SU1025913A1 - Controlled axial-plunger hydraulic machine - Google Patents

Abstract

ADJUSTABLE AXIAL-PISTON TIDRIC MACHINE, comprising a housing With a rotatable cylinder block installed in it, kinematically connected to the hydraulic cylinder rod of the control mechanism, having a coaxial hydraulic cylinder, followed by a spring and a request from the customer’s account and the one of the first time, and then the account and the one of the first time needs to be used. through the throttle with the discharge line of the hydraulic machine, and the working cavities - with the hydro cavity: the cylinder, and the remote control device with the control supply line pressure, characterized in that, in order to simplify the design, improve manufacturability and increase reliability, the follow valve is installed in the hydraulic housing, and the remote control device is equipped with a hydraulic distribution valve, the control cavity of which is connected to the control pressure supply line, the inlet is from the pressure line of the hydraulic machine, and the outlets are from the cavity of the hydraulic cylinder of the I control mechanism.

Description

. The invention relates to hydraulic engineering, in particular to adjustable axial-piston hydraulic machines. Adjustable axial piston hydraulic machines are known that contain a rotatable cylinder block associated with a hydraulic booster having a remote control hydraulic cylinder. nor with piston and rod l. The disadvantage of these gidromashin.constructive complexity of execution. Also known is an adjustable axial piston hydraulic machine, a housing containing a rotatable cylinder block mounted in it, kinematically connected with the hydraulic cylinder rod of an adjustment mechanism, which has a follow valve core coaxially connected to a hydraulic cylinder, the control cavity of which is connected through a choke to the discharge line of the hydraulic machine, and the working cavities with the cavity of the hydraulic cylinder, and the remote control device with the line across control pressure water (2: The disadvantage of the known hydraulic machine is its structural complexity, since the follower valve is located inside the hydraulic cylinder rod of the control mechanism and has a separately spaced hydraulic cylinder of the control device. This also reduces the workability and reduces the reliability of the hydromachine. The purpose of the invention is to simplify the design, improve the manufacturability and increase the reliability of the machine. The goal is achieved by the fact that in an adjustable axial-piston hydraulic machine, soda zhaschey casing with pivotally mounted therein a cylinder block which is kinematically associated with the rod of the hydraulic cylinder mechanism. an adjustment leg having a coaxial hydraulic cylinder, a follower spool loaded with a spring installed in the thrust between the hydraulic cylinder rod and the next spool, the control cavity of which is connected via a throttle to the hydraulic machine pressure line, and a remote control device. with control pressure supply line. The next valve is installed in the hydraulic machine case, and the remote control device is equipped with a hydraulic distributor, the control cavity of which is connected to the control pressure control line, the input to the hydraulic machine discharge line, and the outlets to the control cylinder hydraulic cylinder. FIG. 1 shows the hydromachine, general view; in fig. 2 - the mechanism for the regulation of the hydraulic machine in the mode of asos; in fig. 3 - spool of remote control device; on ig. 4 — mechanism for adjusting the hydraulic machine in motor mode; on the fit. The next spool (increased); on ig. b - principle hydraulic circuit of a hydraulic machine. An adjustable axial-piston hydraulic machine comprises a housing 1 with a turn-over cylinder block 2 installed in it, kinematically connected with the rod 3 of the hydraulic cylinder 4 of the adjustment mechanism 5. The adjustment mechanism 5 is coaxial with the hydraulic cylinders 4, spring-loaded 6 with the follow-up spool 7. The spring b is installed in the thrust between the rod 3 of the hydraulic cylinders 4 and the next spool 7, the control cavity 8, which is connected via a throttle 9 to the hydraulic line 10 of the pump, and the working cavities 11 and 12 in the mode of hydraulic pumps by lines 13 and 14 are with cavities 15 and 16 of the hydraulic cylinder 4. The next slide valve 7 is installed in the housing 1 of the hydraulic machine. The remote control device 17 is equipped with a hydraulic distributor 18, the control cavity 19 of which is connected to the control pressure supply line 20, the input 21 by the line 22 to the hydraulic injection line 10 of the hydraulic machine, the outlets 23 and 24 by the lines 25 and 26 to the cavities 15 and 16 of the hydraulic cylinder 4 the adjustment mechanism 5, and the output 27 by the line 28 - with the discharge 29 of the puller. In the hydraulic motor mode, the working cavities 11 and 12 of the follow spool 7 have reverse switching, i.e. The working cavity 11 is connected by line 14c to cavity 16, and the working cavity 12 by line 13 is connected to the cavity 15 of hydraulic cylinder 4 (Fig. 4). In order to simplify the production technology, the follow spool 7 may have an integral control body formed from two parts 30 and 31 placed in a common sleeve 32 (Fig. 5). The kinematic connection of the hydraulic cylinder ea 4 with the cylinder block 2 is carried out by means of a finger 33. The work of the device is considered on the example of the work of the hydraulic machine in the hydraulic pump mode. The working fluid under pressure is pumped. It enters via line 10 to the next slide valve 7 and into the cavity of the 15th hydraulic cylinder 4, displacing its rod 3 and Transferring the Cylinder block. 2 to the position of maximum working volume. When the discharge pressure in Line 10 rises, pressure in the cavity 8 of the control of follower spool 7 simultaneously increases. This pressure displaces the valve 7 downward, compressing the spring y and connecting line 10 to line 14.

The working fluid, under pressure, flows into the cavity 16 of the hydrocyliidra 4, displaces the stem 3c by means of upwards 33 and reduces the working volume of the hydraulic inlet. At the same time, the rod 3 of the hydraulic cylinders 4 presses the spring 6, which increases the rigidity of the reversible connection due to pressure, since the reverse movement of the follow valve spool 7 does not only occur under the effect of pressure drop in line 10 and cavity 8 when supply decreases, but also under the influence of air pressure. spring forces b When the pressure drops, the reverse process occurs and, thus, the power is maintained.

The control valve 18 is located in the right position (according to the drawing) and the lines 22 and 25 communicate with each other. If necessary, remotely output the cylinder block 2

To the minimum displacement position, control pressure is applied to POWER 19 control line 20, which displaces the hydraulic distribution valve, divider 18 to the left, and connects line 2. and 26, 25 and 28. Rod 3 is hydrocylide & . 4 moves upwards, displacing 6nok cylinders 2 in the direction of decreasing ra-: more volume.

The device operates in the hydromophore mode in the same way, however, the pressure feedback is positive and an increase in pressure in line 10 leads 1C to an increase in the working volume of the hydromachine.

The proposed device simplifies the design of the hydraulic machine by eliminating the second hydraulic cylinder of the remote control, improves manufacturability by placing the following: | (5 th valve in body 1, but not in titTOK6 3 g, and cylinder 4, and therefore increases the reliability of the device.

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Claims (1)

ADJUSTABLE AXIAL-PISTON HYDRAULIC MACHINE, comprising a housing with a rotatable cylinder block mounted in it, kinematically connected to the hydraulic cylinder rod with a control mechanism having a servo axial cylinder loaded with a spring installed in the spacer between the hydraulic cylinder rod and the tracking cylinder * which is connected through the throttle to the discharge line of the hydraulic machine, and i working cavities - with the cavities of the hydraulic cylinder, and a remote control device with a supply line pressure, characterized in that, in order to simplify the design, improve manufacturability and increase reliability, the follower valve is installed in the body of the hydraulic machine, and the remote control device is equipped with a control valve, the control cavity of which is connected to the supply line of the control pressure, the input to the discharge line of the hydraulic machine , and the outputs - with the cavities of the hydraulic cylinder of the mechanism (regulation. > 1 . 1025913