WO2013037345A1 - Slave cylinder for a hydraulic disengaging system - Google Patents

Abstract

The invention relates to a slave cylinder for a hydraulic disengagement system of a friction clutch of vehicles, having a cylinder housing, which is arranged concentrically with respect to a gear input shaft, and a guide sleeve, which is provided in a longitudinal bore of the cylinder housing and is radially spaced therefrom in order to form a circular ring-shaped pressure chamber. An annular piston, on the pressure chamber-side of which a seal is arranged, is guided in the pressure chamber in an axially displaceable manner. The seal consists of a seal carrier assembly connected to the annular piston and a sealing element received in an aperture of the seal carrier assembly. According to the invention, at least one ventilation hole is provided in the seal carrier assembly.

Description

 Slave cylinder for a hydraulic release system

The invention relates to a slave cylinder for a hydraulic release system of a friction clutch of vehicles, with a concentrically arranged to a transmission input shaft and a cylinder housing in a longitudinal bore of the cylinder housing radially spaced to form a circular pressure chamber provided guide sleeve, wherein in the pressure chamber, an annular piston axially displaceable is guided, on which pressure chamber side, a seal is arranged, which consists of a connected to the annular piston seal carrier and a received in a receiving opening of the seal carrier sealing element.

Such a release system is known for example from DE 197 24 988 A1. With the annular piston of the slave cylinder made of plastic, aluminum or a non-ferrous metal casting seal carrier is positively connected. The elastic sealing element is received in a form-fitting manner in a receptacle of the seal carrier, whereby different stiffening elements are provided in or on the seal carrier for better fastening of the seal within the receptacle.

Also in DE 10 2008 009 655 A1, a generic hydraulic release system - also known as CSC (Concentric Slave Cylinder) - described, in which the annular piston of the slave cylinder pressure chamber side is provided with a sealing element which is attached by a front side of the annular piston seal carrier is recorded. The sealing element is formed by a lip seal with an outer lip and an inner lip, which are arranged radially spread apart in a V-shaped manner. In this case, the outer lip comes to the inner diameter of the cylinder housing and the inner lip on the outer diameter of the guide sleeve sealingly to the plant. With its one sealing foot and a sealing back comprehensive sealing body engages the sealing element to create a positive connection in a corresponding receptacle of the seal carrier.

When installing seal carrier and sealing element, however, a problem may occur in the solutions of the prior art, which can lead to disturbances and damage in hydraulic release systems: Once the sealing element with his

confirmation copy Sealing body is in contact with the side walls of the seal receptacle of the seal carrier, the existing between the seal member and the seal carrier air can no longer escape. In the further course of assembly, the air thus trapped in the seal receptacle of the seal carrier is compressed. To complete the assembly of sealing element and seal carrier high assembly forces must now be expended. It may happen that the seal inside the seal does not allow the gasket to be mounted properly. This, in turn, can result in a tearing or tearing of the seal. The slave cylinder must be disassembled or scrapped consuming.

The object of the invention is therefore to reduce failures or functional impairments due to poor seals in slave cylinders for hydraulic release systems and to facilitate the assembly process.

This object is achieved with the features of the first claim. Advantageous further embodiments of the invention will become apparent from the dependent claims.

In a slave cylinder for a hydraulic release system of a friction clutch of vehicles, with a concentrically arranged to a transmission input shaft and a cylinder housing in a longitudinal bore of the cylinder housing radially spaced to form an annular pressure chamber provided guide sleeve, wherein in the pressure chamber, an annular piston is axially displaceably guided which a sealing space is arranged on the pressure chamber side, which consists of a seal carrier connected to the annular piston and a received in a receiving opening of the seal carrier sealing element is provided according to the invention in the seal carrier at least one vent hole.

In this case, the vent hole running in the axial or approximately axial direction is provided in a radially arranged base of the seal carrier, which is essentially U-shaped in cross-section.

