SU207729A1 - AXIAL-PLUNGER HYDRAULIC PUMP OF REGULATED PERFORMANCE - Google Patents

Description

Known axial-plunger hydraulic pumps of adjustable capacity, containing two inclined disks, interact with heads of young harrows, one of which is made rotatable relative to the shaft axis during regulation, and has low reliability due to complex designs connecting the vacuum pump equipped with a cylinder block.

The advantage of this axial-hydraulic pump of adjustable capacity is that, in order to increase reliability and simplify the design of connections to the pump, the unregulated disk is rigidly fixed to the drive shaft and the rotary (adjustable) disk is rigidly connected to the output link built into the pump Equator hydromotor, the input link of which is rigidly fixed on the pump drive shaft. The control hydraulic motor is designed as a part-turn two-blade hydraulic motor, the rotating housing of which has a face plug for interacting with the swiveling (adjustable) disk of the Haeos, and its angular position relative to the rotor pump shaft is set with the help of the following slide valve with a sloped regulating bore and reverse the coupling placed in the axial bore of the rotor and set by any known control device to the position required to provide a given performance pump .

FIG. 1 shows a sectional axial pump; in fig. 2 — adjusting hydraulic motor in longitudinal section; in fig. 3- the same, in wake section but A-A; in fig. 4 shows a pump plunger at the end of the injection stroke (the start of the suction stroke).

An axial pumping pump of adjustable capacity consists of body 1, in which bushings 2 are pressed, which are cylinders of plungers 3, making reciprocating-butt-pointing movement towards each other. In the cornus there are two annular grooves 4 connected by inclined drilling 5 to the suction channel 6. Suction of the working fluid from the tank takes place on two pipes 7 through check valves 6. Such suction of the suction line prevents the working fluid from flowing out of the pump casing and stops the nodules hydraulic losses, which leads to an increase in reliability and efficiency of the pump in operation.

Under the action of a vacuum (vacuum) created by the 3 nunbars during the suction process, the working fluid from the suction channel 6 through the sulfur-like cutouts of the sleeves 2, forming the suction slots 9, enters the sub-plunger space. During the pumping process, the working fluid after the suction gap closes by 9 plungers 3 is forced through valve 10 into the annular discharge channel 11, and from there through the discharge nozzle into the system. The reciprocating movement of the plungers is carried out by means of two clamping 12, an inclined rotary (adjustable) disk 13 and an inclined unregulated disk 14. The suction stroke is carried out due to the influence of the clamping disks 12, on which a spring 16 acts through the glasses with a spherical surface 15. pods 17 plungers 3, forcing them to follow the inclined disks 13 and 14. The discharge is carried out due to the impact of inclined disks 5 and 4 and pads 17 connected to the heads of the plungers 3, moving unzhery move in the direction reverse suction.

The inclined disk 13 relative to the axis of the drive shaft 18 can be rotated. To reduce the efforts required for the relative rotation of the swash plate 13, the closure of the axial forces from the injection plungers on the shaft 18 and the unloading of the main bearings 19 and 20 of the shaft 18 from the axial forces will cause the thrust bearing 21.

The rotation of the inclined disk 13 relative to the axis of the shaft 18 is carried out by a semi-rotary two-blade hydraulic motor 22 rotating with the shaft 18 and connected to an inclined disk by a end pitch 23. A half-turn double-bladed hydraulic motor 22 of one-sided action consists of a housing 24 connected through an overhead 25 by a front pin 23 13, and a rotor 26 mounted on the shaft 18 on the tongue. The motor case 24 is supported by the notches of the covers 25 and 27 on the shaft 75 and can be rotated relative to the rotor 26 to the desired angle. The motor 22 is controlled by a spool 28 having the ability to move only along the axis of the shaft 18. This is ensured by installing the pin 29 and the sleeve 30 connected by a pin 31 to the housing 24. The sleeve 30 is able to rotate at a given angle with the housing 24 relative to the rotor 26 .

The spool 28 is moved to one side by a screw pair 32 placed in the axial bore of the rotor 26 of the motor 22 or by any other known method, and in the other by a spring 33. The performance control of this axial-plunger pump is carried out by displacing the phase of one plunger relative to another in each pair there are opposed plungers, which leads to a change in the total speed of movement of the plungers in the cylinder, and consequently, to a change in the feed of each pair of plungers and the entire pump generally. The phase shift of the plungers is carried out by turning the inclined

the disk 13 around the axis of the shaft 18 by using part-turn hydraulic motor 22.

The rotation is as follows. The working fluid from the control pump 5 34 through channels 35, 36 enters the cavity of the pressure 37 of the spool 28. When the valve 28 moves to the left, the inclined regulating juice 38 of the valve 28 opens the opening 39 in the sleeve 30, together with the pressure cavity 37

10 spool 28 with working cavities 40 of a two-masted hydraulic motor 22. Under the action of pressure in cavities 40, the housing 24 rotates relative to the rotor 26 rotating at a constant angular velocity, until

15 until the opening 39, which rotates together with the housing, is again closed by the inclined regulating valve 38 of the valve 28, locking the cavities 40. At the same time, the driving torque from the shaft 18 through the

0 40 the working fluid is transferred to the housing 24 and, therefore, to the inclined disk 13. When the spool 28 is moved to the right, the inclined regulating juice 38 of the spool 28 opens the opening 39 in the sleeve 30, together

5, the cavity 40 of the motor 22 with the drain cavity 41 of the spool 28. The working fluid under the action of the reactive torque applied to the disk 13 is squeezed out of the cavities 40 of the motor 22 and the housing 24 rotates relative to the rotor 26 until the opening 39 again obscures regulating sk 38 and banning the cavity 40 of the motor 22, setting the required pump capacity.

5g

Subject matter

Claims (2)

1.Axial plunger hydraulic pump of adjustable capacity with vacuum suction, containing two inclined 0 disk interacting with plunger heads, one of which is rotatable relative to the shaft axis during regulation, characterized in that, in order to increase reliability and simplify the design of connections to the pump, the uncontrollable disk is rigidly fixed on the drive shaft, and the rotary (adjustable) disk is rigid It is connected with the output link of the control motor built into the pump, the input link of which is rigidly fixed to the drive shaft of the pump. 2. Hydraulic pump according to claim 1, characterized in that the control hydraulic motor is made in the form of a non-rotary two-blade hydraulic motor, the rotating housing of which has 5, a spindle for engagement with a rotatable (adjustable) pump disk, and its angular position relative to the rotor connected to the pump shaft is established by means of a follow valve with an inclined regulating by means of feedback and feedback, placed in the axial bore of the rotor and set by any known control device in the position required to ensure a given performance t het 16 J 2 3 // th 4 5 12 f3 20 2/22 Pf / y f From the pump UripaS Len 1 / (3) 4-0 28 28 FIG L thirty