The document discusses an automation solution from Lorch for small to medium welding tasks. It notes that while robots are commonly used for large volume welding automation, they are not always the best solution for smaller batch sizes that require frequent changes. Lorch provides a modular, flexible automation system that can be adapted easily to different tasks and is profitable even for small batch quantities of 15 pieces or more. The system set-up is fast, taking only hours, and it requires minimal preparation time between jobs.
C4 Welding provides welding, engineering, inspection, and manufacturing services. They have 32 years of experience in critical welding projects. Their facility has high bays, cranes, a welding room, and testing lab. They serve markets like oil & gas, power generation, and pressure vessels. C4 offers welding, engineering, quality assurance, and training services to help customers succeed.
Michael M. Sharpe, Director of Engineering at Fanuc Robotics, gave a presentation at the Southern Alberta Institute of Technology Welding Automation Forum on advanced welding technology. The presentation discussed how welding used to rely on highly skilled workers using heat and beating to join materials, which lacked intelligence. A video from Westinghouse then showed early automated welding.
The document discusses the benefits of welding automation for businesses. Welding automation can increase shareholder value through cost reductions from consistency and quality improvements. It also allows companies to secure future growth by differentiating themselves from competition and preparing for new regulations. Finally, welding automation addresses issues in the welding industry like the lack of skilled labor and safety concerns that cause repetitive strain injuries.
"Weldtech Automations" is basically a Proprietorship Firm which emerged in 2013 in Nagpur Maharahtra, India. We are involved in manufacturing, supplying, wholesaling and trading of Welding Machines & Equipment.
This presentation provides an overview of MAVRIX and its products for metal build up and hardfacing. MAVRIX markets welding systems for industries like coal/cement pulverizers, rock crushers, automobile shredders, and more. It also manufactures a complete line of weld automation accessories that can be integrated with its welding systems, including sub arc dispensing, carbide dispensing, torch oscillation systems, and more. MAVRIX offers custom engineering services and sells individual components, remanufactured systems, and provides field installation and service.
This presentation is about the Jigs and fixtures used for holding the components which have to be welded . It is normally used in automated welding systems . It is beneficial for high productivity and safety .
Prateek Sood completed an industrial training at VEEGEE KAUSHICKO ENGINEERING PVT. LTD. The training focused on learning about robotic welding through teaching programming, installations, cell design, and hands-on work. During the training, Prateek learned robotic functionality, welding machine basics, robot teaching, PLC programming, and production calculations. The training helped develop practical skills and confidence needed to work in the robotics and manufacturing field.
These slide gives overall welding process and gives the tips about the robotic welding process and then adaptability with the industrial welding robotic coordinates.
C4 Welding provides welding, engineering, inspection, and manufacturing services. They have 32 years of experience in critical welding projects. Their facility has high bays, cranes, a welding room, and testing lab. They serve markets like oil & gas, power generation, and pressure vessels. C4 offers welding, engineering, quality assurance, and training services to help customers succeed.
Michael M. Sharpe, Director of Engineering at Fanuc Robotics, gave a presentation at the Southern Alberta Institute of Technology Welding Automation Forum on advanced welding technology. The presentation discussed how welding used to rely on highly skilled workers using heat and beating to join materials, which lacked intelligence. A video from Westinghouse then showed early automated welding.
The document discusses the benefits of welding automation for businesses. Welding automation can increase shareholder value through cost reductions from consistency and quality improvements. It also allows companies to secure future growth by differentiating themselves from competition and preparing for new regulations. Finally, welding automation addresses issues in the welding industry like the lack of skilled labor and safety concerns that cause repetitive strain injuries.
"Weldtech Automations" is basically a Proprietorship Firm which emerged in 2013 in Nagpur Maharahtra, India. We are involved in manufacturing, supplying, wholesaling and trading of Welding Machines & Equipment.
This presentation provides an overview of MAVRIX and its products for metal build up and hardfacing. MAVRIX markets welding systems for industries like coal/cement pulverizers, rock crushers, automobile shredders, and more. It also manufactures a complete line of weld automation accessories that can be integrated with its welding systems, including sub arc dispensing, carbide dispensing, torch oscillation systems, and more. MAVRIX offers custom engineering services and sells individual components, remanufactured systems, and provides field installation and service.
This presentation is about the Jigs and fixtures used for holding the components which have to be welded . It is normally used in automated welding systems . It is beneficial for high productivity and safety .
Prateek Sood completed an industrial training at VEEGEE KAUSHICKO ENGINEERING PVT. LTD. The training focused on learning about robotic welding through teaching programming, installations, cell design, and hands-on work. During the training, Prateek learned robotic functionality, welding machine basics, robot teaching, PLC programming, and production calculations. The training helped develop practical skills and confidence needed to work in the robotics and manufacturing field.