Advantageously, a plurality of vent holes distributed over the circumference are arranged in the seal carrier. In a further advantageous embodiment, a radially encircling groove is provided in the bottom of the seal carrier on the side facing the sealing element, which preferably has a configuration optimized with respect to a gap extrusion.

A further advantageous embodiment provides that further vent holes are arranged in the groove.

Preferably, the seal carrier is made of plastic.

The invention will be explained in more detail below with reference to embodiments.

Show it:

1 shows a partial section of a slave cylinder according to the prior art.

Fig. 2 shows a first embodiment of a slave cylinder according to the invention in a partial section

Fig. 3 shows a second embodiment of a slave cylinder according to the invention in a partial section

Fig. 1 shows a partial section of a slave cylinder (CSC) according to the prior art. The slave cylinder has a concentric with a transmission input shaft - here represented by a rotation axis A - arranged cylinder housing 1. In a longitudinal bore of the cylinder housing 1 is radially spaced to form an annular pressure chamber 2, a guide sleeve 3 is provided. In this case, in the pressure chamber 2 a (not shown here) annular piston arranged axially displaceable.

Furthermore, a seal carrier 4 and a sealing element 5 can be seen in a schematic representation during the assembly process. In this case, seal carrier 4 and the sealing element 5 received by the latter form a seal in the installed state, which is fastened axially by means of seal carrier 4 to the annular piston and together with the cylinder housing 1 and the guide sleeve 3 encloses the pressure chamber 2. On the other Structure or the mode of action of the slave cylinder will not be discussed here in detail, since it is not essential to the invention.

Hereinafter, a seal carrier 4 and a sealing element 5 are described in a structural design, as they are commonly used in generic slave cylinders: The seal carrier 4 has a cross-sectionally substantially U-shaped, annularly extending, receiving opening 4.0 for receiving the lip seal trained, annular sealing element 5.

The here in cross-section U-shaped receiving opening 4.0 is formed from a radial bottom 4.1 of the seal carrier 4 and two axial legs 4.2, 4.3, which comprise a part of the sealing element 5 in the mounted state of seal carrier 4 and sealing element 5. The outer axial leg 4.2 is facing the cylinder housing 1 and the inner axial leg 4.3 of the guide sleeve 3. On the side facing away from the sealing element 5 back of the bottom 4.1 of the seal carrier 4 is an axially introduced receiving groove 4.4 for attachment to the annular piston (not shown). The sealing element 5 made of an elastomer is preferably a lip seal with an outer lip 5.1 and an inner lip 5.2, which are arranged radially spread apart in a V-shaped manner. In addition, the sealing element 5 comprises a sealing foot 5.3 and a sealing back 5.4, which constitute the part of the sealing element 5, which engages in the corresponding receiving opening 4.0 of the seal carrier 4.

The arrow labeled "M" in Fig. 1 indicates the mounting direction during the assembly of the sealing element 5 and the seal carrier 4. During the assembly process, between the sealing foot 5.3 of the sealing element 5 and the bottom 4.1 and a part of the legs 4.2, 4.3 of the seal carrier 4 air pockets X, which can not escape - with the adverse consequences described above.

In the exemplary embodiment of a slave cylinder according to the invention shown in FIG. 2, the assembly process has already advanced since the air present between the sealing element 5 and the seal carrier 4 in the receiving opening 4.0 can escape.

The seal carrier 4, preferably made of plastic, and the sealing element 5 made of an elastomer are also located here between the cylinder housing 1 and the guide sleeve 3 in the pressure chamber 2 of the slave cylinder. In contrast to In the prior art, the seal carrier 4 has at least one ventilation bore 4.5, which is arranged in the axial direction in the bottom 4.1 of the seal carrier 4.

