DE19528451C2 - Throttle device for positive displacement pumps - Google Patents

Description

The invention relates to a throttle device for Displacement pumps, in particular vane pumps, the egg NEN pressure chamber have a throttle device communicates with an outlet bore. In the pump area There is also a housing bore with a Flow control piston, its front face in the pressure space protrudes. A rear face of the current rule piston protrudes into a chamber downstream of the throttle device contains the outlet pressure. The flow control piston there depending on the two end faces we kenden differential pressure connects to an inlet ka nal free.

For the supply of pressurized oil to power steering systems one often uses vane pumps. So that the flow not linear with the drive speed of the vehicle engine increases, these pumps are provided with a current control Valve. Such a flow control valve leaves the flow for example up to a speed of n = 1,200 rpm increase and then regulates when the speed increases further the flow rate continuously, so that one fall de Flow characteristic curve results. This way with power steering at higher speeds achieve better steering behavior, that is, the hydrau Power support is reduced, so that a better steering feel.

One such is already known from DE 41 01 210 A1 Throttle device known. Here's the one against spring force adjustable pistons with a controllable opening, through which the inlet cross-section can be changed. The one with the pump speed increasing differential pressure at the tax  opening changes the axial position of the piston such that the flow cross-section is reduced. Groe The flow and position of the opening determine the flow rate curve.

The known pressure control is speed-dependent and is set for a specific pressure. The characteristic curves can run through the location and size of the radial boring stations vary, the spreading under pressure can but do not avoid it entirely.

The object of the invention is with the aid of a conveyor current regulation the strong spreading of the characteristic curve under To avoid pressure. The aim of this regulation is a broad horizontally running characteristic curve with different Press over the entire speed range. This task is solved according to the invention in that the throttle direction from a firmly inserted into the outlet bore Rifle and one that can be moved against the force of a spring There is a sliding sleeve. The sliding sleeve has on its outside circumferential axial grooves, in the starting position by egg valve seat and in the end position through the bush are partially or completely closed. In the starting position the consumer is initially only throttled bore in the sliding sleeve. Takes the difference pressure on the sliding sleeve, it is moved and the grooves increase the flow cross section. The grooves are part of the bush after the sliding sleeve is in contact wise or completely closed. This reduces the effective flow cross-section and you get the horizontal running, pressure-independent characteristic over the entire Speed range.

Based on the drawing is an embodiment of the Invention explained in more detail.  

Show it:

Fig. 1 shows a longitudinal section through a vane pump with the Regelein device according to the invention, in which the pistons of the throttle device and the flow control piston are in the starting position and

Fig. 2 is a detail magnification of the throttle device of FIG. 1.

The vane pump corresponds to a generally known type, so that the following description is limited to the essential parts. The pump carries a rotor 2 on a drive shaft 1 , in which radially sliding vanes 3 are guided. The rotor 2 lies between a front face plate 4 and a rear pressure plate 5 . The wings 3 slide in a curve ring 6 . Behind the pressure plate 5 is a pressure chamber 7 , which is through openings 8 and 10 with the between the rotor 2 , the cure venring 6 and the wings 3 pressurized För derraum in connection. The oil flows to the Saugseiti conditions delivery rooms from a tank, not shown, via an inlet bore 12, an inlet channel 13 and an annular chamber 11 to. A current control piston 16 loaded by a spring 15 is located in a housing bore 14 adjoining the pressure chamber 7 . This has a front control collar 17 , behind which the inlet duct 13 is located.

Connected to the pressure chamber 7 is a bore 20 ( FIG. 2) connected to an outlet 18 for the consumer flow. A differential pressure bore 9 connects a spring-side chamber 19 of the flow control piston 16 to the outlet 18th According to the invention, a sliding sleeve 22 movable against the spring 21 is guided in the bore 20 . A throttle bore 23 of the sliding sleeve 22 establishes a connection from the pressure chamber 7 to the outlet 18 . The sliding sleeve 22 has a Ven tilsitz 24 and the bore 20 has a closing edge 25 . In addition, axial grooves 27 are inserted into the sliding sleeve 22 . The spring 21 is supported on a shoulder of a bush 28 pressed against a seat 26 . The sleeve 28 has a stop 29 for the sliding sleeve 22 .

