DE102016215179B3 - Piston-cylinder arrangement for a hydraulic release device - Google Patents

Abstract

The invention relates to a piston-cylinder arrangement for a hydraulic disengagement device, in particular a master cylinder of a clutch actuator, comprising a cylindrical housing (6) in which a piston (7) is mounted axially movable, wherein in front of the piston (7) in the direction of actuation Spaced primary space (8) which is sealed by means of a centering device (16) of the piston (7) fixed annular primary seal (20) against a secondary space (19) which extends between the housing (6) and the piston (7) extends. In a piston-cylinder arrangement which has a very low-component construction, the annular primary seal (20) arranged close to an end face (21) of the centering device (16) is closed by a radially extending membrane (22) which surrounds the primary space (8 The diaphragm (22) and the centering device (16) each have at least one opening (23, 26) for conveying a hydraulic fluid (9) between the primary chamber (8) and the secondary chamber (19 ) when a negative pressure in the primary chamber (8).

Description

The invention relates to a piston-cylinder assembly for a hydraulic disengaging device, in particular a master cylinder of a clutch actuator, comprising a cylindrical housing in which a piston is mounted axially movable, wherein in front of the piston in the direction of actuation, a primary space is clamped, which by means of a at one Centering of the piston-mounted annular primary seal is sealed against a secondary space which extends between the housing and the piston.

From the DE 10 2014 223 596 B4 is a piston-cylinder assembly for a hydraulic release device, in particular a master cylinder of a clutch actuator, known, comprising a cylindrical housing in which a piston is mounted axially movable. In front of the piston in the actuating direction through the cylindrical housing, a primary space is clamped, which is sealed by a piston attached to the annular primary seal against a secondary space between the housing and the piston. During the axial movement of the piston, a passage between the secondary space and the primary space is opened and closed. This passage is formed by two hook-shaped elements, of which the first hook-shaped element on the master cylinder and the second hook-shaped element are positioned on a centering device of the piston. Since the primary seal is mounted axially movably on the centering device together with an inner and outer reinforcement, but the centering device is firmly connected to the piston, a passage for connecting the primary space to the secondary space is opened and closed by the movement of the piston. This opening and closing of the passage takes place exclusively by frictional forces occurring, with strong friction between the primary seal and the housing with a movement of the piston away from the primary space, the primary seal stops, whereby the passage between the primary space and the secondary chamber is opened and a running of the hydraulic fluid in the primary space is possible , If the piston moves in the direction of the primary space, this passage is closed.

As a result, a subsequent flow of the hydraulic fluid is prevented from the secondary chamber into the primary space. Such a caster function is structurally very complex, which is why such a piston-cylinder arrangement causes high costs. The invention has for its object to provide a piston-cylinder assembly in which the tracking function is inexpensive and yet structurally simple.

According to the invention, the object is achieved in that in a piston-cylinder arrangement according to the preamble of claim 1, which is close to an end face of the centering arranged annular primary seal with a radially extending diaphragm, which covers the primary space facing end side of the centering device, said the membrane and the centering device each have at least one opening for conveying a hydraulic fluid between the primary space and the secondary space when a negative pressure in the primary space occurs. This has the advantage that the follow-up function is integrated into the primary seal, which eliminates complex design requirements for generating a passage between the secondary space and the primary space, which is why a cost-effective design of the piston-cylinder arrangement is obtained. With this design, a precise opening pressure for the Nachsaugfunktion be set because of the membrane, the effective area and thus the resulting force is significantly increased. At the same time, the softness of the primary seal is increased by the membrane design. Thus, the opening pressure can be reduced and an opening tolerance can be set much more accurately.

In one embodiment, the membrane has a plurality of openings which are formed near the annular primary seal, while the at least one opening of the end face of the centering device is arranged centrally. By means of the edge-side openings of the membrane and the central arrangement of the opening in the end face of the centering device, a reliable closure of the at least one opening of the centering device is ensured by the membrane.

In one embodiment, the centering device has an axially extending inner channel, which communicates with the secondary space and the frontal, formed as a bore opening of the centering device in connection. By means of this simple bore it is ensured that the hydraulic fluid always arrives from the secondary chamber in the centering device and is determined only by the position of the diaphragm of the primary seal, whether hydraulic fluid can escape from the centering device or not.

