SU473850A1 - Hydraulic system - Google Patents

Description

one

The invention relates to hydraulic systems, mainly a tractor, and is intended to control the hydraulic actuating of the working bodies of the machines attached to the tractor.

Hydraulic systems are known that contain two series-connected unregulated pumps that operate on two consumers, a two-stage spool valve: a distributor and a throttle flow divider, the sub-element of which is rigidly connected to the spool of the first distributor cascade. However, such hydraulic systems do not ensure the operation of the first pump for one user after switching on the second pump, which leads to a loss of power in the flow divider.

The proposed hydraulic system contains an additional power line for the consumer, and the spool valve of the second stage of the distributor has two additional lines for separating the flow of the working fluid at the inlet of the flow divider and supplying the working fluid to the additional line. An additional line is connected to the outlet of the flow divider through a check valve normally closed on the side of this line.

This embodiment of the hydraulic system makes it possible to provide the first pump to one consumer after turning on the second pump.

and reduce the power loss in the flow divider.

In the drawing is given the scheme of a hydraulic system.

Consumer 1 through the check valve 2, and consumer 3 through the annular slots formed by the edges of the spool 4 and the end edges of the pipes 5 and 6, and then through the end chambers 7 and 8, channels a b are connected to the throttle divider flow. The throttle flow divider, rigidly connected with the spool valve of the first cascade of the distributor, is made in the form of a spool 9, S11abzhen I with two conical surfaces A and B, separated by a cylindrical rim 10, which together with the edges and skirts 11-13 form the variable resistance in the form of annular cracks. Grooves 14 and 15 bushings

the spool 9 is connected by VIG channels with the grooves 16 and 17 of the sleeve to the subframe of the blued spool 18. The sleeve 19 of the spool 18 is provided with grooves 19 and 20 connected, respectively, by lines 21 and 22 with unregulated pumps 23 and 24, a groove 25 connected by a highway 26 with The drain, as well as the groove 27, connected by the highway 28 with the consumer 1. The cavity B of the spool control 18 through the channel d, the groove 29, drilling 30 and the grooves 31 and 32, performed in the body of the spool 9, is connected to the cavity D and D pumping, and draining, conformity.

The hydraulic system works as follows.

When using the flow of one pump, the spool 9 is installed with the control knob 33 into a position in which the control cavity B of the control valve 18 is connected via channel d, groove 29, drilling 30 and groove 32 with cavity D of drain. The spool 18 in this case is in the extreme right position, guiding the separation of the groove 27 from the groove 19 and the latter merging with the groove 16 connected by a channel in with the groove 14 of the spool 9. At the same time the groove 20 is separated from the groove 17 and combined with the groove 25 connected highway 26 with a drain. In this case, the oil from the pump 23 through line 21 through the grooves 19 and 16 of the sleeve of the switching spool 18, the channel in and the groove 14 goes to the gold head 9, and the oil from the pump 24 through the grooves 20 and 25 and the line 26 goes to the drain.

The flow from the pump 23 is divided when the fluid passes through annular slots, one of which is formed by surface A with lip II, and the other by surface B with flange 12. The magnitude of these slots depends on the position of the spool 9. The annular slots create on flow paths to the ends of spool 4 are two parallel hydraulic resistances.

With the stationary spool 9, the spool 4 is automatically set relative to the edges of the POS | Skov 5 and 6 so that the pressures in the end chambers 7 and 8 equalize, thereby ensuring the constancy of the flows to the users 1 and 3, regardless of the pressure on the terminals.

Pasos 24 is only put into operation when the flow from pump 23 is completely supplied through the flow divider to consumer 1, which corresponds to the position of the spool 9, in which the cylindrical post 10 and 10 together will disconnect the grooves 14 and 15. At the same time, the groove 32 is disconnected from the cavity D of the drain, and the groove 31 through the drilling 30, the groove 29 and the channel d connects the pressure line 28 to the cavity B of the control valve spool 18, which is moved to the left under the action of pressure, thereby providing oil flow

from pump 23 through grooves 19 and 27 and line 28 directly to consumer 1, mine throttle slots formed by spools 9 and 4 of the flow divider. Spool 18

cuts the drain groove 25 from the groove 20 and combines the latter with the groove 17, which ensures the flow of oil from the pump 24 through channel g to the spool 9.

The flow from the pump 24 is divided when annular slots pass through the fluid, one of which is formed by a conical surface A with an edge along scoop 12, and the other by surface B with an edge of a lobe 13. The operation of the spool 4 when dividing the flow of the pump 24 is similar to the work when dividing the flow pump 23.

Part of the flow of the pump 24 enters through the flow divider and the check valve 2 into the main 28, where the bag is connected to the flow of the pump 23, and then sent to the consumer 1. The remaining part of the flow goes to the consumer 3.

A check valve 2, built in between the consumer and the flow divider, eliminates the influence of the flow of the pump 23 on the process of dividing the flow of the pump 24 in the case of operation by. consumer of both pumps.

Subject invention

The hydraulic system is predominantly a tractor, containing two consecutive unregulated, working for two consumers, a two-stage spool valve: and a throttle flow divider, the movable element of which is rigidly connected to the valve of the first stage of the distributor, in order to ensure the operation of the first pump on one

After switching on the second pump and reducing the power loss in the flow divider, the consumer contains an additional supply line for the consumer, and the spool valve of the second stage of the distributor has two additional ports for separating the working fluid at the inlet of the flow divider and supplying the working fluid to the additional line, this line connected to the outlet of the flow divider through a check valve, normally closed on the side of the additional line.