SU1474276A1 - Mine prop hydraulic unit - Google Patents

Abstract

The invention relates to the mining industry, relates to control devices for hydraulic drives of mining machines, and can be used in hydraulic blocks for controlling hydraulic drives of machinery. The purpose of the invention is to increase reliability. The rack-mount hydraulic unit includes a housing 1 with a supply channel 12 and a discharge channel 3, as well as a channel 4 connected to a hydrorack piston cavity 6. In the housing 1 there is an elastic locking element in the form of two metal bellows 15 and 16 that are connected in series and rigidly connected to each other. which is fixed on the housing 1 from the side of the channel 12 supply. 1 Il.

Description

The invention relates to the mining industry, and in particular to hydraulic control units for hydraulic drives of mining machines, and can be used in the design of hydraulic control units for hydraulic drives of machines.

The purpose of the invention is to increase reliability.

The drawing shows the design of the rack-mounted valve body.

Rack valve body contains a housing 1, in the end 2 of which a cover is installed. The housing 1 is made with a drain channel 3 and a channel 4 connected via a line 5 with a piston cavity 6 of a hydraulic stand. The hydraulic stand contains a cylinder 7, a rod 8 and a piston 9. The supply and removal of the working fluid to the rod cavity 10 of the hydraulic stand is carried out by the line 11.

At the end 2 of the housing 1, a supply channel 12 is made from a pressure line .13 and a channel 14 for supplying a working fluid from a rod cavity 10 of a hydraulic stand. An elastic locking element is located in the housing 1 and is made in the form of two metal bellows 15 and 16 connected in series and rigidly interconnected. The bellows 16 is placed between the drain channel 3 and the channel 4 connected to the piston cavity 6 of the hydraulic stand and is hermetically connected to the bellows 15. Between the bellows 15 and 16, a partition 17 is made. The bellows 16 has a free movable end 18 from the side of the drain channel 3. The bellows 16 has a more stringent characteristic than the bellows 15, which is achieved either by performing from another material, or by making corrugations with a different step than the step of the bellows 15.

The bellows 15 with a free end 19 is fixed to the housing from the side of the channel 12 for supplying the working fluid from the pressure line. The free end 19 can be fixed directly to the end 2 or through an intermediate element 20, for example a cylindrical sleeve. The chamber 21 inside the bellows 15 is in communication with the rod cavity of the hydraulic stand through the channel 14. The chamber 22 of the bellows 16 in this case is isolated from the chamber 21 by a partition. 17.

Bellows 15 and 1.6 interact with the body on the convex surfaces of their corrugations.

Rack valve body, operates as follows.

When the working fluid is supplied through the channel 12 from the pressure line 13, it acts on the outer surfaces of the bellows 15, creating a force that stretches the bellows 15 and moves the bellows 15 towards the channel 4.

As a result, the bellows 15 reduces the force of pressing the convex surfaces to the housing 1. By reducing the diameter of the bellows 15, the working fluid flows through the gap between the housing 1 and the convex surfaces of the bellows 15 and enters through the channel 4 along the line 5 into the piston cavity 6 of the hydraulic rack and it extends . When this channel 3 drain is isolated from the pressure line 13 by means of a bellows 16.

If there is a pressure in the piston cavity 6 of the hydraulic column above the pressure of the safety valve necessary to overcome the rigidity of the bellows, the working fluid enters the channel 4 along line 5 and acts on the outer surfaces of the bellows 15 and 16. Since the bellows 15 is fixed at one end 19, the bellows 15 under the influence of the pressure of the working fluid will be compressed, and its convex surfaces will be pressed with even greater force against the inner surface of the housing 1. Thus, reliable sealing to Nala 12 from the working fluid from the piston receipt cavity 6 gidrostoyki.

At the same time, when the working fluid is exposed to pressure above the allowable bellows 16 due to the force created by the working fluid along the outer surface of the bellows, it begins to stretch and moves the free movable end 18 in the direction of the drain channel 3.

As a result, the bellows 16 reduces the force of pressing the convex surfaces to the housing 1; the diameter of the bellows 16 decreases, and the working fluid flows between the housing 1 and the convex surfaces of the bellows 16 in the drain channel 3.

Thus, the hydrostand is unloaded to remove it from the mountain pressure.

With a decrease in pressure in the piston cavity of the hydraulic stand, the force exerted by it on the bellows 16 decreases, as a result of which the bellows 16 is compressed due to the elastic properties, i.e., the free end 18 is shifted towards the end 2, and the bellows 16 covers the gap between the housing 1 and convex surfaces of the bellows.

When the working fluid is pressurized into the rod cavity 10, it simultaneously enters through the channel 14 into the chamber 21 of the bellows 15, the latter begins to lengthen under the action of the working fluid, since its end together with the septum 17 begins to move to the drain channel 3, while the line 13 is communicated with a drain.

The bellows 15 reduces the force of pressing the convex surfaces to the housing 1, the diameter of the bellows 15 is reduced, and the working fluid flows from the piston cavity 6 into the channel 12 and then along the line 1374276 of the drain 13. Thus, there is a forced landing of the hydraulic stand.

After the supply of working fluid under pressure to the rod cavity 10 is stopped, the force exerted on the bellows 15 is reduced, as a result of which the bellows 15 is compressed due to the elastic properties, that is, its end together with the baffle 17 is shifted towards the end 2. Bellows 15 covers the gap between the housing 1 and the convex surfaces of the bellows corrugations.

This embodiment of the rack-mounted valve body allows to increase reliability, since the valve body contains a minimum number of elements, there are no rubber seals of movable locking elements.

Claims (1)

Claim A rack hydraulic unit comprising a housing, an inlet channel, a drain channel and a channel in communication with the piston cavity of the hydraulic stand, an elastic locking element located in the housing, characterized in that, in order to increase reliability, the elastic locking element is made in the form of sequentially installed and rigidly connected between themselves two metal bellows in contact with the tops of their corrugations with the cylindrical surface of the cavity made in the housing, moreover, one of the bellows is placed between the drain channel and the channel in communication with the piston cavity of the hydraulic stand is made with a free movable end and has a stiffer characteristic than the second 15 bellows located between the channel in communication with the piston cavity of the hydraulic stand and the supply channel, while the second bellows is attached at its end from the side of the supply channel to the housing and the cavity is separated from the cavity of another background by a partition and is in communication with the channel in communication with the rod cavity of the hydraulic stand.