RU1774078C - Pneumatic pules generator - Google Patents

Abstract

Usage: the supply of different portions of gas at regular intervals and the creation of pressure pulses in the air system. SUMMARY OF THE INVENTION: a working valve 3, a backup valve 14 installed in the outlet 12, and an elastic membrane 4 are located in the housing 1. A replaceable receiver 14 is connected to the housing 1. When the pressure is applied to the housing 1 and the receiver 14, the membrane bends,

Description

The invention relates to devices for automatically feeding equal portions of compressed air at equal time intervals.

A known generator of pneumatic pulses, consisting of a spring-loaded pulsating valve mounted to the housing, with an electromagnetic actuator and a terminal end position sensor, and an electric generator control unit, for example, described in the journal Production and Automation of Production, GF 9, 1968, rt. 28 (organ of the Ministry of machine-tool and tool industry of the USSR).

A disadvantage of a pneumatic pulse generator is the need to have an electrical energy source.

A known generator of pneumatic pulses containing a housing with inlet and outlet nozzles, an elastic membrane installed in the cavity of the housing with the formation of a pneumatic chamber in communication with the inlet and outlet nozzles, a stem operating valve with a seat located in the pneumatic chamber and connected to the pneumatic chamber by an elastic element, a working pusher valves with an adjustable spring, an adjustable throttle installed in the inlet pipe, and a receiver in communication with the pneumatic chamber, for example, according to A.S. No. 1724960, class F 15 B 21/12, 1989, Application No. 4643603/29).

The disadvantages of the known generator of pneumatic pulses is the more complex design of the valve and its actuator, as well as loss during operation of the energy source.

The aim of the invention is to increase efficiency and simplify the design.

This goal is achieved by the fact that the generator is equipped with a backup valve installed in the exhaust pipe, the seat of the working valve is fixed and installed at the inlet to the exhaust pipe, and the pusher is mounted on the membrane and made in the form of a cylindrical guide covering the rod of the working valve, and on a free A stop is installed at the end of the rod, in addition, the elastic element is made in the form of a compression spring.

In order to expand the operating range, the receiver is removable.

If the working gas pressure in the pneumatic chamber increases to the pressure of the adjusting spring of the pusher, the latter with a further increase in gas pressure will begin to move together with the diaphragm, and the stem operating valve will be pressed against the seat to this pressure

0 of the moment of its detachment from the saddle by the pusher through the stop, as a result of which the gas pressure in the space between the backup valve and the working valve increases sharply and the gas pressure drop across the last 5 decreases, which will allow the elastic element in the form of a compression spring to push the working valve from the saddle towards the push rod by holding the operating valve in the open position and issuing a portion of the compressed

0 gas through the check valve.

When the gas pressure in the pneumatic chamber drops, the adjusting spring of the pusher seals the latter using the operating valve,

5 Thus, the inventive pneumatic pulse generator complies with the known criteria in accordance with the invention by its novelty and creates a positive effect.

0 Comparison of the claimed technical

solutions not only with the prototype, but also with other technical solutions in the art did not allow them to reveal the features that distinguish the claimed solution

5 from the prototype, which leads to the conclusion that the criterion meets the significant differences.

The drawing shows a pneumatic pulse generator,

0 The pneumatic pulse generator consists of a housing 1 with a spring-loaded control spring 2 with a rod-type operating valve 3, equipped with a pneumatic chamber drive, consisting of an elastic membrane 4 connected to the operating valve follower in the form of two washers 5 and 6 with bolts and mounted above the flowing part of the housing 1 with peripheral fastening to the latter by means of a cover 7 and bolts, the composite pusher 5, 6 being spring-loaded with an adjusting spring 2 and engaging through an elastic element in the form of a compression spring 8 the rod of the operating valve 3, which ensures their relative movement until the stop 9 on the free end of the rod of the operating valve and part b of the push rod when creating gas pressure in the flowing part of the housing 1 having an inlet pipe 10 with an adjustable throttle 11, an outlet pipe 12 with a check valve 13 and receiver 14,

The adjustable throttle 11 is screwed into the inlet pipe 10 and has mutually perpendicular openings in the body.

The stop valve 13 is spring-loaded with a spring 15. The stop 9 in the form of a sleeve is fixed at the end of the stem by a locking spring ring installed in the stem groove,

The cover 7 has two grooves 16 for the pins 17, pressed into the cap 18, interacting with the screw 19 in compression by means of the last spring 2, which excludes the transmission of torque to the membrane 4.

The guide sleeve 20 eliminates the misalignment of the pushrod 5.6 provided with a cylindrical guide for the stem of the operating valve 3 and provides the latter with a perpendicular position relative to the seat.

The pneumatic pulse generator operates as follows.

Compressed gas in the direction of arrow B through an adjustable throttle 11 is supplied to the internal cavity of the housing 1 and the receiver 14.

The gas flow rate into the generator is controlled by moving the throttle 11. At this time, the stem operating valve 3 through the pusher part 5 is pressed against the seat on the housing 1 by means of the adjustment spring 2, and the check valve 13 is also pressed against its seat on the housing 1 by means of the spring 15 .

After the gas pressure in the internal cavities of the housing 1 and the receiver 14 is set to a value that provides a force on the membrane 4 equal to the compressive force of the spring 2, the latter will begin to compress when the gas pressure in the generator increases, while the pusher 5, 6 will move, and the operating valve 3 will be pressed by gas pressure to its seat.

As the gas pressure in the displacement generator increases, the push rod 5, 6 will increase until the pushing part 6 rests against the end face of the stop 9 and the operating valve 3 breaks off its seat.

At this moment, the gas pressure under the operating valve 3 increases sharply and the differential

the pressure on it will also decrease sharply, as a result of which the working valve 3 will be spring 8 thrown towards the pushrod 5, 6. This will ensure that the working valve 5 is kept in the open position.

A portion of the compressed gas will be ejected through the check valve 13. The time of the ejected compressed gas will be equal to the time the movable part 4, 5 and 6 of the pneumatic chamber return to their original position, as a result of which the working valve 3 seals the generator housing with the spring 2 and the pressure of the compressed gas in it will start to increase. The process will be repeated.

5 By changing the height of the stop 9, it is possible to regulate the movement of the movable part 4,5 and 6 of the pneumatic chamber, and therefore, to regulate the duration of the pneumatic pulse. By means of the throttle 11, the frequency of pneumatic pulses is controlled by changing the filling time of the generator with compressed gas.

The power of the pneumatic pulse is adjusted by the control spring 5 by increasing the pressure of the compressed gas before discharge.

Claims (2)

The claims 1, a Pneumatic pulse generator containing a housing with inlet and outlet nozzles, an elastic membrane mounted in the cavity of the housing with the formation of a pneumatic chamber in communication with inlet and outlet nozzles, a stem operating valve with a seat located in the pneumatic chamber and connected to the pneumatic chamber by an elastic element, a pusher of the operating valve with an adjustment a spring, an adjustable throttle installed in the inlet pipe, and a receiver in communication with a pneumatic chamber, characterized in that, in order to increase efficiency and simplify the design, the generator is equipped with a check valve installed in the outlet pipe, the seat of the working valve is fixed and installed at the inlet to the outlet pipe, and the pusher is mounted on the membrane and is made in the form of a cylindrical guide covering the stem of the working valve, with a stop installed on the free end of the rod, except Moreover, the elastic element is made in the form of a compression spring. 2. The generator according to claim 1, with the exception that in order to expand the operating range, the receiver is removable.