cutting machine
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2021 ◽  
pp. 240-247
Author(s):  
Eugenie L. Eremin ◽  
Larisa V. Nikiforova ◽  
Evgeniy A. Shelenok

The article discusses the methodology for constructing an automatic control system for the feed module of the cutting tool for lathes in the presence of input saturation. The presence of the saturation function is due to restrict unwanted movements of the feed module actuator. The generator for periodic signals, the hyperstability criterion, L-dissipativity conditions and an implicit reference model are used as the solution methods for structural synthesis of the control system. At the stage of simulation, the functioning quality of the developed control system is illustrated.


2021 ◽  
Vol 2 (2) ◽  
pp. 30-33
Author(s):  
Wely Pasadena ◽  
Timbul Siahaan ◽  
Pujo Widodo

Designing a machine relates to the human factor. The size of the human body and machine can cause problems due to mismatch. So that, size of the human body into consideration in the design of the machine is very important. The shape and size of the machine that is not suitable will cause difficulties for the operator in carrying out their activities. The purpose of this research was to design propellant cutting machine sizes based on anthropometry. The research method is based on the anthropometry of Indonesia. Anthropometry tools obtained the size of the minimum height of the machine, the maximum width of the machine, and also the maximum height of the table.  The Result dimension of the height of the machine was 1792 mm and the width of the machine was 300 mm while the height of the machine table was 932 mm. The position of the operator control was 95mm from the floor.


2021 ◽  
Vol 2131 (2) ◽  
pp. 022046
Author(s):  
D A Rudikov ◽  
A S Ilinykh

Abstract The implementation precision of a number of adjustment bodies of a metal-cutting machine is also the most important indicator of its quality, a strictly standardized industry standard, technical conditions for manufacturing and acceptance. Moreover, the standard for limiting the error is set depending on the used denominator of the series. An essential feature of the precision of the series being implemented is that it is determined not by an error in parts’ manufacturing, but by the disadvantages of the used method of kinematic calculation. The established modes largely determine the efficiency of processing on metal-cutting machines. If the setting is set to an underestimated mode, then the performance is reduced accordingly. In the case of the mode overestimation, this leads to a decrease in durability and losses due to increased regrinding and tool changes. Creation of a complex of mathematical models for the design kinematic calculation of the metal-cutting machines’ main movement drive, which allows reducing the error in the implementation of a series of preferred numbers and increasing machining precision. The article provides a mathematical complex for analyzing the total error components, which allows determining and evaluating the total error of the drive of a metal-cutting machine by analyzing its constituent values with high precision: errors of a permanent part, errors of a multiplier part, rounding errors of standard numbers, errors in the electric motor and belt transmission. The presented complex helps to identify the role of the rounding error of preferred numbers in the total relative error formation and makes it possible to reduce it, which allows solving the problem of increasing the step adjustable drive precision. When using a mathematical complex, a fundamentally new opportunity for creating a scientific base appears, developing algorithms and programs for engineering calculation of tables that facilitate the selection of the numbers of teeth for multiple groups, structures and guaranteeing high precision of the implemented series.


Author(s):  
Mr. Pratik Gujarathi

Abstract: Today in the rapid competition of the industries to get the best quality of the product in the minimum required time is the main aim of industries. To get the best quality and maximum production most advanced machines are used. But there are no facts that use only the advanced machines, to maintain their performance is real requirement of the industries, also to give proper facilities to the workers with good environmental condition and to reduce their efforts is one of the objects to achieve the best quality and high production. Sheet metal is simply a metal formed into thin and flat pieces. It is one of the fundamental forms used in metal working and can be cut and bent into a variety of different shapes. Countless everyday objects are constructed of the material. Thicknesses can vary significantly, although extremely thin thicknesses are considered foil or leaf, and pieces thicker than 6 mm (0.25 in) are considered plate. Sheet metal also has applications in car bodies, airplane wings, medical tables, roofs for buildings (Architectural) and many other things. Sheet metal of iron and other materials with high magnetic permeability, also known as laminated steel cores, has applications in transformers and electric machines. There are three primary procedures in Layout. They are Parallel, Radial, and Triangulation. The major aim to our experiment is to study about pneumatic control system, study about double acting cylinder, study about the advantage of pneumatic hand operated valve and study about high speed blade. We are using scissors for simple sheet metal cutting. It is a manual method so that sheet metals are to be wasted sometimes because of mistakes happened such as wrong dimensions etc., and also even a simple cutting may take long time. We are using a pneumatic system for sheet metal cutting in an easy way. It is operated by a pneumatic hand lever of two ways control valve. Control valve is operated by a compressor. Keywords: Pneumatic, Automation, Sheet Metal, Pneumatic, Valve, Cutting Machine


2021 ◽  
pp. 247-255
Author(s):  
V. Sychuk ◽  
O. Zabolotnyi ◽  
P. Harchuk ◽  
D. Somov ◽  
A. Slabkyi ◽  
...  

2021 ◽  
Vol 12 (11) ◽  
pp. 743-748
Author(s):  
A. E. Elwakeel ◽  
A. M. Zein Eldin ◽  
A. A. Tantawy ◽  
S. M. A. Mohamed ◽  
H. A. A. Mohamed

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