.4
472NP-39 472NP-39V 2½” - 75S 56.2 68.1 62.0 71.6 2.5 2½” NPT 32.5 73 90.2 99.1
472NP-45 472NP-45V 3- 75 62.2 74.0 62.5 78.0 2.5 3” NPT 33.5 73 98.8 109.2
472NP-47 472NP-47V 3- 80 68.0 68.1 68.0 88.0 3.15 3” NPT 33.5 102 115.1 126.0
May be used in:
• Zones 0, 1 2 with Ex ia IIA, B C equipment
• Zones 1 2 with Ex ib IIA, B C equipment
• Zones 1 2 with Ex e II equipment
• Zones 2 with Ex nA II equipment
• Zone 21 22 with Ex tD A21
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d IIC equipment not containing a
source of ignition with a volume less than 2000cm³
• Zones 1 2 with Ex d IIA Ex d IIB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d IIA Ex d IIB equipment containing a
source of ignition with a volume less than 2000cm³
• Zone 2 with Ex d IIA Ex d IIB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR II equipment
E1WF(NPT) Ex d IIC / Ex e II
CableGland
(472NPSeries)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
*NPT Threaded glands are supplied as glands only. **Other NPT sizes available upon request.
HAZARDOUSGLANDS
47. 47
Features and benefits:
• Brass indoor and outdoor cable gland for use in hazardous areas
• Suitable for circular, galvanised steel wire armour cables with
extruded polymeric bedding and oversheath
• Achieves IP66 seal onto cable and to enclosure with suitable sealing
washer or thread sealant
• Three part armour lock provides mechanical cable retention and
electrical continuity
• Inner PCP seal grips cable bedding and provides additional
ingress protection
• Suitable for most climatic conditions - weatherproof and waterproof
• Standard and Nickel plated versions available
• Full Installation Instructions supplied
Technical Information:
Certified ΙΙ 2GD, Ex e ΙΙ Ex d ΙΙC under ATEX directive 94/9/EC
Atex Compliance Standards: EN 60079-0, EN 60079-1, EN 60079-7,
EN 61241-0, EN 61241-1
Certificate number Sira 02ATEX3092X
IECEx Compliance Standards: IEC 60079-0, IEC 60079-1, IEC 60079-7,
IEC 61241-0, IEC 61241-1
Certificate number IECEx SIR 10.0071X
Service temperature range -60°C to +90°C
May be used in:
• Zones 0, 1 2 with Ex ia IIA, B C equipment
• Zones 1 2 with Ex ib IIA, B C equipment
• Zones 1 2 with Ex e II equipment
• Zones 2 with Ex nA II equipment
• Zone 21 22 with Ex tD A21
Where the cable is effectively filled,
may also be used in:
• Zones 1 2 with Ex d IIC equipment not containing a
source of ignition with a volume less than 2000cm³
• Zones 1 2 with Ex d IIA Ex d IIB equipment not
containing a source of ignition with any volume
• Zone 1 with Ex d IIA Ex d IIB equipment containing a
source of ignition with a volume less than 2000cm³
• Zone 2 with Ex d IIA Ex d IIB equipment containing a
source of ignition with any volume
• Zone 2 with Ex nR II equipment
E1WF Ex d IIC / Ex e II
CableGlandKit(PVC)
(KCA472Series)
SUITABLE FOR USE WITH ALL STEEL WIRE ARMOURED CABLES
Kit comprises:
E1WF Gland
Brass Earth Tag
Brass Locknut
Nylon Sealing Washer
PVC Shroud
(2 per kit up to and including 25mm size)
Specifications
Gland Kit Reference Cable Dimensions mm Gland Dimensions mm
Design Reference
Size
Qty per
Kit
Under Armour Ø (A) Overall Ø (B)
Armour
Wire Ø
Entry Thread
(D)
Thread
Length (E)
Protrusion
Length
(F)
Hexagon
Standard Nickel Plated Min Max Min Max A/F (G) A/C (H)
KCA472-51 KCA472-51V 16 2 3.8 8.7 8.0 13.2 0.9 M16 × 1.5 15 41 23.4 26.7
KCA472-71 KCA472-71V 20SS 2 3.8 8.7 8.0 13.2 0.9 M20 × 1.5 15 41 23.4 26.7
KCA472-52 KCA472-52V 20S 2 8.0 11.8 8.0 15.8 0.9 / 1.25 M20 × 1.5 15 43 25.7 29.2
KCA472-53 KCA472-53V 20 2 11.8 14.2 11.7 20.8 0.9 / 1.25 M20 × 1.5 15 43 30.5 34.0
KCA472-55 KCA472-55V 25 2 14.0 20.1 17.0 27.2 1.25 / 1.6 M25 × 1.5 15 48 37.6 42.2
KCA472-56 KCA472-56V 32 1 19.7 26.6 23.5 33.5 1.6 / 2.0 M32 × 1.5 15 53 47.2 53.6
KCA472-57 KCA472-57V 40 1 26.6 32.4 29.0 39.9 1.6 / 2.0 M40 × 1.5 15 56 56.4 61.5
KCA472-58 KCA472-58V 50S 1 32.4 38.4 38.0 46.2 2.0 / 2.5 M50 × 1.5 15 61 60.0 66.0
KCA472-59 KCA472-59V 50 1 38.4 44.3 39.5 52.6 2.0 / 2.5 M50 × 1.5 15 61 70.1 77.2
KCA472-60 KCA472-60V 63S 1 44.3 50.3 50.0 58.9 2.5 M63 × 1.5 15 64 75.0 83.0
KCA472-61 KCA472-61V 63 1 50.3 56.2 51.3 65.3 2.5 M63 × 1.5 15 64 80.0 87.4
KCA472-62 KCA472-62V 75S 1 56.2 62.2 62.0 71.6 2.5 M75 × 1.5 15 73 90.2 99.1
KCA472-63 KCA472-63V 75 1 62.2 68.1 62.5 78.0 2.5 M75 × 1.5 15 73 98.8 109.2
KCA472-64 KCA472-64V 85 1 68.0 74.0 68.0 88.0 3.15 M80 × 2.0 20 102 115.1 126.0
HAZARDOUSGLANDS