These slide gives overall welding process and gives the tips about the robotic welding process and then adaptability with the industrial welding robotic coordinates.
Collaborative robots, or cobots, are designed to safely work alongside humans in a shared workspace. This presentation discusses various cobots including ABB Yumi, Baxter, and UR5. It covers their key features such as safety mechanisms, ease of use, applications in assembly and material handling, and benefits for customers. Various collaborative operation modes are also presented, such as power and force limiting where contact with humans can occur safely.
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is an open access international journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
Industrial robots were first developed in the 1950s and have since been used widely in factory automation. An industrial robot typically consists of a controller, robotic arm, end effector, drive system, and sensors. The controller acts as the robot's brain and allows its parts to operate together through programmed instructions. Robots provide benefits such as increased efficiency, higher product quality, improved worker safety, and longer working hours compared to humans. However, robots also have disadvantages like high initial capital costs, requiring expertise to program and operate, and some limitations in the tasks they can perform. Overall, robots can help improve manufacturing productivity if implemented as part of a well-integrated automated system.
The document discusses various types of automation in welding processes including manual, semi-automatic, automatic, automated, remote, and robotic welding. It describes the key stages in a welding operation sequence and provides examples of different techniques used for automation in welding applications from the 1920s to present day. Specific automation techniques are highlighted for different welding processes based on factors like production volume and part geometry.
Servo Based 5 Axis Robotic Arm Project ReportRobo India
Robo India presents a project report on servo motor based 5 axis robotic arm.
This project is operated through PC software that is made in Visual Basic. AVR family's Atmel Atmega 8 is used in controller board, it runs on Arduino IDE platform.
Detailed mechnical drawings of all of the parts are also given.
We welcome all of your views and queries.
Thanks & Regards
Team Robo India
www.roboindia.com
info@roboindia.com
This document discusses automation solutions for forging production lines provided by AGANG TECH. It begins with an introduction to how AGANG TECH focuses on developing forging factory automation systems as a total solution provider. It then provides examples of automated systems for various stages of forging including die setup, item transfer, lubrication, trimming, and more. The document discusses the benefits of automation in increasing production speeds, reducing costs, and improving quality and die life. It presents AGANG TECH's automation solutions as able to adapt to various customer needs and equipment conditions with goals of maximizing production abilities and minimizing errors.
The document discusses Hurco 5-axis machining centers and their integrated control systems. It highlights how Hurco's conversational programming and features like Transform Plane allow customers to easily program 5-sided parts without CAM and reduce setup times. It provides success stories of customers who have increased productivity and reduced costs by switching to Hurco 5-axis machines. The document also addresses common objections to 5-axis machining and how Hurco machines and controls overcome issues like complexity, cost, training needs, and more.
Automatic machine manufacture has come to be known more as using machines to reduce work performed by humans. It has come to be associated with electro mechanical systems that are programmed to perform numerous types of processes.
What are the differences between a CNC & a robotic system? What are their characteristics and how do you determine which one is best suited to the needs of your industry? Go find all the answers in our latest blog post!
Multilink robotic systems combine proven technology with high performance for semiconductor manufacturing. They have exceptional throughput of 55 inches/second with acceleration of 200 inches/second2. Precision wafer placement and fast swap times of less than 3 seconds at 360 wafers per hour make them suitable for 300mm fabs where they are installed at 98% of sites. The robots use automated self-teach software and through-beam wafer mapping for fast and repeatable calibration.
The document outlines a project proposal for developing an Arduino-controlled robotic arm. It includes sections on motivation, aims and objectives, literature review, block diagram, hardware and software requirements, circuit diagram, interfacing diagram, component specifications, timeline, advantages and limitations, conclusions, and references. The overall goal is to create a simple robotic arm that can be programmed to perform repetitive tasks as a way to increase productivity in industrial settings.
Automated systems use computers to control machinery and can operate at high speeds, do repetitive tasks accurately without breaks, and work in dangerous environments. They are used in factories to weld, paint and assemble parts. While initial costs are high, companies justify this through long-term savings from increased production, quality and lower labor costs. Automated systems affect jobs by creating some new roles while making others redundant, requiring retraining. Safety measures like separation from workers and sensors help ensure safe operation.
This document provides an overview of industrial robot technology, including its basic components and functions. It discusses the definition of industrial robots, as well as their typical applications in welding, painting, and pick and place operations. The six basic components of industrial robots are described as the manipulator, end effector, actuators, sensors, controller, and teach pendant. Common actuator types include electric motors, pneumatic cylinders, and hydraulic cylinders. Sensors are used to provide feedback and increase a robot's capabilities. The controller coordinates the robot's motions based on programmed instructions and sensor input. A teach pendant is used to teach locations to the robot controller during programming.
