The document discusses computer numerical control (CNC) fabric cutting machines. It describes the basic components and functions of CNC cutters including the cutting table, vacuum system, role of the re-sealer and perforated paper. It also summarizes key aspects like the role of the laying marker, order of cutting parts, common line cutting, and characteristics of CNC cutters. Finally, it provides overviews of the basic working principles, software and hardware requirements, programming, and advantages and disadvantages of CNC technology.
Introduction to CNC machine and Hardware. aman1312
Complete detailing of cnc machine and its operations with its required hardware necessary for increasing its Automation and increasing its manufacturing capability. Also increase in complex shape manufacturing.
Introduction to CNC machine and Hardware. aman1312
Complete detailing of cnc machine and its operations with its required hardware necessary for increasing its Automation and increasing its manufacturing capability. Also increase in complex shape manufacturing.
This presentation is prepared as per syllabus of "COMMUNICATION ANALYSIS AND SKILL DEVELOPMENT PROGRAM (CASP)" prescribed by BOARD OF TECHNICAL EDUCATION, KARNATAKA for 5th sem diploma all branches.
This pptx is prepared by lots of information in websites,Textbooks(Author B
A Srinivas and M R Manjunath),And guidance of our lecturers Srinath V- B.E,FIE & M D Dayanand- B.E . SET Polytechnic, Melukote
Computer Numerical Control (CNC) Milling and Turning for Machining Process in...QUESTJOURNAL
ABSTRACT: Machine CNC (Computer Numerical Control) is a machine controlled by a computer with command data code numbers, letters and symbols, according to standard ISO. CNC Machine Tools systems work similar, then the CNC machine tools more accurate, more precise, more flexible and suitable for the production of masal.Yang designed to support production and requires a high level of complexity and can reduce operator intervention during machine operation. A CNC machine tool cutting process, device processing the workpiece, as the object that is being processed. Ingestion will conduct the workpiece, the program can be modified to process a new job. Computer Numerical Control (CNC) a format in the form of program automation, machinery and other equipment controlled by programs that contain data, code, numbers. Alphabetic and numerical data that instructs the job to operate the machinery. Machine CNC (Computer Numerical Control). Change the code data into a series of instructions, which servo mechanism, such as a stepping motor that rotates with a predetermined amount, improving with each driving from the desk job and tools to implement, workmanship with machining and movement defined by a system of repetition SCARA closed or open, CNC-controlled machine can do the work linnier shape, circumference, insertion or parabolic, sbagai software
GEOMETRIC OPTIMIZATION OF CNC VERTICAL MILLING MACHINE BEDIjripublishers Ijri
In this paper, a machine bed will be selected for the complete analysis for both static and dynamic loads. Then investigation
is carried out to reduce the weight of the machine bed without deteriorating its structural rigidity and the accuracy
of the machine tool by adding ribs at the suitable locations.
In the last two decades, spectacular progress has been made in the field of weaving technology and the most significant being the replacement of convectional looms by shuttleless looms for increasing productivity and quality of the end product. New developments in weaving have taken place in such a direction, which ensures reduced time, energy and cost involved. Heavy mechanical parts are now being replaced with electronic or microprocessor controlled alternatives.
Numerical Simulation of a Centrifugal CompressorIJERA Editor
In this paper, the tip clearance effects on flow field of a low speed centrifugal compressor without and with partial shroud (PS) fitted on to the rotor blade tip at three values of tip clearance, viz. = 2.2%, 5.1% and 7.9% of rotor blade height at the exit at three flow coefficients, namely, = 0.18, 0.28, and 0.34, was studied. Based on the theory of computational fluid dynamics (CFD), performance curves and parameter distributions of the compressor were obtained from the 3-D numerical simulation by using ANSYS CFX 15.0. The centrifugal compressor in aerodynamic requirement is that edge velocities along the impeller channel passage surfaces like hub, shroud, pressure and suction surfaces vary smoothly without sudden decelerations, which cause flow separation leading to losses. Using the periodic boundaries and defined flow conditions at inflow / exit flow and blade rotations, the turbulent viscous flow between blade channels are computed. The efficiency related parameters using average quantities, besides flow pattern in terms of velocities, streamlines and pressure distribution on blade surfaces are graphically interpreted. An attempt is also made to study the influence of pressure loads on structural deformations in the chosen blade profile. This paper highlights aero-mechanical features of centrifugal impeller obtained from several numerical simulations, which are expected to provide a sound basis for further investigations. Keywords: Centrifugal compressor, Fl
CNC Programming for Begainer.