In one variant, the annular primary seal has a sealing lip directed towards the housing, which biases the membrane, the membrane contacting the end face of the centering device in a constructive manner with respect to the piston. By means of this bias, it is ensured that, in the absence of negative pressure, the membrane really completely covers the end face of the centering device and bears against it to prevent hydraulic fluid from escaping from the centering device.

In an alternative, when a negative pressure is applied to a surface of the membrane facing away from the end face of the centering device, the latter releases the end face of the centering device. By releasing the support surface on the front side of the centering device through the membrane, the system is leaking, since the membrane, which is the sealing surface and acting on the entire surface of the negative pressure, is pulled towards the primary space, so that in the inner channel of the centering pending Hydraulic fluid can flow along the front side in the direction of openings of the membrane and a hydraulic fluid equalization between the secondary side and the primary space is made possible.

In one embodiment, projections are formed on the end face of the centering device, which engage in contact with the membrane with the centering device in the openings of the membrane. Thus, the openings are additionally sealed when resting the membrane on the front side of the centering device to reliably prevent leakage of hydraulic fluid. The invention allows numerous embodiments. One of them will be explained in more detail with reference to the figures shown in the drawing.

Show it:

1 Schematic representation of a clutch actuator,

2 An embodiment of the piston-cylinder assembly according to the invention in a sealed state,

3 the embodiment of the piston-cylinder assembly according to the invention with a tracking function,

4 a perspective view of a centering device,

5 a perspective view of the primary seal with membrane. Identical features are identified by the same reference numerals.

In 1 is a schematic diagram of a hydraulic clutch actuator 1 shown. There is one donor side 2 via a pressure line 3 with a taker side 4 connected. The donor side 2 includes a master cylinder 5 which is a cylindrical housing 6 in which an axially movable piston 7 is stored. The piston 7 is driven by an actuator, not shown, which is realized by a control device or an accelerator pedal. The master cylinder 5 spans a primary room 8th in which a hydraulic fluid 9 is arranged through the pressure line 3 to a slave cylinder 10 on the taker side 4 by a movement of the piston 7 of the master cylinder 5 is transported. By the from the master cylinder 5 moving hydraulic fluid 9 becomes a piston 11 the slave cylinder 10 moved, which has a release bearing 12 a clutch 13 actuated. At the master cylinder 5 is an overflow opening 14 formed, which the master cylinder 5 at a predetermined position of the piston 7 with a back-up tank 15 combines.

In 2 and 3 is the master cylinder 5 shown enlarged as a piston-cylinder arrangement according to the invention. At the pressure room 8th facing end face of the piston 7 is a trained as Zentrierpin centering 16 attached, inside an inner channel 17 which, to the end of the centering device 16 is open and has a continuous radial opening 18 of the piston 7 with a secondary room 19 is connected, in which the overflow opening 14 empties.

An annular primary seal 20 spans the front side 21 the centering device 16 , where the front side 21 in the direction of the primary room 8th is directed. The primary seal 20 is in the radial direction with a membrane 22 closed, the flat in the normal state on the front page 21 the centering device 16 rests. The front side 21 the centering device 16 has an axial bore 23 on, which in conjunction with the inner channel 17 stands and that of the membrane 22 is closed.

The primary seal 20 has two sealing lips 24 . 25 on that on the case 6 issue. Near the circumferential sealing lips 24 . 25 are several openings 26 in the membrane 22 educated. How out 3 shows, are the sealing lip 24 . 25 axially slightly biased so that the membrane 22 at normal pressure flat on the front 21 the centering device 16 rests and the central bore 23 closes.

4 shows a perspective view of the centering device 16 , which shows a punch-like Zentrierpin, where on the front page 21 in the middle several axial bores 23 are formed. The edge of the front side 21 the centering device 16 has a circumferential projection 27 on which the membrane 22 comprehensive primary seal 20 with her sealing lips 24 . 25 that are facing outward, is turned down. Towards the piston 7 the centering device tapers 16 and includes on the outside a plurality of radial projections 28 . 29 . 30 by means of which the centering device 16 in the piston 7 is attached.

5 shows a plan view of the primary seal 20 , which with the membrane 22 is closed. The membrane 22 points in the area of the sealing lips 24 . 25 several openings, while in the center of the membrane 22 to complete the drilling 23 on the front side 21 the centering device 16 is closed throughout.