This document discusses the industrial applications of robots, including material handling and assembly. It describes how robots are commonly used for loading/unloading machines, welding, painting, packaging, and other repetitive tasks. Robots allow for precise, consistent work in hazardous environments. The document also provides examples of how robots are applied to various industrial processes like die casting, plastic molding, machining, forging, and heat treating. In assembly, robots can work faster and more accurately than humans to increase production efficiency and quality.
Mitsubishi robot system solutions catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Mitsubishi robot system solutions catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
This document discusses automated systems, including what they are, where they are used, and why companies use them. Some key points:
- Automated systems use computers to control machinery like robots in factories. They can operate at high speeds and in dangerous environments.
- Factories, oil rigs, and traffic lights all use automated systems. Robots can be stationary or mobile, using magnetic or light guidance systems.
- Companies invest in automated systems because while the initial costs are high, they eventually save money through increased production, quality control, and reduced labor costs.
Understanding performance aspects of etcd and RaftHitoshi Mitake
The document discusses performance aspects of etcd and Raft consensus algorithm. It begins with an introduction to state machine replication techniques and why they are important for building highly available and consistent distributed systems. It then provides some tips for managing etcd clusters and developing applications using the Raft consensus package, including how compaction can impact performance and reducing execution time of state machine operations. It also discusses an idea for optimization based on group commit.
Industrial robots have six basic components: a manipulator, end effector, actuators, sensors, controller, and teach pendant. The manipulator consists of links and joints that give the robot its degrees of freedom. Actuators like electric motors provide movement. Sensors provide feedback and safety. The controller coordinates movement based on taught positions. Programming modes include teach, walk, and software modes. Key robot characteristics are payload, reach, precision, and repeatability. Safety systems use sensors to detect intrusions and stop robots to prevent harm.
The document proposes and summarizes the design of an automated robotic work cell to assemble nut plates. The work cell aims to remove humans from repetitive assembly tasks that cause injuries. It will use a Denso robot with an end effector to place nut plates and set rivets using an air hammer. A rivet feeder and sliding anvil will feed and buck rivets. The process, work cell components, programming, and timeline are described in detail. Feedback is requested on the proposed solution and any potential pitfalls.
Collaborative robots, or cobots, are designed to safely work alongside humans in a shared workspace. This presentation discusses various cobots including ABB Yumi, Baxter, and UR5. It covers their key features such as safety mechanisms, ease of use, applications in assembly and material handling, and benefits for customers. Various collaborative operation modes are also presented, such as power and force limiting where contact with humans can occur safely.
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is an open access international journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
Industrial robots were first developed in the 1950s and have since been used widely in factory automation. An industrial robot typically consists of a controller, robotic arm, end effector, drive system, and sensors. The controller acts as the robot's brain and allows its parts to operate together through programmed instructions. Robots provide benefits such as increased efficiency, higher product quality, improved worker safety, and longer working hours compared to humans. However, robots also have disadvantages like high initial capital costs, requiring expertise to program and operate, and some limitations in the tasks they can perform. Overall, robots can help improve manufacturing productivity if implemented as part of a well-integrated automated system.
The document discusses various types of automation in welding processes including manual, semi-automatic, automatic, automated, remote, and robotic welding. It describes the key stages in a welding operation sequence and provides examples of different techniques used for automation in welding applications from the 1920s to present day. Specific automation techniques are highlighted for different welding processes based on factors like production volume and part geometry.
Servo Based 5 Axis Robotic Arm Project ReportRobo India
Robo India presents a project report on servo motor based 5 axis robotic arm.
This project is operated through PC software that is made in Visual Basic. AVR family's Atmel Atmega 8 is used in controller board, it runs on Arduino IDE platform.
Detailed mechnical drawings of all of the parts are also given.
We welcome all of your views and queries.
Thanks & Regards
Team Robo India
www.roboindia.com
info@roboindia.com
This document discusses automation solutions for forging production lines provided by AGANG TECH. It begins with an introduction to how AGANG TECH focuses on developing forging factory automation systems as a total solution provider. It then provides examples of automated systems for various stages of forging including die setup, item transfer, lubrication, trimming, and more. The document discusses the benefits of automation in increasing production speeds, reducing costs, and improving quality and die life. It presents AGANG TECH's automation solutions as able to adapt to various customer needs and equipment conditions with goals of maximizing production abilities and minimizing errors.
The document discusses Hurco 5-axis machining centers and their integrated control systems. It highlights how Hurco's conversational programming and features like Transform Plane allow customers to easily program 5-sided parts without CAM and reduce setup times. It provides success stories of customers who have increased productivity and reduced costs by switching to Hurco 5-axis machines. The document also addresses common objections to 5-axis machining and how Hurco machines and controls overcome issues like complexity, cost, training needs, and more.