1.Easy Mehtod.
2.Complete Theoritical Knowledge.
3.Motion and coordinate system for NC machine.
4.Axes convention of VMC & HMC.
5.How to make Part Programming.
6.Coordinates System.
7.Programming Format.
8.List of G Codes And M Codes.
9.How to Use of Above Codes In Programme.
10.Reference Point and Return of Machine.
This presentation is prepared as per syllabus of "COMMUNICATION ANALYSIS AND SKILL DEVELOPMENT PROGRAM (CASP)" prescribed by BOARD OF TECHNICAL EDUCATION, KARNATAKA for 5th sem diploma all branches.
This pptx is prepared by lots of information in websites,Textbooks(Author B
A Srinivas and M R Manjunath),And guidance of our lecturers Srinath V- B.E,FIE & M D Dayanand- B.E . SET Polytechnic, Melukote
Computer Numerical Control (CNC) Milling and Turning for Machining Process in...QUESTJOURNAL
ABSTRACT: Machine CNC (Computer Numerical Control) is a machine controlled by a computer with command data code numbers, letters and symbols, according to standard ISO. CNC Machine Tools systems work similar, then the CNC machine tools more accurate, more precise, more flexible and suitable for the production of masal.Yang designed to support production and requires a high level of complexity and can reduce operator intervention during machine operation. A CNC machine tool cutting process, device processing the workpiece, as the object that is being processed. Ingestion will conduct the workpiece, the program can be modified to process a new job. Computer Numerical Control (CNC) a format in the form of program automation, machinery and other equipment controlled by programs that contain data, code, numbers. Alphabetic and numerical data that instructs the job to operate the machinery. Machine CNC (Computer Numerical Control). Change the code data into a series of instructions, which servo mechanism, such as a stepping motor that rotates with a predetermined amount, improving with each driving from the desk job and tools to implement, workmanship with machining and movement defined by a system of repetition SCARA closed or open, CNC-controlled machine can do the work linnier shape, circumference, insertion or parabolic, sbagai software
GEOMETRIC OPTIMIZATION OF CNC VERTICAL MILLING MACHINE BEDIjripublishers Ijri
In this paper, a machine bed will be selected for the complete analysis for both static and dynamic loads. Then investigation
is carried out to reduce the weight of the machine bed without deteriorating its structural rigidity and the accuracy
of the machine tool by adding ribs at the suitable locations.
In the last two decades, spectacular progress has been made in the field of weaving technology and the most significant being the replacement of convectional looms by shuttleless looms for increasing productivity and quality of the end product. New developments in weaving have taken place in such a direction, which ensures reduced time, energy and cost involved. Heavy mechanical parts are now being replaced with electronic or microprocessor controlled alternatives.
Numerical Simulation of a Centrifugal CompressorIJERA Editor
In this paper, the tip clearance effects on flow field of a low speed centrifugal compressor without and with partial shroud (PS) fitted on to the rotor blade tip at three values of tip clearance, viz. = 2.2%, 5.1% and 7.9% of rotor blade height at the exit at three flow coefficients, namely, = 0.18, 0.28, and 0.34, was studied. Based on the theory of computational fluid dynamics (CFD), performance curves and parameter distributions of the compressor were obtained from the 3-D numerical simulation by using ANSYS CFX 15.0. The centrifugal compressor in aerodynamic requirement is that edge velocities along the impeller channel passage surfaces like hub, shroud, pressure and suction surfaces vary smoothly without sudden decelerations, which cause flow separation leading to losses. Using the periodic boundaries and defined flow conditions at inflow / exit flow and blade rotations, the turbulent viscous flow between blade channels are computed. The efficiency related parameters using average quantities, besides flow pattern in terms of velocities, streamlines and pressure distribution on blade surfaces are graphically interpreted. An attempt is also made to study the influence of pressure loads on structural deformations in the chosen blade profile. This paper highlights aero-mechanical features of centrifugal impeller obtained from several numerical simulations, which are expected to provide a sound basis for further investigations. Keywords: Centrifugal compressor, Fl
CNC Programming for Begainer.