When a normal pressure occurs in the primary space 8th becomes the membrane 22 flat against the front 21 the centering device 16 pressed, causing the bore 23 the centering device 16 is closed. In this hole 23 stands hydraulic fluid 9 to that of the back-up tank 15 over the secondary space 19 , the lag opening 14 and the inner channel 17 in the centering device 16 penetrates. The pressure on the membrane 22 allows a complete sealing of the centering device 16 ( 2 ). When disengaging the piston 7 and build up of pressure becomes the membrane 22 ever stronger against the centering device 16 pressed, which is equal to a self-reinforcing and what the tightness ensures.

In the case of one in the primary room 8th occurring negative pressure is the membrane 22 towards the primary room 8th attracted (arrow F), which leads to leakage by the membrane 22 the front side 21 the centering device 16 releases ( 3 ). Through this release of the front side 21 the flows in the centering device 16 pending hydraulic fluid 9 (Arrows) through the hole 23 in the gap 31 and can through the near the sealing lips 24 . 25 trained openings 26 the membrane 22 in the primary room 8th enter. By this configuration, the tracking function in the primary seal 20 integrated. At the same time, the pressure in both the primary room 8th as well as in the secondary room 19 balanced.

LIST OF REFERENCE NUMBERS

1

 Clutch actuator

2

 donor side

3

 pressure line

4

 recipient side

5

 Master cylinder

6

 casing

7

 piston

8th

 primary space

9

 hydraulic fluid

10

 slave cylinder

11

 piston

12

 release bearing

13

 clutch

14

 trailing opening

15

 An expansion reservoir

16

 centering

17

 internal channel

18

 opening

19

 secondary chamber

20

 primary seal

21

 front

22

 membrane

23

 drilling

24

 sealing lip

25

 sealing lip

26

 Opening of the membrane

27

 head Start

28

 head Start

29

 head Start

30

 head Start

31

 gap

Claims (6)

Piston-cylinder arrangement for a hydraulic disengagement device, in particular a master cylinder of a clutch actuation device, comprising a cylindrical housing ( 6 ), in which a piston ( 7 ) is mounted axially movable, wherein in front of the piston ( 7 ) in the direction of actuation a primary space ( 8th ), which by means of a at a centering device ( 16 ) of the piston ( 7 ) attached annular primary seal ( 20 ) against a secondary space ( 19 ), which is between the housing ( 6 ) and the piston ( 7 ), characterized in that the near a front side ( 21 ) of the centering device ( 16 ) arranged annular primary seal ( 20 ) with a radially extending membrane ( 22 ) which is the primary space ( 8th ) facing end face ( 21 ) of the centering device ( 16 ), whereby the membrane ( 22 ) and the centering device ( 16 ) at least one opening ( 23 . 26 ) for conveying a hydraulic fluid ( 9 ) between primary space ( 8th ) and secondary space ( 19 ) when a negative pressure in the primary space ( 8th ) exhibit. Piston-cylinder arrangement according to claim 1, characterized in that the membrane ( 22 ) several openings ( 26 ), which close to the annular primary seal ( 20 ) are formed while the at least one opening ( 23 ) of the front side ( 21 ) of the centering device ( 16 ) is arranged centrally. Piston-cylinder arrangement according to claim 1 or 2, characterized in that the centering device ( 16 ) an axially extending inner channel ( 17 ), which with the secondary space ( 19 ) and the frontal, formed as a bore opening ( 23 ) of the centering device ( 16 ). Piston-cylinder arrangement according to claim 1, 2 or 3, characterized in that the annular primary seal ( 20 ) one to the housing ( 6 ) directed sealing lip ( 25 ) having the membrane ( 22 ), wherein when building a pressure against the piston ( 7 ) the membrane ( 22 ) the front side ( 21 ) of the centering device ( 16 ) contacted flatly. Piston-cylinder arrangement according to claim 1, 2 or 3, characterized in that when a negative pressure on one of the end face ( 21 ) of the centering device ( 16 ) facing away from the surface of the membrane ( 22 ) this the front side ( 21 ) of the centering device ( 16 ) releases. Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that on the end face ( 21 ) of the centering device ( 16 ) Projections are formed which upon contact of the membrane ( 22 ) with the centering device ( 16 ) into the openings ( 26 ) of the membrane ( 22 ) intervene.

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