SU850917A1 - Pump feed regulator - Google Patents

Description

one

The invention relates to a hydraulic engineering industry and can be used in pumps of adjustable feed for various purposes.

A pump control regulator is known, comprising a housing in which the control valve of the pump regulating body is laid out, loaded with two springs and connected by one of them through a cam with a copier, a plunger hydraulically connected to the pressure pump, and a regulator setting mechanism

A disadvantage of the known device is the difficulty of changing the mode of operation and the design of the controller.

The purpose of the invention is to simplify the design and dissolve the functional capabilities of the controller.

At | 0, the objective is achieved by the fact that the copier is connected to the regulator on the pump body by a gear drive, and a follow valve is additionally installed between the delivery line and the plunger.

In addition, the feed regulator is provided with a wedge, installed between the spool pusher and the spring with the possibility of movement.

A plunger is mounted in the housing, kinematically connected to the wedge, and hydraulically to the follow valve.

The adjustment mechanism of the regulator is equipped with stops to restrict the movement of the wedge and the spring of the slide valve.

 The drawing shows a pump feed regulator.

The pump flow regulator consists

10 of the housing 1, which is rigidly connected to the pump housing 2. In the housing 1 there is a control spool 3, in the body of which there are systems of channels 4 and 5. The control spool 3 on one side interacts with the spring 6 through the stem 7, a wedge 8 and the pusher 9, and on the other - with the plunger 10 and the spring 11 through the bushing 12 and the rods 13.

The plunger 10 with the housing 1 form

20, a cavity 14 connected by a channel 15 with a cavity of a follower valve 16. A tared spring 6 through a cup 17, a two-arm lever 18 and a pusher 19 interacts with a cam 20 having

25 gear sector, which in turn is associated with sector 21, concentrically rigidly connected with the regulator 22 of the pump 2. To change the inclination of the regulator 22 30, a two-sided hydraulic cylinder is used that forms two cavities 23 and 4 connected to the regulator body 1 by pipelines 25 and 26,

In the housing 1 of the regulator is placed a lunger 27 hydraulically connected with the follow valve 16 and through the wedge 8 interacting with one of the wedge surfaces through the rod 7 with the calibrated spring 6 ,. on the other hand, the pusher 9 - with the end of the gold 3 controls. Pressing the spring 11 is predetermined by the gear wheel 28 through the gear rack with the stop 29 and the cup 30. The rack 31 moves in synchronization with the rail 29 with the stop 32 mounted on it, which during operation limits the wedge stroke 8,

. The power and energy transfer of the pump to the consumer 33 is carried out via the injection and discharge lines 34 and 35. When the pump is reversed, the line is replaced.

The controller works in the following way.

The working fluid is supplied to the system and driven by the consumer 33, if the load of the consumer 33 is insignificant, then the pressure created in the line 34, through the next valve 16 is transferred to the channel 15, from where it spreads into the cavity-14, under the plunger 27 and through the system of channels 4 of the spool 3 of the control into the pipeline 25, and from there into the cavity 23 of the hydraulic cylinder. At the same time, the cavity 24 through the pipe 26 and the system of channels 5 is connected to the drain,

The hydraulic cylinder tends to increase the angle of inclination of the regulator organ 22. With increasing load, namely pressure. in line 34, the pressure increases in the cavity 14 of the plunger 10 and under the plunger 27,

Plunger 27 begins to move and begins to move the wedge 8, increasing the load of the calibrated spring 6, which compensates for the hydraulic force of the plunger 10. Plunger 27 moves the wedge 8 to compensate the gap (f, up to the stop 32, the pressure in the network becomes equal to the calculated one at maximum flow and rated power transmitted by the pump

With a further increase in load, the hydraulic force of the plunger 10 will become greater than the force specified by the wedge 8 of the calibrated spring 6, which moves the spool 3, moving, the spool switches the pressure from the system of channels 4 to the pipeline 26 and respectively to the cavity 24 of the hydraulic cylinder, and the cavity 23 through the pipeline and the system of channels 5 are connected to a drain, the hydraulic cylinder reduces the angle of inclination of the regulator 22, i.e. reduces pump flow. Turning, the regulator 22 rotates the hardwired sector 21, which

accordingly, the copier 20 rotates and pushes the lever 18 through the pusher 19 and presses the spring 6 onto the glass 17, increasing its force until the forces of the hydraulic plunger 10 and the mechanical spring 6 are balanced and t, d to the maximum pressure for which the hydraulic pump is designed,

With the fall of the load, the mechanical force of the calibrated spring 6 becomes greater than the hydraulic force of the plunger 10 and the spring 6 moves the control spool 3 along, connecting the cavity of the hydraulic cylinder 23 with pressure, and the cavity 24 with discharge, thereby increasing the angle of inclination of the regulating body 22 and accordingly increasing the flow of the hydraulic pump,

In steady-state load conditions, the control spool 3 is in neutral when the working fluid in the cavities 23 and 24 of the hydraulic cylinder is locked. The regulator is equipped with a setting mechanism.

The regulator works in the following way.

Turning the gear wheel 28 at a predetermined angle counterclockwise, the rail 29 moves through the cup 30, loading the spring 11, and the rail 31 moves synchronously with the stop 32, increasing the clearance with

The spring 11 through the bushing 12 and the rods 13, acting on the spool 3, moves it by the magnitude of the working stroke, thereby with a small load, it directs the pressures of the working fluid from the kangsha 15 through the system of channels 4, pipe 26 to the cavity 23 of the hydraulic cylinder, which reduces the inclination of the regulator 22 and through the copier 20, the pusher 19 and the lever 18 balances the sum of the hydraulic forces, the plunger 10, and a given spring force 11, with the force of the calibrated spring 6, the hydraulic force of the plunger 27 begins to move the wedge with increasing load 8, which increases the load of the calibrated spring b, to compensate the force of the plunger 10 by holding the spool 3 in neutral until the wedge 8 compensates the gap (I / I come into contact with the stop 32. The described implementation of the pump supply regulator allows you to simplify its design, to steplessly set any necessary pump flow and speed of the actuator operating with it, to reduce the transition time to a modified mode of operation of the regulator.

Claims (1)

1. A pump feed regulator comprising a housing in which the