Automatic machine manufacture has come to be known more as using machines to reduce work performed by humans. It has come to be associated with electro mechanical systems that are programmed to perform numerous types of processes.
What are the differences between a CNC & a robotic system? What are their characteristics and how do you determine which one is best suited to the needs of your industry? Go find all the answers in our latest blog post!
Multilink robotic systems combine proven technology with high performance for semiconductor manufacturing. They have exceptional throughput of 55 inches/second with acceleration of 200 inches/second2. Precision wafer placement and fast swap times of less than 3 seconds at 360 wafers per hour make them suitable for 300mm fabs where they are installed at 98% of sites. The robots use automated self-teach software and through-beam wafer mapping for fast and repeatable calibration.
The document outlines a project proposal for developing an Arduino-controlled robotic arm. It includes sections on motivation, aims and objectives, literature review, block diagram, hardware and software requirements, circuit diagram, interfacing diagram, component specifications, timeline, advantages and limitations, conclusions, and references. The overall goal is to create a simple robotic arm that can be programmed to perform repetitive tasks as a way to increase productivity in industrial settings.
Automated systems use computers to control machinery and can operate at high speeds, do repetitive tasks accurately without breaks, and work in dangerous environments. They are used in factories to weld, paint and assemble parts. While initial costs are high, companies justify this through long-term savings from increased production, quality and lower labor costs. Automated systems affect jobs by creating some new roles while making others redundant, requiring retraining. Safety measures like separation from workers and sensors help ensure safe operation.
This document provides an overview of industrial robot technology, including its basic components and functions. It discusses the definition of industrial robots, as well as their typical applications in welding, painting, and pick and place operations. The six basic components of industrial robots are described as the manipulator, end effector, actuators, sensors, controller, and teach pendant. Common actuator types include electric motors, pneumatic cylinders, and hydraulic cylinders. Sensors are used to provide feedback and increase a robot's capabilities. The controller coordinates the robot's motions based on programmed instructions and sensor input. A teach pendant is used to teach locations to the robot controller during programming.
This document discusses the industrial applications of robots, including material handling and assembly. It describes how robots are commonly used for loading/unloading machines, welding, painting, packaging, and other repetitive tasks. Robots allow for precise, consistent work in hazardous environments. The document also provides examples of how robots are applied to various industrial processes like die casting, plastic molding, machining, forging, and heat treating. In assembly, robots can work faster and more accurately than humans to increase production efficiency and quality.
Mitsubishi robot system solutions catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Mitsubishi robot system solutions catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
This document discusses automated systems, including what they are, where they are used, and why companies use them. Some key points:
- Automated systems use computers to control machinery like robots in factories. They can operate at high speeds and in dangerous environments.
- Factories, oil rigs, and traffic lights all use automated systems. Robots can be stationary or mobile, using magnetic or light guidance systems.
- Companies invest in automated systems because while the initial costs are high, they eventually save money through increased production, quality control, and reduced labor costs.
Understanding performance aspects of etcd and RaftHitoshi Mitake
The document discusses performance aspects of etcd and Raft consensus algorithm. It begins with an introduction to state machine replication techniques and why they are important for building highly available and consistent distributed systems. It then provides some tips for managing etcd clusters and developing applications using the Raft consensus package, including how compaction can impact performance and reducing execution time of state machine operations. It also discusses an idea for optimization based on group commit.
Industrial robots have six basic components: a manipulator, end effector, actuators, sensors, controller, and teach pendant. The manipulator consists of links and joints that give the robot its degrees of freedom. Actuators like electric motors provide movement. Sensors provide feedback and safety. The controller coordinates movement based on taught positions. Programming modes include teach, walk, and software modes. Key robot characteristics are payload, reach, precision, and repeatability. Safety systems use sensors to detect intrusions and stop robots to prevent harm.
The document proposes and summarizes the design of an automated robotic work cell to assemble nut plates. The work cell aims to remove humans from repetitive assembly tasks that cause injuries. It will use a Denso robot with an end effector to place nut plates and set rivets using an air hammer. A rivet feeder and sliding anvil will feed and buck rivets. The process, work cell components, programming, and timeline are described in detail. Feedback is requested on the proposed solution and any potential pitfalls.
Similar to Automatisieren Mit System Englisch[1] (20)
2. High volumes are automated using robots, Robot welding is usually the first thought for the subject of automation. A robot is certainly the
first choice when a complex joint has to be welded repeatedly or large quantities of a workpiece
must be produced. For this reason, we already have the “Ready to Robot” solutions from Lorch
for modern robot models.
For a small to medium-size specialized industrial welding company, a robot is not necessarily
always the best solution for automating welding tasks. The smaller the batch size to be produced
and the more frequent the change of workpiece, the less economic the robot solution is.
for small and medium welding tasks,
there is the automat ion solution from Lorch.
