DE102014222640A1 - Piston-cylinder arrangement for a hydraulic release device - Google Patents

Abstract

The invention relates to a piston-cylinder arrangement for a hydraulic disengaging device, in particular a master cylinder of a clutch actuator, comprising a housing (6) in which a piston (7) is mounted axially movable, wherein in front of the piston (7) in the actuation direction thereof Is clamped by a primary, the piston (7) radially surrounding the primary seal (14) against a secondary space (15) between the housing (6) and the piston (7) and in the movement through the piston (7) 7) one, the secondary space (15) via a bore (18) with a supply container (17) connecting the connection opening (16) to the primary space (8) is opened or closed. In a piston-cylinder arrangement in which the liquid flow rate is increased during the sniffing process, the connecting opening (16) in the direction of actuation of the piston (7) has two sections (19, 20) with different dimensions, wherein a first section (19) is swept with smaller dimensions in the operation of the piston (7) of the primary seal (14), while the second portion (20) with the larger dimensions open to the secondary chamber (15) faces.

Description

The invention relates to a piston-cylinder arrangement for a hydraulic disengaging device, in particular a master cylinder of a clutch actuator, comprising a housing in which a piston is mounted axially movable, wherein in front of the piston in the actuation direction, a primary space is clamped, which by means of a Piston radially spanning primary seal is sealed against a secondary space between the housing and the piston and the movement through the piston is opened or closed, the secondary space via a bore with a supply container connecting connection opening to the primary space.

Hydraulic master cylinder, as found in Kupplungsbetätigungssystemen application, consist of a housing in which a piston is mounted axially movable. In front of the piston, a primary space is clamped, in which a hydraulic fluid is shifted towards the slave cylinder. A secondary space, which is connected to a supply tank, is located between the piston and the housing. The housing comprises a connection opening, via which, with a corresponding position of a primary seal arranged on the piston, the primary space is connected to the secondary space in order to be able to exchange hydraulic fluid.

From the WO 2011/072641 A2 a master cylinder is known which has a rectangular connection opening. The piston in this case has a valve device which is brought into contact with a housing wall in the case of an axial movement of the piston in the direction of the secondary side, and thereby unlocks an axial passage opening in the piston which connects the primary side to the secondary side. Such an arrangement has the disadvantage that is braked by a throttle effect of the wake of the hydraulic fluid from the after-reservoir into the secondary chamber.

The invention has for its object to provide a piston-cylinder arrangement in which the dynamic throttle effect is reduced and thus a faster exchange of hydraulic fluid between the reservoir and the secondary space is realized.

According to the invention the object is achieved in that the connection opening in the direction of actuation of the piston has two sections of different dimensions, wherein a first portion is covered with the smaller dimensions in the operation of the piston of the primary seal, while the second section with the larger dimensions open the Secondary space faces. This has the advantage that the hydraulic fluid can flow unhindered through the second larger section from the after-reservoir into the secondary chamber, whereby the throttle effect of the connection opening is reduced. At the same time, wear of the primary seal is reduced by sweeping the first smaller section, since only a limited area of the primary seal is in contact with it due to the smaller dimensions of the section.

Advantageously, the connection opening is T-shaped. This has the advantage that in the production of the master cylinder, in particular the connection opening, a shading of two mold cores of the tool (first mold core for the pressure chamber and second mold core for the caster), which form the two sections of the connection opening, are outside the sealing area, so that burr formation on the primary sealing surface is prevented during the production of the master cylinder. In addition, the inking of the two mandrels in the tooling process can be made safer.

In one embodiment, a width of the first section of the connection opening is determined as a function of a material of the primary seal. This has the advantage that, with a firmer material, a greater width of the first section can be used, while in the case of a soft material the width of the first section is reduced so as to prevent abrasion of the primary seal.

In one variant, the first and / or the second portion of the connection opening are formed like a rectangle. Such a rectangular-like design is particularly easy to manufacture and also allows for easier production of the injection molding tool for the production of the piston-cylinder assembly.

In a further development, a first chamfer projecting beyond the housing is formed on a first transitional edge of the connection opening to the primary space, which passes over the primary seal during actuation of the piston. Such a chamfer has the advantage that the wear on the primary seal upon actuation of the piston-cylinder arrangement is reduced.

In a further embodiment, at a second transition edge of the connection opening, which is arranged in the transition region between the primary space and the secondary space, a second chamfer protruding out of the housing is formed. This second chamfer prevents the primary seal from being damaged during the assembly process.

Advantageously, the entire, the primary seal facing geometry of the connection opening is provided with curves. These curves also contribute to keeping the wear of the primary seal as small as possible when moving over the edges of the connection opening.

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 a schematic representation of a hydraulic clutch actuation system,

2 an embodiment of a piston-cylinder arrangement,

3 a first longitudinal section through the piston-cylinder arrangement according to the invention,

4 a second longitudinal section through the piston-cylinder arrangement according to the invention.

Identical features are identified by the same reference numerals.