As soon as the rotor 2 rotates, the wings 3 press the oil trapped between them through the openings 8 and 10 into the pressure chamber 7 . The flow control piston 16 controls the so-called shutdown amount, which leaves the pump ver. - The throttle device according to the invention has been installed in the pump in order to prevent a strong increase in this de-regulation under high back pressure. -

Even at low volume flows that leave the pump and flow through the sliding sleeve 22 , it lifts off its valve seat 24 . The oil flow flows both through the throttle bore 23 and through the axially axially arranged grooves 27th With increasing speed and increasing differential pressure between pressure chamber 7 and pump outlet and with increasing dynamic pressure on the sliding sleeve 22 , the latter is displaced against the spring 21 in the direction of the sleeve 28 . During the movement of the sliding sleeve 22 , the effective flow cross section between the outer grooves 27 and the sleeve 28 and at the same time between the narrowing spring windings of the spring 21 is reduced. A throttling effect is achieved. The differential pressure bore 9 supplies the pressure on the outlet side from the interior of the sleeve 28 into the chamber 19 of the flow control piston 16 . The Drosselboh tion 23 determines the shutdown amount and the displacement A of the sliding sleeve 22 provides a very low Drucksprei tion of this shutdown amount.

As the speed increases (driving speed), the differential pressure also increases on the end face of the flow control piston 16 facing the pressure chamber 7 . The flow control piston 16 acts as a pressure compensator and this ver moves against the force of the spring 15 and against the force of the outlet pressure prevailing in the chamber 19 to the right. The control collar 17 opens the inlet duct 13 . A partial flow thus passes from the pressure chamber 7 into the ring chamber 11 , that is to say to the inlet side of the pump. The still available useful flow flows through the throttle device 22 , 28 and the outlet 18 to the consumer.

reference numeral

1

drive shaft

2

rotor

3

wing

4

faceplate

5

printing plate

6

cam ring

7

pressure chamber

8th

breakthrough

9

Differential pressure cavity

10

breakthrough

11

annular chamber

12

inlet bore

13

intake port

14

housing bore

15

feather

16

Flow control piston

17

control collar

18

outlet

19

chamber

20

drilling

21

feather

22

sliding sleeve

23

throttle bore

24

valve seat

25

closing edge

26

Seat

27

2

axial grooves

28

rifle

29

attack
A displacement

Claims (2)

1. Control device for positive displacement pumps, in particular vane pumps, with the following features:

• - A pressure chamber ( 7 ) is connected to an outlet ( 18 ) via a throttle device;
• - A front end face of a slide in a housing bore ver current control piston ( 16 ) protrudes into the pressure chamber ( 7 );
• - A rear end face of the flow control piston ( 7 ) protrudes into a chamber ( 19 ) which contains the outlet pressure downstream of the throttle device ( 28 , 22 );
• - The flow control piston ( 7 ) releases depending on the differential pressure acting on the two end faces a connec tion from the pressure chamber ( 7 ) to an inlet channel ( 13 ) free,

characterized by the following features:

• - The throttle device ( 28 , 22 ) consists of a sliding sleeve ( 22 ) inserted into a bore ( 20 ) which can be pushed against the force of a spring ( 21 ) against a fixed bushing ( 28 );
• - The sliding sleeve ( 22 ) has on its outer circumference axial grooves ( 27 ) which are closed in the starting position by a valve seat ( 24 , 25 ) and in the end position by the bush ( 28 ) are partially or completely closed.

2. Control device according to claim 1, characterized in that the axial grooves ( 27 ) in the sliding sleeve ( 22 ) are radially deeper than a shoulder ( 29 ) in the sleeve ( 28 ) and the grooves ( 27 ) are not closed in the end position are.