CS206975B1 - Hydraulic distributor - Google Patents

Description

The invention relates to a hydraulic distribution system with an alternating sound distribution system, wherein the impulse to change the direction of the distribution system is given by interrupting the pressure in the supply line.

To change the direction of the distribution of the pressure liquid to perform the required work by the working hydraulic cylinders, he uses aa hydraulic distributors controlled mechanically, pneumatically, electromagnetically, or auxiliary hydraulic circuit. These auxiliary devices, in order to operate automatically, are relatively complex and require special working circuits.

The above-mentioned drawbacks are eliminated by a hydraulic distributor with alternate change of the liquid distribution, where the impulse to change the flow direction of the liquid is given by interruption of pressure in the supply line and in the distributor body. The slide is slidingly placed inside the body and suspended on both sides, whose basic position is in the middle of the length of the switchgear body and which is equipped with a rubber ring and friction resistance. The hydraulic distributor is connected to the inlet pressure lines and acts on one or more working units to the hydraulic working cylinder circuit.

The hydraulic distributor works fully automatically without external moving parts, which assumes reliability of work.

An example of such a hydraulic distributor is shown in FIGS

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Fig. 1 shows the switchboard in the left unpressurized position, Fig. 2 shows the switchboard in the left unpressurized position, Fig. 3 represents the switchboard in the right unpressurized position, Fig. 4 represents the switchboard in the right depressurized position, Fig. Fig. 6 shows an example of the connection of the distributor to the hydraulic circuit system with the clamp jaws open.

The distributor 1, ee consists of the distributor body 2, the distributor shaft 3e of the inner body 4. This inner body 4 is spring-loaded on both sides by two springs, namely a left spring 5 and a right spring 6 if there is no pressure in the pipe. A pressurized liquid, for example oil, is supplied to the distributor 1 via the inlet pipe 7 and is discharged to waste through the waste pipes 8 which are interconnected. By the left working line 9 and the right working line 10, the liquid is distributed to the working units. In the extreme position ae, it supports the guide plate 3 against the cover 11 of the distributor 1. The springs 5 and 6 are supported by a sliding stop 12 which limits its minimum and maximum movement. In each position, the left working space 13 is interconnected with the left interior space 15 and the right working space 14 is interconnected with the right interior space 16 through the interconnecting channels 17 in the distributor slide 3.

As the pressure in the inlet duct 7 rises, the pressurized liquid enters the right working space 14 into the right inner space 16 and by its pressure ee moves the inner body 4 to the leftmost position. If this pressure persists, the position of manifold 3 does not change. This pressure also enters the right working line 10 from where it is discharged to the working units. The waste liquid of the working units is discharged through the left working space 13 and further through the discharge line 8.

After the working pressure has passed, the left spring 5 pushes the inner body 4 into the middle position. When this body is moved by friction between the inner body 4 and the guide slide 3, the guide 3 is moved in the same direction to its second end position. 7, the pressure fluid passes through the left working space 13 and at the same time moves the inner body 4 to the right position. The pressure fluid from the distributor then passes through the left working line 9 and the waste liquid is returned via the right working line 10 to the outlet line 8 on the right side.

When the pressure drops again, the inner body 4 returns to the center position and moves the guide pin 3 again to the left position; which repeats the next cycle.

The hydraulic distributor 1 may be unconnected to a hydraulic circuit where it controls working elements, for example, a clamp. The pressurized fluid is supplied from the hydraulic motor 17 via a pressure inlet pipe 7 to the left part of the working cylinder 18, whereby the jaws 19 of the clamping tongs 20 are clamped. The waste liquid is led through the hydraulic distributor 1 through the left working pipe 9 to the reservoir 21.

When the pressure e decreases, when the hydraulic distributor 1 is moved to the second position, the pressurized liquid is led from the hydraulic motor 17 to the right part of the working cylinder 18, thereby opening the jaws 19. The top pressure part of the hydraulic motor 17 is replenished after the supply

206 975 of the tank 21 over the non-return valve 22. The pressurized fluid from the working lines may also be distributed to several working cylinders 18 and thus the hydraulic motor 17 may control 1 several working units simultaneously. These units may be, for example, jaws, magnetic units, preave, and the like.

Claims (2)

A hydraulic distributor with a medium change in fluid distribution, wherein the impulse to change the direction of fluid flow is given by interruption of pressure in the supply line and in the body of the distributor is displaceably disposed two-position spool according to the invention. the inner body (4) is suspended on both sides, whose basic position is in the middle of the length of the body (2) of the switchgear (1). 2. Hydraulic distributor according to claim 1, characterized in that the inner body (4) is provided with a friction resistance by means of a rubber ring 8.