1.Easy Mehtod.
2.Complete Theoritical Knowledge.
3.Motion and coordinate system for NC machine.
4.Axes convention of VMC & HMC.
5.How to make Part Programming.
6.Coordinates System.
7.Programming Format.
8.List of G Codes And M Codes.
9.How to Use of Above Codes In Programme.
10.Reference Point and Return of Machine.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
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Planning Of Procurement o different goods and services
CNC-1.pptx
1. Microprocessor based machinery in pattern construction and
planning, marking and cutting processes
CNC Fabric Cutting Machines
2. Computer Numerical Control
Numerical control is a method of automatically operating a
manufacturing machine based on a code of letters, numbers, and
special characters.
The numerical data required to produce a part is provided to a
machine in the form of a program, called part program or CNC
program.
The program is translated into the appropriate electrical signals
for input to motors that run themachine.
3. Introduction
For a CNC,machine control unit (MCU) decides cutting speed, feed, depth of cut, tool selection ,
coolant on /off and tool paths.
The MCU issues commands in form of numeric data to motors that position slides andtool
accordingly.
By integrating a computer processor, computer numerical control, or “CNC” asit is now known, allows
part machining programs to be edited and stored in the computer memory aswell aspermitting
quality control functions during the actualmachining.
All CNC machining begins with a part program, which is a sequential instruction or coded command
that directs the specific machine functions.
The part program may be manually generated or, more commonly, generated by computer aided part
programming systems.
4. Program Input
Different ways of data input are :
MDI :Manual Data Input
PROGRAMPREPARATION WITH CAD /CAM
PROGRAMDATATRANSFERFROM PCTO CNC machine.
Cutting Speed
Cutting speed varies from one fabric to the other.
For densely woven fabrics (like denim), the speed required for cutting is more and vice versa.
Knits can be cut at an average speed of 2,500 rpm while 14 oz. denim may require 7500 rpm to cut it.
Some cutters also have a liquid silicon system with cooling device set up to at the top of the knife to
make sure that the heat is not generated and if it does the heat never reaches the top ofthe knife.
Operators can easily adjust cut speed and knife speed according to the type of material being cut to
maximize throughput.
Overall speed of cutting fabric is generally 5 to 12 m/min.
5. The Cutting Table
Bristle bed
Nylon bristles present on the cutting table support fabric
layers. They are flexible enough to permit penetration and
movement of the knife blade which is supported only at
the top. These bristles allow the passage of air through the
table to create a vacuum, reducing the height of lay and
holding it in place.
The bristle surface on the table allows knife blade to
penetrate surface without damage. Bristle cutting surface
automatically conveys material from spreading table
through cutter and after cutting is done, the conveyor
takes off cut panels into bundling area.
6. Vacuum System
Vacuum system is required to hold the lay in place and reduce its height. So, it holds the layers while the
knife is cutting.
There are three types of vacuum systems, depending upon the manufacturer:
1.TUB vacuum :Tub suction applies equal amount of suction overall the cutting area.
Integrated vacuum system holds materials securely in place for effective and accurate cutting.
2.LOCALIZED vacuum: Localized vacuum is used for creating suction only at areas surrounding the
blade and not the entire cutting area. Integrated "intelligent" zoned vacuum system holds down
the lay at cutting location. Vacuum exhaust stack recycles heated air.
3. PLY SENSING vacuum: This is a very efficient and power saving system of creating vacuum in the
cutting area. Amount of vacuum generated depends upon the number of fabric layers. Once
fabric plies are placed on the cutting table and vacuum generation is started, sensors detect
height of the lay and generate only the amount of vacuum sufficient for holding the layers. This
way energy consumption is reduced to a large amount in cases where length and of plies is
lesser than the cutting dimensions.