During the assembly process can now be in the receiving opening 4.0 of the

Seal carrier 4, especially between the sealing foot 5.3 of the sealing element 5 and the bottom 4.1 of the seal carrier 4, accumulating air through the vent hole 4.5 are transported. Thus, a trouble-free assembly process is secured and the sealing element 5 comes to an optimal contact with the axial legs 4.2, 4.3 and the bottom 4.1 of the seal carrier 4. For even better and more uniform ventilation can distributed over the circumference of the seal carrier 4 several, having a small diameter , Vent holes 4.5 may be provided.

Fig. 3 shows a further possible embodiment of a slave cylinder according to the invention. Here, on the sealing element 5 facing side of the bottom 4.1 of the seal carrier 4, a radially encircling groove 4.6 is introduced. This groove 4.6 shows optimized in terms of a column extrusion training. Also in the groove 4.6 further vent holes can be provided 4.5, which relieve the seal in this area.

Despite their small size, the ventilation bores 4.5 ensure sufficient removal of the air located between the sealing foot 5.3 of the sealing element 5 and the bottom 4.1 of the seal carrier 4 in the receiving opening 4.0 from the seal carrier 4. Thus, the gap extrusion in this area is not a problem, since locally no critical strains can occur that affect the function of the seal.

An annular sealing carrier 4 of substantially U-shaped cross-section has been described here, which has a likewise formed receiving opening 4.0 for receiving the annular sealing element 5 designed as a lip seal. To achieve the solution according to the invention, other embodiments of seal carrier 4 / receiving opening 4.0 and sealing element 5 are possible in which during assembly - during insertion of the sealing element 5 in the receiving opening 4.0 of the seal carrier 4 - which is to be transported away in the receiving opening 4.0 air ,

Through the use of the slave cylinder according to the invention with the new seal carrier 4, a force-reduced assembly process with an optimum connection of sealing element 5 and seal carrier 4 are ensured. For example, to separate both components again, would have to attack large pull-out forces. In addition, the failures caused by a faulty seal components of the hydraulic release system can be reduced.

LIST OF REFERENCES

1 cylinder housing

 pressure chamber

 3 guide sleeve

 seal carrier

 .0 receiving opening

 4.1 soil

 4.2 axial leg

 4.3 axial leg

 4.4 receiving groove

 4.5 Vent hole

 4.6 groove

 5 sealing element

 5.1 outer lip

 5.2 inner lip

 5.3 Sealing foot

 5.4 Sealing back

 A rotation axis

 M mounting direction

 X air pockets

Claims

claims 1. slave cylinder for a hydraulic release system of a friction clutch of vehicles, with a concentric with a transmission input shaft arranged cylinder housing (1) and with a longitudinal bore in a cylindrical housing (1) radially spaced to form an annular pressure chamber (2) provided guide sleeve (3), wherein in the pressure chamber (2) an annular piston is axially displaceably guided, on which druckra on the circumference a seal is arranged, consisting of a connected to the annular piston seal carrier (4) and in a receiving opening (4.0) of the seal carrier (4) sealing element ( 5), characterized in that in the seal carrier (4) at least one vent hole (4.5) is provided. 2. slave cylinder according to claim 1, characterized in that the vent hole (4.5) in a radially arranged bottom (4.1) of the cross-sectionally substantially U-shaped seal carrier (4) is provided.  3. slave cylinder according to claim 1 or 2, characterized in that the vent hole (4.5) is arranged in the axial or approximately axial direction.  4. slave cylinder according to one of claims 1 to 3, characterized in that a plurality of vent holes (4.5) distributed over the circumference in the seal carrier (4) are arranged.  5. slave cylinder according to one of claims 1 to 4, characterized in that in the bottom (4.1) of the seal carrier (4) on the sealing element (5) side facing a radially encircling groove (4.6) is provided.  6. slave cylinder according to claim 5, characterized in that the groove (4.6) has an optimized with respect to a Spaltxtrusion training.  7. slave cylinder according to claim 5 or 6, characterized in that in the groove (4.6) further vent holes (4.5) are arranged.  8. slave cylinder according to one of claims 1 to 7, characterized in that the seal carrier (4) is made of plastic.