In 1 is a schematic diagram of a hydraulic clutch actuation system 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 a piston 7 is mounted axially movable. 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 includes 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. Through the over 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.

An inventive piston-cylinder arrangement is based on the master cylinder 5 which is in 2 is illustrated. At the, the primary room 8th facing side of the piston 7 is circumferentially a radial primary seal 14 arranged. This primary seal 14 touches the inside of the housing with its radial edge 6 , Between the plastic piston 7 and also made of a plastic housing 6 is, the primary seal 14 turned away, a secondary room 15 formed, which via a connection opening 16 and a hole 18 with a back-up tank 17 ( 1 ). Such a connection is necessary to a volume balance of the hydraulic fluid 9 of the hydraulic clutch actuation system 1 to allow for temperature fluctuations. In 2 the lower half of the illustration shows the piston 7 in a forward stroke V, while the upper half of the representation of the piston 7 in the return stroke R represents. The primary seal 14 is in a so-called sniffing process, the suction of the hydraulic fluid 9 from the return tank 17 , behind the connection opening 16 , which is also referred to as Schnüffelnut, drawn on the inside of the housing 6 near the hole 18 is trained.

In 3 is a first longitudinal section through the master cylinder 5 and thus a view of the connection opening 16 shown. The T-shaped connection opening 16 consists of two sections 19 . 20 and extends in its longitudinal extent in the direction of movement of the piston 7 , Both sections 19 and 20 are rectangular, wherein the first section 19 which in the movement of the piston 7 from the primary seal 14 partially overrun, has smaller dimensions than the second section 20 , which provides a continuous connection between the return tank 17 and the secondary room 15 allows. The width of the first section 19 is kept particularly small, to wear on the primary seal 14 when driving over the first section 19 to reduce. In contrast, the second section 20 that does not leak from the primary seal during operation 14 is run over, be formed arbitrarily in its dimensions.

The connection opening 16 has two transition edges 21 and 22 on, with the first transitional edge 21 at that, the primary seal 14 facing the end of the connection opening 16 is trained. The second transitional edge 22 is located in the transition area between the primary room 8th and secondary room 15 , To the wear of the primary seal 14 further reduce, points the first transitional edge 21 a first phase 23 on. The second transitional edge 22 also has a chamfer 24 on. These chamfers 23 . 24 are in again 4 clarified in a section. All edges of the connection opening 16 are provided with curves to the seal wear of the primary seal 14 to be kept as low as possible.

LIST OF REFERENCE NUMBERS

1

 Clutch actuation system

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

 primary seal

15

 secondary chamber

16

 connecting opening

17

 An expansion reservoir

18

 drilling

19

 Section of the connection opening

20

 Section of the connection opening

21

 Transition edge

22

 Transition edge

23

 chamfer

24

 chamfer

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2011/072641 A2 [0003]

Claims (7)

Piston-cylinder arrangement for a hydraulic disengagement device, in particular a master cylinder of a clutch actuation device, comprising a housing ( 6 ), in which a piston ( 7 ) is mounted axially movable, wherein in front of the piston ( 7 ) in the actuation direction of a primary space ( 8th ), which by means of one, the piston ( 7 ) radially spanning primary seal ( 14 ) against a secondary space ( 15 ) between the housing ( 6 ) and the piston ( 7 ) and when moving through the piston ( 7 ) one, the secondary space ( 15 ) via a bore ( 18 ) with a back-up tank ( 17 ) connecting connection opening ( 16 ) to the primary room ( 8th ) is opened or closed, characterized in that the connection opening ( 16 ) in the direction of actuation of the piston ( 7 ) two sections ( 19 . 20 ) having different dimensions, wherein a first section ( 19 ) with smaller dimensions when the piston is actuated ( 7 ) from the primary seal ( 14 ), while the second section ( 20 ) with the larger dimensions open to the secondary space ( 15 ) is facing. Piston-cylinder arrangement according to claim 1, characterized in that the connection opening ( 16 ) Is T-shaped. Piston-cylinder arrangement according to claim 1 or 2, characterized in that a width of the first section ( 19 ) of the connection opening ( 16 ) depending on a material of the primary seal ( 14 ) is determined. Piston-cylinder arrangement according to claim 1, 2 or 3, characterized in that the first and / or the second section ( 19 . 20 ) of the connection opening ( 16 ) is formed like a rectangle. Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that at a first transition edge ( 21 ) of the connection opening ( 16 ) to the primary room ( 8th ), which the primary seal ( 14 ) during actuation of the piston ( 7 ) passes over, a first, out of the housing ( 6 ) bevel ( 23 ) is trained. Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that at a second transition edge ( 22 ) of the connection opening ( 16 ), which in the transition area between primary space ( 8th ) and secondary space ( 15 ), a second, from the housing ( 6 ) bevel ( 24 ) is trained. Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that the entire, the primary seal ( 14 ) facing geometry of the connection opening ( 16 ) is provided with curves.

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