SU1753075A1 - Pulse generator - Google Patents

Abstract

This invention relates to pneumatic automation. The generator contains a five-line two-position pneumatic distributor, two tanks 4 and 5, and two adjustable throttles 10 and 11. Running two additional valves at the ends of the cavities 14 and 15 by means of O-rings 12 and 13 and connecting to the atmosphere through throttles 10 and 11. significantly simplify the design of the generator. 1 il.

Description

The invention relates to automatic control and can be used in pneumatic devices.

The purpose of the invention is to simplify the design.

The drawing shows a pulse generator.

The pulse generator contains in the housing 1 a five-line on-off pneumatic directional valve, spool 2 with seals 3, containers 4 and 5, start buttons 6 and 7. The housing is closed by covers 8 and 9, in which adjustable chokes 10 and 11 are located, as well as o-rings 12 and 13, forming valves with ends of the spool 2. The diameter of the rings 12 and 13 is less than the diameter of the spool 2. The control cavities 14 and 15 are sealed by rings 16 and the channels 17 and 18 are in communication with containers 4 and 5, which are sealed by rings 19. The cavities 20 and 21 are communicated with channel. 22 power, extreme inputs 23 and 24 air distributor and channels 25 and 26 with control cavities 14 and 15. The middle inputs of the valve are connected with outputs 27-29. The control cavities 14 and 15 through the gap between the housing 1 and the spool 2 and the channels 23 and 24 communicate with the cavities 20 and 21.

The pulse generator operates as follows.

In the initial position, the spool 2 closes the valve 12 with its end face, separating the control cavity 14 with the throttle 10 and communicating it through the channel 23 with the power channel 22. At the same time, compressed air quickly fills the control cavity 14 and the reservoir 4 connected with it by the channel 17. Due to the difference in the area of the spool 2 and the valve 12, air pressure is created in the cavity 14 to move the spool to the left. Under the action of this force, the valve 12 is depressurized, as a result of which the area affected by the pressure in the cavity 14 sharply increases. Accordingly, the force acting on the spool sharply increases, which leads to its rapid leftward movement to another extreme position. Now, valve 13 is already closed 5 and the control cavity 15 communicates with the output 22. In this case, the container 5 is filled with compressed air and a force appears due to the difference in the areas of the spool 2 and valve 13, 10 directed to the movement of the spool to the right. At the same time, through the open valve 12 and the throttle 10, the air from the cavity 14 and the tank 4 enters the atmosphere, the pressure in the cavity 14 decreases, since the connection of the cavity 14 with the channel 22 through the seal 3 to the left by the spool is interrupted. At a certain pressure in the cavity 14, the force exerted on the spool by the cavity 15 exceeds the force acting on it and the valve 13 is depressurized, the force on the left increases sharply and the spool quickly moves to the right extreme position. Next, the cycle repeats.

Claims (1)

25 claims A pulse generator containing two adjustable chokes, two capacitors and a five-line on-off pneumatic distributor, in which the central input 30 is connected to the atmosphere, two extreme inputs are connected to the power channel, two intermediate inputs are connected to the output channels of the generator, and the control cavities are connected to capacitors, distinguishing 35 s I mean that, in order to simplify the design, start-stop buttons are introduced into the generator, an o-ring is installed at the end of each control cavity, forming a pneumatic valve with a spool divider valve 40 is connected through an adjustable throttle with the atmosphere, and the feed channel is further connected to each control cavity via a respective start-stop button.