SU1067281A1 - Pressure stabilizer - Google Patents

Abstract

1. PRESSURE STABILIZER, in the case of which a spring-loaded gate is installed, which divides the inlet and outlet channels and interacts with the diaphragm of the force chamber communicated with the inlet channel through the bore of the housing blocked by the inlet valve communicating through the spring-loaded pin with the stabilizing diaphragm of the control chamber communicated with the outlet a channel, characterized in that, in order to increase the sensitivity, the body bore is in communication with the atmosphere, an exhaust valve is mounted on the stem, blocking minutes bore of the atmosphere, wherein the stabilizer is provided with a double-arm lever, one arm of which interacts with schtokom, another - with the housing, and a middle portion - with a stabilizing diaphragm in its central portion. 2. Stabilizer according to claim 1, characterized in that the inlet valve is movable relative to the stem and provided with a spring, which loads it i in the direction of the stem, and the exhaust valve is made in the form of a plunger included in the rac (L point of the body. O: go sh

Description

one

The invention relates to pneumatic automation and can be used for remote control using compressed air, particularly in test benches for railway rolling stock brakes.

A pressure stabilizer is known, in the housing of which a spring-loaded gate is installed, which divides the input and output channels and interacts with the diaphragm of the force chamber 1.

The disadvantage of this pressure stabilizer is that it can maintain a constant output pressure only in the flow, i.e. at the expense of a working environment.

The closest to the proposed technical entity is a pressure stabilizer, in the case of which a spring-loaded gate is installed, which divides the inlet and outlet channels and interacts with the diaphragm of the force chamber communicated with the inlet channel through the bore of the housing, blocked by an inlet valve that interacts with a spring-loaded rod with a stabilizing diaphragm control camera communicated with output channel 2.

A disadvantage of the known pressure stabilizer is low sensitivity, depending on the stiffness of the stem spring.

The purpose of the invention is to increase the sensitivity of the pressure stabilizer.

This goal is achieved by the fact that in the device the body bore communicates with the atmosphere, an exhaust valve is installed on the stem, which does not close the bore from the atmosphere, and the stabilizer is equipped with a double-arm lever, one arm of which interacts with the rod, the other arm with the body, and the middle part with a stabilizing the diaphragm in its central part.

In addition, the inlet valve is mounted for movement relative to the stem and is provided with a spring that loads it towards the stem, and the exhaust valve is designed as a plunger, the lueio inlet into the body bore.

The drawing shows a pressure stabilizer.

The pressure stabilizer housing 1 has inlet 2 and outlet 3 channels, which are separated by a spring-loaded gate 4, which interacts with the diaphragm 5 of the force chamber 6, communicated through the bore 7 of the housing and the exhaust valve 8 with the atmosphere, and through the inlet valve 9 - with the inlet channel 2. The axis of the spring-loaded gate 4 is located atmospheric channel 10. The exhaust valve 8 is made in the form of a plunger And and is equipped with a spring-loaded rod 12, acting on the inlet valve 9, loaded with spring 13 in the direction of the spring-loaded rod. In the housing 1, a control chamber 14 is provided, communicating with the output channel 3 and provided with a stabilizing diaphragm 15,

interacting with two shoulders lever 16 in its middle part. One arm of the lever 16 interacts with the rod, and the other is in contact with the screw 17, by means of which the ratio of the shoulders is adjusted to a certain amount of output pressure. The output channel 3 is connected to a filled tank (not shown in the drawing). The pressure stabilizer is provided with an electromagnetic actuator 18 connected via a pre-compressed spring 19 to an exhaust valve 8.

The pressure stabilizer works as follows.

When the electromagnetic actuator 18 is turned on, the exhaust valve 8 by the plunger 11 closes the bore 7 in the housing and the spring-loaded stem m. 12 opens the inlet valve 9. Compressed air enters the power chamber 6, and the diaphragm 5 bends and opens the spring-loaded

5 shutter 4, together with the input channel 2 with the output channel 3. The tank is filled. When a predetermined pressure is reached in the tank, the force acting on the stabilizing diaphragm 15 applied to the greater arm of the lever 16, in sum with the input pressure force acting on the plunger 11 of the exhaust valve 8, becomes greater than the elastic force of the precompressed spring 19 and additionally compresses it, without moving the electromagnetic actuator 18. This closes the inlet

the valve 9 and the exhaust valve 8 is opened, the plunger 11 of which extends from the bore 7 of the housing. Compressed air leaves the power chamber 6, and the spring-loaded gate 4 separates the inlet 2 v and the outlet 3 channels. When the pressure in the force chamber 6 decreases, the additional force acting on the plunger 11 and the compressive spring 19 decreases sharply and the latter partially opens, blocking the bore 7 of the housing with the plunger 11, but not opening

5 an inlet valve 9, and fixes the remaining pressure in the force chamber 6.

The device switches to stabilization mode, which is carried out as follows.

0 When the pressure in the filled container decreases, the pressure drops simultaneously in the control chamber 14; the spring 19 is expanded and the plunger 11 with the spring-loaded stem 12 is mixed down, opening the inlet valve 9. Compressed air enters the power chamber 6 and then into volume until the pressure in it reaches a certain value.

3. 4

In the event of an increase in pressure in the floor. When the electromagnetic capacitance is switched off, the force acting on the station 18 water and the exhaust valve 8 moves the billing diaphragm 15 of the controller to the open position, together with the bore of the chamber 14, becomes greater than the force of the air housing with the atmosphere. At the same time, the pressure inside the pressure valve 9 is closed on it. The pressure in the suction chamber 6. This leads to the opening of the atmospheric chamber to atmospheric pressure, and the ferric channel 10 and the pressure decrease, the compressed air flows out of the container through the container to the desired value. The atmospheric channel 10.

1067281

Claims (2)

1. PRESSURE STABILIZER, in the case of which a spring-loaded shutter is installed, separating the input and output channels and interacting with the diaphragm of the power chamber in communication with the input channel through the housing bore, blocked by the inlet valve, interacting by means of a spring-loaded rod with a stabilizing diaphragm of the control chamber in communication with the output channel, characterized in that, in order to increase sensitivity, the housing bore is in communication with the atmosphere, an exhaust valve is installed on the stem, which shuts off the housing point from the side of the atmosphere, and the stabilizer is equipped with a two-arm lever, one shoulder of which interacts with the rod, the other with the body, and the middle part with the stabilizing diaphragm in its central part. 2. The stabilizer in π. 1, characterized in that the inlet valve is mounted to move relative to the stem and is equipped with a spring, loading it towards the stem, and the exhaust valve is made in the form of a plunger included in the bore of the housing. K ’6728 i