Welding automation integrators think in terms of robot technology and always think of large
volumes. Welding machine manufacturers think in terms of machines and the needs of the
manual welder. Nobody has yet thought of the flexible small to medium volumes of the SME
companies, which concern themselves with automation for the first time and could earn a
lot more money if a suitable solution would be available. This is not without reason because
the requirements for an automation solution are also extraordinarily high here. It needs to
be flexible, fast to retool, easy to operate and at the same time be profitably right from the
start – even for small batch quantities. Now there is the solution and no reason to wait
any longer. Automate Now! Because LorchAutomation provides you with a comprehensive
automation system and a cost-effective solution for your welding task.
3. ✓ Maximum quality
✓ Reduction of subsequent work
✓ High reproducibility
The benefits are the same,
with one difference:
LorchAutomation is already profitable
with batch sizes up from 15 pieces.
Cost-effectiveness is not only a matter of how long the welding process actually takes,
but mainly how long it takes to prepare the equipment or a robot for this welding task.
If there were only a few hundred or even only a handful of parts to weld, using the hand
torch seemed to be and often was quicker and more cost-effective. This is now a thing
of the past. LorchAutomation can be adapted to the task easily with a few settings.
This pays off for each individual order and creates additional capacity for more orders.
4. Simply intelligent welding.
Because automation is not rocket science but simply a matter of selecting the right system.
LorchTurn LorchBase LorchPower
LorchFix & Pos LorchQ-Sys
LorchFeed LorchControl
Modular construction Perfectly matched Extremely fast Individually Real short Easy-to-use
kit system components implementation expandable changeover times operating concept
With LorchAutomation, you need not One must set the tone. The LorchControl Install machines, connect to each other, To be honest there are some truely special Automating small batch sizes economically The Lorch “3 steps and weld” operating concept
purchase a system with components and conducts the automation orchestra switch on, ready to start. The automation is applications which we cannot cover for often changing tasks; that is the also applies to the automation.
functions that you will probably never use. perfectly. Every module – whether the set up for operation within a very short completely with our system construction challenge and the changeover time is the 3 steps to achieve weld perfection:
Cost-effectiveness for us means that you turntable, power source or pneumatic slide time. We call this “Plug & Weld” and means kit. For this reason, we have purposefully critical factor. No time must be wasted. 1. Select workpiece diameter
only pay for what you really need for the axis – knows its role precisely. All interact the end of tinkering for you. You concentra- designed our automation solution as an The system perfectly supports each step. 2. Specify welding speed
automation of your welding task. Therefore, perfectly together and receive their te immediately on the essentials, namely open system in which other components All settings can be made quickly and 3. Adjust welding power source
you can configure your automation package commands from the control unit via the perfectly automated weld seams. can be integrated – even at a later date. precisely. The Tiptronic job memory in the Time-consuming pre-tests no longer exists.
from the Lorch construction kit exactly in LorchNet bus system. Whatever the You can achieve real results within hours LorchAutomation is able to take into power source and LorchControl is extreme- The preparation of the system is a matter of
accordance with your requirements and welding process, whatever the components of putting it into operation. We do not know account special application requirements ly helpful. The welder has prepared the minutes and the handling afterwards is childs‘
add to it at any time with additional module – everything which belongs together comes of any other system that can proof this. so that you can achieve the best individual system for the present welding tasks in the play for every operator: Insert work-piece,
components. together here. solution for yourself. shortest time. press button and the welding process starts.
5. Trust is good.
Our Control is better.
LorchControl. Head of the system and
your cockpit for optimum welding results.
As it should be: one press of the Start button is The best thing about the LorchControl is that it is
sufficient and the welding process starts. so simple to operate. Whether MIG-MAG or TIG.
The torch moves into position via its pneumatic 3 steps to achieve weld perfection:
positioner, the gas flows, the power source 1. Select workpiece diameter
increases the power up to the starting current, 2. Specify welding speed
the arc is ignited and the welding current flows. 3. Adjust welding power source
The turn-table and cold wire move immediately,
All other parameters are determined automatical-
just at the right moment. The welding process
ly. Using the Tiptronic job memory, even the fine
has been put into operation and now runs
tuning for 100 different workpieces, can be stored
for exactly as long as is necessary in order to
and called up at any time for a fast changeover.
complete the weld seam including the critical
overlap area for circular seam welding. After-
wards, the components retract from the product
in exactly the correct order and at the right
moment, in the defined presence of post shielding
gas the welding process is ended – the result:
a perfectly automated weld seam.
It sounds somewhat self-evident, however,
it is not. In order to ensure that the components
work optimally together, a controlling head is
needed which gives the commands. The Lorch-
Control provides this. All processes up to
diagnostics and error handling are coordinated
here. The heart of the system is the automatic
parameter handling, which regulates the process
completely automatically.