7. Role of re-sealer (polyethylene sheet)
A sheet of airtight polyethylene covers
the top of the ply which assists the
creation of a vacuum & allows
significant compression of the lay. It is
done in order to prevent lateral air
flow from both theends.
The re-sealer is attached to the
cutting beam at a particular angle and
does not go up or down at the beam.
8. Role of perforated paper
Before transferring the fabric plies on the cutting table
,a sheet of perforated paper is spread. This paper is
laid so that the lay can be moved on the cutting table
without any distortion in the lay. This
paper is perforated to enable vacuum
creation on the cutting area for
compressing the lay. Perforated paper
9. Different aspects
Role of laying marker
Marker is laid on the top ply to help in the process of bundling after cutting. Marker laid helps in the
identification of bundles of pieces by their size, style and other specific details.
Order of cutting parts
If there is a small part between two large parts, then it must be cut prior to either of the big parts in
order to prevent any loss of vacuum created by cut lines and thus a support wall helps in getting
better quality.
Common line cutting
There are many common lines in the marker and CNC can’t see the whole marker as it only deals with
one piece at a time. So a gap of 1/8 th of an inch is added to avoid quality problems. But it leads to
fabric wastage and time loss.
10. Characteristics
CNCprevents on-grain cutting asthere is a laser pointer which checks the direction of fabric lay.
The machine moves over the lay before cutting. The laser pointer checks the direction of fabric
selvedge and changes the blade orientation according to the grain .
It is necessary to set the re- grinding frequency of cutting blade asthe blade gets torn out dayby
day so if we grind it by the same frequency it damages knife, therefore different grinding
frequencies are set for the blade.
Long vertical knife strokes and automatic knife re-sharpening eliminate hanging threads ensuring
quality cut parts from top to bottom ply.
A motorized drill behind the cutting head can provide drill holes as required.
Maximum height of the lay to be cut is usually 7.5 cm when compressed.
12. Software Requirements
Windows operating system
Operator guide with plausibility control and fault diagnoses
Automatic adaptation of inclined ply position to marker
Elimination of common cut-lines
Automatic chain up of markers
Application for remote-service
G Code
The "instructions" read by CNCmachines are usually a human
readable format called G-Code. The machine is set up with a base
unit, like inch or mm, and a command of G01 X500 Y200 Z100 on a
metric mm setup tells the machine it needs to move.
Example: 500 units on the Xaxis and 200 units on the Yaxis and 100
on z axis.
13. CNC Programming
Programming consists of a series of instructions in form of letter codes.
Preparatory Codes:
Gcodes-Initial machining setup and establishing operating conditions
N codes-specify program line number to be executed by the MCU
Axis Codes: X,Y
,Z-Used to specify motion of the slide along X,Y
,Z direction
Feed and Speed Codes: Fand S-Specify feed and spindle speed
Miscellaneous codes –M codes For coolant control and other activities.
14. Hardware Requirements
Reversible bristle conveyor
X- and Y-axis driven by linear-modules
Permanent-magnet-motor-drives for all axes
Parameter driven adjustable vacuum
Integrated sound absorber for exhaust
Integrated cleaning of the bristles
Sharpening device
Automatic knife-frequency-dependent oil dosage
Industrial PC on an actual performance level with flat screen
Integrated high performance vacuum turbine, 15kW
Standard working widths: 1600/1800/2000/2200 mm
15. Basic CNC Principles
All computer controlled machines are able to accurately and repeatedly control motion in various
directions. Each of these directions of motion is called an axis. Depending on the machine type there
are commonly two to five axes.Additionally, a CNCaxis may be either a linear axis in which movement
is in a straight line, or a rotary axis with motion following a circular path.
The most basic function of any CNCmachine is automatic, precise, and consistent motion control -
the heart of CNC.
Tool paths describes the route the cutting tool takes.
Motion can be described aspoint to point, straight cutting or contouring.
Speeds are the rate at which the tool operates e.g. rpm.
Feeds are the rate at which the cutting tool and work piece move in relation to eachother.
Feeds and speeds are determined by cutting depth, material and quality of finish needed. e.g. harder
materials need slower feeds and speeds.
