RU77009U1 - HYDRAULIC DISTRIBUTION DEVICE - Google Patents

Abstract

The utility model relates to the field of engineering hydraulics, in particular to hydraulic switchgears that ensure the operability of a hydraulic pipe from two systems: the main and the backup.

The technical result from the use of the proposed utility model is to ensure the operational reliability of the device and the hydraulic pipe as a whole by ensuring the reduction of internal overflows through the locking elements.

This result is achieved in that the locking elements of the on-off distributor 8 are made in the form of two switches 14, 15 parallel to each other located in the housing 1, each of which consists of two cylindrical valves 16, 17 and 18, 19, spring-loaded towards each other in the direction of the conical seats and kinematically connected with each other by means of pushers 32, 33, the ends of which extend into the end control chambers 10, 11, while the pushers of the switches interact with the spring 9 of the distributor 8 through the movable tulku 34 installed in a cylindrical bore 35 of the housing 1. 1 ill.

Description

The utility model relates to the field of engineering hydraulics, in particular to hydraulic switchgears that ensure the operability of a hydraulic actuator from two systems: primary and backup.

A hydraulic switchgear is known comprising a housing with consumer discharge and discharge lines and two power sources: a main and a backup, a spring-loaded on-off valve with end control chambers and four shut-off elements, two of which are arranged in the discharge lines, and two others in the discharge lines of the main and backup power sources (see V.I. Goniodsky "Drive steering surfaces of aircraft", 1974, p. 181, Fig. 4.26a).

A disadvantage of the known switchgear operating from two systems: primary and backup, is that the internal tightness of the device is ensured by a cylindrical spool characterized by increased overflows, due to which premature emptying of one and overflow of the other system (primary or backup) and their failure work.

The technical result from the use of the proposed model is to ensure the operational reliability of the device and the hydraulic drive as a whole by ensuring the reduction of internal overflows on the locking elements.

This result is achieved by the fact that the locking elements of the on-off distributor are made in the form of two switches parallel to the body, each of which consists of two cylindrical valves, spring-loaded towards each other towards the conical seats and kinematically connected to each other

by means of a pusher, the ends of which go to the end control chambers, while the switch pushers interact with the distributor spring through a movable sleeve installed in the cylindrical bore of the housing.

The figure shows a hydraulic switchgear.

The hydraulic switchgear comprises a housing 1 with discharge lines 2, 3, 4 and drain lines 5, 6, 7 of the consumer, the main and backup power sources, an on-off distributor 8 with a spring 9 and control end chambers 10, 11 in communication with the discharge lines 3 , 4 of the main and backup power sources, respectively, channels 12, 13. The on-off distributor 8 is made in the form of two switches 14, 15, which consist of cylindrical valves 16, 17 and 18, 19 with springs 20, 21 and 22, 23 and conical seats 24, 25 and 26, 27, kinematically connected by means of steps 28, 29 and 30, 31, respectively, on the plungers 32, 33, which interact with the spring 9 of the on-off distributor 8 through a movable sleeve 34 mounted in a cylindrical bore 35 of the housing 1.

The hydraulic switchgear operates as follows:

With a working main power supply, the pressures in the discharge lines 3, 4, and therefore in the control chambers 10, 11 are equal;

the spring 9 holds the on-off distributor 8 in the initial position: the discharge line 2 and the consumer drain line 5 are connected respectively with the discharge lines 3 and the drain line 6 of the main source, the backup power supply lines 4, 7 are blocked from the consumer lines 2, 5 by cylindrical valves 17, 19 pressed against the conical seats 25, 27 by the springs 21, 23. The consumer is supplied from the main power source. If the main power source fails, the pressure in line 3, and therefore in the control chamber 11, decreases.

Pushers 32 and 33 by the action of the differential pressure in the chambers 10, 11 are moved in the direction of compression of the spring 9 and ensure that the valves 16, 19 with the help of the springs 20, 22 fit into their seats 24, 26 and thereby disconnect consumer lines 2, 5 from lines 3 6 main power supply. With further movement of the pushers 32, 33, the valves 17, 19, compressing the springs 21, 23 with the steps 29, 31, depart from their seats 25, 27 and inform the consumer lines 2, 5 with the backup power lines 4, 7, thereby transfer of the consumer to a backup power source.

Thus, the proposed technical solution provides an increased level of internal tightness of the device due to the use of cylindrical valves with conical seats as locking elements and thereby increases the reliability of the switchgear and hydraulic drive as a whole.

Claims (1)

A hydraulic switchgear comprising a housing with consumer discharge and drain lines and two power sources: a main and a backup, a spring-loaded on-off valve with end control chambers and four shut-off elements, two of which are arranged in the discharge lines, and the other two are in the drain lines of the main and backup power sources, characterized in that the shut-off elements of the on-off distributor are made in the form of two switches located in parallel in the housing, each of which consists of two cylindrical valves, spring-loaded towards each other towards the conical seats and kinematically connected by means of a pusher, the ends of which extend into the end control chambers, while the switch pushers interact with the distributor spring through a movable sleeve installed in the cylindrical bore of the housing .