Simply intelligent welding. LorchControl
6. Unique
Plug & Weld.
LorchNet. The cable for all components.
Simply plug in. The connection is made.
What has become standard for your PC is often Your benefit: Maximum reliability, extremely
the starting point for tinkering for automated fast set-up and an absolutely easy exchange of
welding. Often weeks and even months passed singular modules due to the compatibility of the
until the different system components could LorchAutomation system. Install them, connect
recognize each other and mutually exchange and them and you are ready to start. You concentrate
understand communications signals. Months of immediately on the things with which you really
fine tuning were required until everything works earn money – perfectly automated weld seams.
perfectly.
For this reason, so that this does not happen to
you, we have developed LorchNet. From a
technical viewpoint, LorchNet is a modern bus
coupling system: a digital data highway with
standardized communication. This connection
provides all Lorch industrial welding machines
and components with signals and guarantees
that they understand each other perfectly. The
result is “Plug&Weld” and ensures for the
automation that the left hand knows what the
right hand is doing.
Simply intelligent welding. LorchNet
7. For perfect lap times.
LorchTurn 50 and Turn 100. The endurance at hletes for optimum circular welding.
With absolutely constant rotation speed. Guar antees for outstanding seam quality.
Turn 50
Load capacity 500 N (50 Kg)
Turntable ø 300 mm
Hollow shaft ø 30 mm
Min. / max. speed 0,8–10 rpm
Swivel adjustment 0–90° infi nitely variable
manual adjustment
Turn 100
Load capacity 1000 N (100 kg)
Turntable ø 300 mm
Hollow shaft ø 30 mm
Min. / max. speed 0,4–5 rpm
Swivel adjustment 0–90° infi nitely variable
swivel gear adjustment
Base
The strength of our athletes for perfect most modern three-phase technology turn table for its task. The tracker used is the maintenance-free, non-contact sensor use of long workpieces. The backing gas is The “Base” is the foundation of the
circular welds consists of the constancy and provides the necessary physical aspects of spring-loaded and compensates for guarantees the exact reproducibility of each also supplied through it. A LorchTurn is small turn tables and all of the respon-
precision of the lap times – the highest the turn tables. The ideal welding position workpiece tolerances or workpiece changes start position. Because each fluctuation built for the demanding rigorous use: sible components for the fi xing of the
degree of difficulty for this discipline. They is facilitated by the infinite swivel adjust- caused by heat. Clamping levers facilitate would deteriorate the weld quality and the universal, modular, well thought out and workpiece and torch.
have the necessary power reserves, a long ment from 0 to 90 degrees. A face-plate easy fixing and provide the necessary production would be unusable. The three- with excellent quality.
service life and are totally reliable – lap for with a centering groove provides optimum holding. The amply dimensioned welding jaw chuck made of special cast iron means
lap. A specially developed vector-regulated positioning of the workpiece. current connection is well enclosed, that weld spatter can‘t stick. In addition, a
frequency converter combined with the The variable workpiece holder supports the protected against dust inside the turn. And standard hollow shaft is required for the
Simply intelligent welding. LorchTurn
8. Always brought into position correctly.
LorchFix & Pos. Everything finds exactly the same welding position. Again and again.
Supported mechanically or pneumatically.
The perfect apparatus for fast basic adjust-
ment of the torch position must provide
maximum movability. As varying as the
workpieces it holds, the positioning possibi-
lities must also be as flexible.
On the one hand, movabilty and on the
other hand absolute rigidity during the
welding process are the important criteria
here. Due to its height and length adjust-
ment options, like the hand wheel for easy
adjustment and the swivel gear which
increases the working radius of the stand,
“LorchFix&Pos” provides an easy to use
system with maximum degrees of freedom.
Everything can be adjusted and fi xed with
a minimal use of tools.
The clamping levers at the adjustment
positions provide the necessary rigidity LorchSupport provides the fine positioning of the torch
during the welding operation.
Mechanical supports Pneumatic support
Base
300 mm 100 mm Using the Base, all reference axes remain
stable to each other and the torch guide
Spring-loaded support can be swiveled out of the working area
200 mm immediately. The movement free space
for easy removal and re-loading of the
with workpiece is produced. A magnetic stop
provides 100% repeat accuracy.
100 mm touch
rocker And you decide the working location of
sensing your automation with the fork-lift truck.
wheel
ball
50 mm tracker
Simply intelligent welding. LorchFix & Pos
9. Completely flexible.
Firmly fixed.
LorchFix. Can be moved like your wrist.
For 360° torch position freedom.
