The pneumatic reacting to crushing is a metal reacting to pounding machine device intended to cut/granulate metal by applying pneumatic weight. The machine is only planned for large-scale manufacturing and they speak to the quick and more effective approach to cut a metal. The moderate speed activity is happening in a crushing task. This machine is a multipurpose machine.

Hacksaws are utilized to cut thin and delicate metals. The crushing shaft is accustomed to pounding task by supplanting the hacksaw outline. The task of the unit is rearranged to a couple of straightforward activities including a chamber square and cylinder game plan. There are various kinds of cutting machines in Engineering field, which are utilized to satisfy the necessities. We are intrigued to present the pneumatic framework in particularly in cutting machine and furthermore granulating task. The fundamental capacity of Pneumatic slicing is to cut thin and delicate metals by pneumatic power.


These days all the assembling procedure is being atomized with a specific end goal to convey the items at a speedier rate. The assembling activity is being atomized for the accompanying reasons.

 To accomplish large scale manufacturing

 To lessen labor

 To increment the proficiency of the plant

 To lessen the work stack

 To lessen the creation cost

 To lessen the creation time

 To lessen the material dealing with

 To lessen the weakness of laborers

 To accomplish great item quality

 Less Maintenance


 The packed air from the compressor achieves the solenoid valve. The solenoid valve alters the course of stream as indicated by the signs from the planning gadget.

 The compacted air go through the solenoid valve and it is conceded into the front end of the chamber piece. The air pushes the cylinder for the cutting stroke. Toward the finish of the cutting stroke air from the solenoid valve achieves the backside of the barrel piece.

 The weight continues as before however the region is less because of the nearness of cylinder bar. This applies more noteworthy weight on the cylinder, pushing it at a quicker rate in this way empowering speedier return stroke.

 The weight connected toward the finish of the hacksaw outline gives steady loads which bring down the hacksaw to empower consistent cutting of the work.

 The stroke length of the cylinder can be changed by making appropriate modification in the clock.

 Cutting hacksaw outline is expelled on account of granulating activity. The above same system is happening in the pounding activity.


1. Agriculture:

 Crop framing

 Stock reproducing

 Animal nourishment ventures

 Foresting

2. Utilities:

 Power Station

 Nuclear Engineering

 Water Supply

3. Mining

4. Chemical Industry

5. Plastics and elastic businesses

6. Stone, Ceramic and glass businesses

7. Metal Industries:

 Iron and Steel

 Non-ferrous metals

 Foundries

 Scrap and reused metals

8. Leather Industry

9. Textile Industry

10. Paper and Printing Industry

11. Grinding Industries


 There is no need of giving food amid each slice because of the nearness of weight.

 The cutting/granulating rate can be differed by our necessities by changing the clock.

 It is convenient

 It does not have any Prime mover, similar to electric engine identified with the unit.

 As the air is uninhibitedly accessible, we can use the air to cut the metal and thus it is sparing.

 Simple in development than mechanical hacksaw and processor

 It is a minimized one

 Less Maintenance


 Only littler size and delicate metal can be cut

 It is costlier than the mechanical hacksaw as a result of compressor unit.

 Less proficiency when packed to mechanical gadget.

 Leakage of air influences the working of the unit.


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