SU866304A1 - Intermittent action pneumatic device - Google Patents

Description

a shank 21 is made, on which there is a lead-in part 22 and grooves 23.

The front cover 12 is connected to the cover 24, in which there is an opening 25 and a channel 26 for supplying liquid, as well as an opening 27 for draining liquid through a check valve 28 to the tank.

In the lid 24, there is an adapter 29 in which holes 30 and 31 are formed.

In the cap 24 and the adapter 29 there is a piston valve 32 with channels 3 3 and 3 4.

In the rear kryvak 13 has a sleeve 35 with a hole 36, which includes the tip 37 of the piston 10.

A receiver 38 is attached to the back cover, ending with a cover 39. There is a hole 40 in the cover 39. The valve device 9 is attached to the blade 39 by means of a holder 41 in which holes 42 are made.

The device works as follows.

After switching valves 4, the air from the compressor 1 is fed into the cavity A of the cylinder 7 and to the valve device 9, the valve body which in the form of the tip 37 closes the opening 36 of the sleeve 35. The piston 8 of the cylinder will rise to its extreme position, while the liquid through the holes 25,26 , 30,19,20 passes into the bore 18, fill it. Then, after switching the distributor 3, the air enters the receiver 38. The pneumatic device is ready for operation. Then the cavity A and the piston cavity of the valve device are connected to the atmosphere, and the cavity B and the rod cavity - with the discharge line of the compressor 1. Simultaneously with the shift of the piston 8 to the left and the removal of the piston 10 of the valve device 9 to the right, the air from the receiver 38 rushes through the holes 36 and 16 into cavity B. Under the action of this air, the piston is displaced to the left, thereby producing a blow to the fluid in the bore 18 and the cavity formed when the piston 8 exits the front cover 1

As a result of the impact on the liquid, part of it is forced into the tank through the check valve 28, and its other part, enclosed in the bore 18, through the holes 31 and the channel 34 enters the channel 33.

After completing the working stroke, the command is given to the valves 4, which install the piston 8 and the locking member in the form of the tip 37 of the valve device 9 to the initial position. As a result, the piston 8 retracts to the right and smoothly brakes it at the end of the stroke, due to the fact that the lead-in portion 22 of the shank 21 first enters the opening 16 of the baffle 13 and air is supplied in the chamber 17, and then (as the lead-in portion 22 leaves the holes 16) begins the flow of compressed air through the holes formed by the partition wall 16 and the grooves 23 of the shank. At the same time, the tip 37 of the piston 10 closes the opening 36 of the sleeve 35.

Thus, by using the receiver, which communicates with a valve device with a pneumatic cylinder, it is possible to increase the energy of impact of the pneumatic cylinder body.

Claims (2)

1. A pneumatic pulse device containing a pneumatic cylinder with a single-sided stem output and a receiver attached to the cylinder, the rodless cavity of the pneumatic cylinder being connected to a receiver, characterized in that, in order to increase the impact energy, a valve is installed in the line connecting the receiver to the rodless cavity. . 2. The device according to claim 1, characterized in that the valve seat is made in the wall of the pneumatic cylinder, and the locking member is formed by the stem of the additional cylinder installed inside the receiver. Sources of information taken into account in the examination 1. USSR author's certificate 196551, cl. F 15 B 21/12, 1967. 9uaoiffnjf