LorchFix takes over the fine adjustment of the temporarily as well as all common machine torches.
torch using the supports. The adjustment Thus resulting in maximum reliability for your
spindles help for the exact adjustment of the torch production. Simple aids ensure that the torch can
position. Whether you work with 2 or 3 coordi- be put back into exactly the same position after
nates, a pneumatic slide axis or even if you would cleaning or replacement of wearing/consumable
like to use a spring-loaded weld guide – every- parts. And this with the minimum possible setting
thing interlocks perfectly. up time and maximum reliability of the system.
The stable universal joint provides maximum
flexibility for adjustment of the torch and is
firmly fi xed in the correct position using the
associated clamping lever. The welder has
certainly found the ideal torch position in the
shortest time – no other system is so flexible.
The torch clamp with prism sleeve has an
extraordinarily large fi xing range. Should your
torch fail, even a standard torch can be used
LorchFollow weld tracking system
Not every workpiece is perfect. Some could also not even be
exactly round. The spring-loaded “LorchFollow” weld
tracking system with its sophisticated mechanics for constant
spacing between torch and workpiece ensures that a perfect
weld is always achieved.
Simply intelligent welding. LorchFix
10. Heavy duty tasks?
You’re welcome.
LorchTurn 500. For loads up to 500 kg.
The large turn tables from Lorch.
Our heavyweight champions are required when
it is a matter of large loads. The strength and load
capacity are the biggest but not the only dif-
ferences to the Turn 50 and Turn 100. The infin-
itely variable swivel adjustment is performed by
operating a hand wheel. If required, an electric
motor is also available for convenient adjustment.
The solid basic structure is designed for transport
with a lift truck or forklift and also ensures the
necessary stability to the stand arm for the torch
bracket.
Support blocks which can be adjusted for height
provide the necessary support for long parts. The
workpiece can be safely placed on them and turns
in the speed of the turntable.
Turn 500
Load capacity 5000 N (500 kg)
Turntable ø 740 mm
Hollow shaft ø 295 mm
Min. / max. speed 0,08 – 1,0 rpm
Swivel adjustment 0–120° infi nitely variable
using hand wheel or motor
Simply intelligent welding. LorchTurn 500
11. Weld quality
completely in view.
LorchQ-Sys welding data monitoring.
Quality management made easy.
The quality of your weld seam is the best visiting It is specified in the survey program which
card of your company. One reason to always keep process factors will be recorded. This makes it
an exact track of it. LorchQ-Sys permanently possible to store the welding parameters of each
displays the process parameters for you and production series in a database and also the
registers changes in the current flow immediate- corresponding numbering of the workpieces to
ly. Deviations critical for quality can be displayed enable tracability of the quality of your products
and recorded during welding production. Weld at any time. This means absolute transparency
failures, even if they are still small, will be for you and your customers.
exposed immediately; the Q-Sys raises the alarm
The Q-Sys is absolutely incorruptible and
and the production run is rescued.
unbeatable in its discipline irrespective of which
With this quality manager for monitoring
parameters you wish it to monitor.
welding current, welding voltage, cooling and all
other specifications from the welding instruc-
tions, mass batch failures are a thing of the past.
This saves time and money.
The welding process is documented with 100%
attention. Workpiece by workpiece. Due to the
complete integration in the Lorch automation
system, no additional costly external measuring
sensors are necessary. LorchNet provides all
the needed data in real-time from the internal LorchQ-Sys 2010
sensors of the Lorch welding power source.
There is also a software package for external
computers included for each machine.
It enables the creation of survey programs, the
evaluation of the data and the archiving of the
welding results.
Simply intelligent welding. LorchQ-Sys
12. You have the choice.
We have the appropriate process.
MIG-MAG or MIG-MAG-pulse TIG or TIG with cold wire
MIG-MAG for demanding automaters Perfect TIG automation
This concerns output. Real productivity. And practically everything is right for the The new welding dimension: SpeedPulse Whoever welds with TIG knows why. objective. The weld quality is unbeatable. Both as DC version for ideal steel, stainless
And countless more meters of weld seam. new Lorch S-series and P-series: in the S and SpeedArc in the P synergic Perfect appearance is important. A “must” Achieved with operation which cannot steel and copper welds as well as in the AC/
Whether MIG-MAG or MIG-MAG pulse. easiest “3 steps and weld” operation, increase welding power and welding speed for all quality welds. And whoever auto- be surpassed for simplicity due to the DC version for perfect aluminium welding.
The welding machines from Auenwald have top weld quality and, of course, also the with simultaneous perfectly controllable arc. mates TIG is on the search for the perfect “3 steps and weld” operating concept and Whether with or without cold-wire feeder.
already set the standard in the past for speed. New! From the inventor of the MIG- weld. Whoever then uses the Lorch V-Series which impresses many thousands of You are welding in the Champions League
cost-effective, practical welding. MAG TwinPuls®. or also the mobile T-Series has reached his welders in the whole world again and again. here.
Simply intelligent welding. LorchPower
13. Precise and
served ice cold.