Rouging cuts remove larger amounts of material than finishing cuts.
16. Work Positioning
The method of accurate work positioning in relation to the cutting tool is called the“rectangular
coordinate system.” On the vertical mill, the horizontal base line is designated the “X” axis, while the
vertical base line is designated the “Y” axis. The “Z” axis is at a right angle, perpendicular to both the “X”
and “Y” axes.
Increments for all base lines are specified in linear measurements, for most machines the smallest
increment is one ten-thousandth of an inch (.0001). If the machine is graduated in metric the smallest
increment is usually one thousandth of a millimeter (.001mm).
The rectangular coordinate system allows the mathematical plotting of points in space. These points or
locations are called “coordinates.” The coordinates in turn relate to the tool center and dictate the “tool
path” through the work.
17. CNC Axis (x, y, and z)
The z-axis is one of three axes for the CNCThe z-axis allows the router to move in the up and
down direction. The CNCz-axis is very important to the CNCmachines. Without this axis, depth
cannot be created.
The function of the y-axis serves asa motor mount to move the z-axis in addition to theslide
mechanism.
19. CNC FEED DRIVES
Positioning accuracy, speeds of working motions, accelerations and smooth motions – all depend on the
feed drive system.
Professional solutions require applying servo drives, and for less demanding applications, step motors are
sufficient.
In the case of step motors all machine movements consist of a large number of single steps. Each step,
depending on the drive ratio and the amount of microsteps, is from 0005 to 0.1mm. Drives of this type have a
very simple structure, which results in a relatively low price. A certain disadvantage is the lack of the
measurement of position, and in certain difficult circumstances (overloading) the coordinates may be lost
(lost steps), which may cause damage to the processed work piece or the tool.
Servo drives are devoid of such shortcomings. Their work consists in constant striving to achieve zero
deviation, i.e. the difference between the value set and the value measured. The head position is constantly
read by the incremental encoders, which can measure the position of the head with the accuracy coming up
to 0.001mm.. When the load increases, the engine increases the power to prevent arising the deviation of the
position, and in the case of exceeding a certain load, the system stops the machine and informs the operator
about the need for intervention.
20. Easeof operating
Easily retrieve cutting setup files for quick retrieval to accelerate future cut jobs.
Continuous, real-time, graphical display of operating parameters, vacuum level and cut speed provides
a comprehensive overview of the entire cutting process.
User screen displays cut job, including the sequence of cut pieces, for verification; displays cutting
progress.
Graphical user interface simplifies operator training and daily use
21. Advantages of CNC
Flexibility of operation is improved, asis the ability to produce complex shapes with good dimensional
accuracy, repeatability, reduced scrap loss, and high production rates.
Machine adjustments are easy to make with microcomputers.
More operations can be performed with each setup, and less lead time for setup and machining is
required compared to conventional methods.
Design changes are facilitated, and inventory is reduced.
Programs can be prepared rapidly and can be recalled at any time utilizing microprocessors. Less
paperwork is involved.
Faster prototype production is possible.
Required operator skill is less than that for a qualified machinist, and the operator has more time to
attend to other tasks in the workarea.
22. Advantages of CNC
Volume of production is very high.
Lesspaper work, faster prototype production, reduction in lead times.
Improved quality and accuracy of manufactured parts
Stabilized manufacturing costs.
CNCmachines can be updated by improving the software used to drive the machines.
One operator can run two or more machine at a time hence reduces the labour cost.
Shorter cycle time.
Just in time manufacture.
An automatic material handling.
Lesser floor space.
Increased operational safety.
Machining of advanced materials.
23. Disadvantages of CNC
investment.
2)Higher maintenance cost :
The technology used in the CNCmachine is to be more complex as compare
to the general equipment so it requires high maintenance cost.
3)Skilled CNCoperator is required :
1)Higher investment cost :
The machine is expensive. High machine utilization is essential in order to get reasonable return on the
Part programming and CNCoperation aswell asmaintenance requires the skilled operator to overcome
these problems.
4)Air conditioned place are required for installation of themachines.
5)Unsuitable for long run applications.
6)Training of part programmer is required.