LorchFeed. The TIG cold-wire feeder
automates the wire feeding operation.
Perfect cold-wire feeding is required when SynchroPulse, where the wire feed is pulsed
creating filling volume is the task in automated synchronously with the pulse of the welding
TIG welding in order to bridge gaps and compen- current of the Lorch power source. This ensures
sate for material tolerances. The LorchFeed is ideal filler wire introduction and outstanding
used here and provides superior TIG quality with weld pool control.
absolute precision.
The “3 steps and weld” operating concept also
The Feed has a completely digital controller, a
provides easy handling for the Feed and
tachometer-regulated feed motor and a 4-roll
the Tiptronic provides sufficient job memory.
precision feeder for the exact wire delivery for
this.
There are many possible uses because the Feed
can, along with its role as a completely integrated
part of the automation system, also be used as a
“standalone” solution for manual welding.
Extremely helpful thereby: the synergy function
ensures automatic wire feed correction in the
case of changes in the welding current. For
the use in automation the operating command is
completely taken over by the LorchControl.
Amongst others, the Feed is impressive due to its
Simply intelligent welding. LorchFeed
14. Technical data Practical case:
Control 1.2 Welding high quality
automotive tuning
Mains voltage V 230
Mains frequency Hz 50/60
Mains connected load max. kVA 2,3
Mains fuse
Mains plug
Power outputs
A
W
16
Shockproof
250/750
components.
External peripherals Pneumatic feed apparatus | Welding current source actuation
Forming gas valve | Monitoring contacts | Blowout valve
Turn rotary tilting table Turn 50 Turn 100 Turn 500
Load capacity N (kg) 500 (50) 1000 (100) 5000 (500)
Turntable ø mm 300 300 740 (opt. 1000)
Hollow shaft, free passage ø mm 30 30 295
Min. / max. speed rpm 0,8 –10 0,4–5 0,08–1,0
Swivel range 90° 90° 120°
Swivel adjustment Manual Swivel gear Swivel gear
Max. welding current A 400 400 400 (opt. 800)
Controller Control 1.2 Control 1.2 Control 1.2
Fix tube clamping system
Handling weight Max. kg 6 6 6
Action radius Max. mm 1000 x 1000 1000 x 1000 1000 x 1000
Spindle element feed stroke 500 mm 265 265 265
Spindle element feed stroke 1000 mm 765 765 765
Tube diameter ø mm 50 50 50/60
Base
Load capacity max. N (kg) 3000 (300) 3000 (300) —
Dimensions mm 500 x 600 x 420 500 x 600 x 420 —
Feed cold-wire feeder
Feeder speed m/min 0,1–6 (opt. 0,5-20)
Drive /feeder 4 roll | tachometer-regulated motor | digital speed feedback
Pulse frequency max. Hz 5
Mains voltage V 230
Mains frequency Hz 50/60
Mains plug Shockproof
Q-Sys welding data monitoring
Mains voltage V 230
Mains frequency Hz 50/60
Mains plug Shockproof
Dimensions mm 260 x 170 x 160
Supports Tasks as we like them:
Pneumatic mm 100
Welding TIG in combination with the LorchFeed cold-wire feeder. Every year, this Lorch system
Manual mm 50/100/200/300
Spring-loaded mm 0–50 Sensor heads variants: Wheel | Rocker | Ball roller welds approx. 60,000 shock absorber casings of many different designs, which correspond to
about 90 tons of rust-free chromium nickel steel. Approx. 1.5 tons of welding wire are used within
Support blocks the process. Overall, the work batch sizes are between five and 200 pieces which totals more than
Load-bearing capacity kg 500 100,000 welds annually. 100,000 welds which previously had to be produced by hand. Now the
Ball rollers height adjustment mm 430–710 welders turned into pilots and operate the system and are responsible for its correct configuration.
PU rollers height adjustment mm 525–805
The skilled welder is no longer required for the higly repetitive production. He can now deal with
Steel rollers height adjustment mm 525–805
more challenging welding tasks. 1,500 hours of annual capacity are now available for additional
welding orders. We call this genuine productivity. www.lorch.eu
15. LorchAutomation.
Solutions for small and medium welding tasks.
Lorch Headquater:
Lorch Schweitechnik GmbH
D 71549 Auenwald, Germany
Im Anwnder 24 – 26
T. +49 (0) 7191.503.0
913.0800.0/2 01.09.1. Subject to technical changes and printing errors.
F. +49 (0) 7191.503.199
info@lorch.biz
www.lorch.eu
Lorch United Kingdom:
Lorch Schweisstechnik Ltd
Unit 15, Littleton Drive
Huntington, Cannock
Straffordshire, WS12 4TR
T. +44 (0) 5600.494.599
F. +44 (0) 1543.577.756
lorch.uk@lorch.biz
www.lorch.eu