DE102014212200A1 - Piston-cylinder arrangement, in particular for a master cylinder of a clutch actuation system in a motor vehicle - Google Patents

Abstract

The invention relates to a piston-cylinder arrangement, in particular for a master cylinder of a clutch actuation system in a motor vehicle, having a piston which is arranged to be axially movable in a cylinder designed as a housing, with a seal fixing element which fixes a seal with respect to an end face of the piston. and an inductive sensor system comprising an electrically conductive target attached to the piston and operatively connected to an inductive sensor unit mounted externally on the cylinder. In a piston-cylinder arrangement, the existing of an electrically conductive plastic Dichtungsfixierelement is designed as a target.

Description

The invention relates to a piston-cylinder arrangement, in particular for a master cylinder of a clutch actuation system in a motor vehicle, having a piston which is arranged to be axially movable in a cylinder designed as a housing, with a seal fixing element which fixes a seal with respect to an end face of the piston. and an inductive sensor system comprising an electrically conductive target attached to the piston and operatively connected to an inductive sensor unit mounted externally on the cylinder.

In hydraulic clutch release systems, which are used in motor vehicles, Linearwegmesssysteme be used to detect a position of a piston of a master cylinder, which is guided in the master cylinder, to determine the operating state of the clutch of the motor vehicle can. The linear measuring system comprises a sensor system that consists of an inductive sensor unit 11 and an electrically conductive target 12 consists. The inductive sensor unit 11 is outside of the cylinder 2 attached while the target 12 on a Dichtungsfixierelement 16 is mounted, which at the end face of the piston 3 is positioned ( 6 ). The seal fixing element 16 has the task, one on the front side of the piston 3 arranged seal 13 to hold in their position. The target 12 is preferably formed as an aluminum target. By the movement of the piston 3 and thus the target 12 this is the inductive sensor unit 11 spanned magnetic field and thus also the sensor signal of the sensor unit 11 changed.

By this arrangement of the target 12 on the Dichtungsfixierelement 16 creates a relatively large distance between the target 12 and the sensor unit 11 ( 7 ). Because this distance is the influence of the target 12 on the magnetic field and thus the accuracy of the output signal of the inductive sensor unit 11 determined, a large distance adversely affects the output signal of the sensor unit 11 out.

The invention is thus based on the object of specifying a piston-cylinder arrangement in which the distance between the target and the inductive sensor unit is designed as small as possible in order to obtain an accurate sensor signal of the inductive sensor unit.

According to the invention the object is achieved in that the existing of an electrically conductive plastic Dichtungsfixierelement is designed as a target. The integration of target and Dichtungsfixierelement in only one component allows the setting of a small distance of the component to the sensor unit, since only this component must be adjusted relative to the sensor unit. By attaching the target close to the sensor unit, an accurate output signal is removable on the sensor unit. Since the target pushes the seal against the piston, the target not only fulfills the function of the resonator for the inductive sensor unit but also the function of fixing the seal on the piston. By means of the electrically conductive plastic, a cost-effective material is used for the production of the piston-cylinder arrangement. In addition, the use of only one component reduces the manufacturing cost of the piston-cylinder arrangement.

Advantageously, the target is ring-like design and mounted between carrier-free centric on the end face of the piston. The elimination of the intermediate carrier reduces the distance between the target and the sensor unit. At the same time, the assembly of the target on the piston is simplified because only one element has to be mounted.

In one embodiment, the ring-like target is formed radially circumferentially closed. By such a closed surface disturbances, which can be caused by notches on the target in the magnetic field, which affect the output signal of the inductive sensor unit, reliably prevented.

In a variant, the ring-like target is clipped into the end face of the piston and is guided during a movement of the piston along the inductive sensor unit, which extends parallel to the direction of movement of the piston. The ring-like target made of plastic can thus be easily attached to the piston, which further simplifies the production cost. Due to the centric arrangement of the annular target on the piston, the distance of the annular target to the inductive sensor unit over the direction of movement of the piston is constant, which also has an advantageous effect on the accuracy of the output signal of the inductive sensor unit.

In one embodiment, the ring-like target has an axially extending pin-like element for clipping into the face of the piston. This pin-like element can be easily made simultaneously with the ring-like target in a plastic injection molding process. This eliminates the adjustment of several parts to each other, which in particular simplifies the adjustment of the ring-like target relative to the inductive sensor unit.

In a development, the ring-like target has an outer diameter, which is slightly smaller than the inner diameter of the cylinder. The distance between the cylinder inner wall and the outer side of the annular target is thus minimal, to ensure that the target can move without obstruction in the cylinder. Thus, the smallest possible distance between the target and the sensor unit is guaranteed.

In one embodiment, the electrical conductivity of the plastic, from which the ring-like target is made, approximately corresponds to the electrical conductivity of steel. This high conductivity can cause a large change in the magnetic field of the inductive sensor unit, which results in an accurate output signal of the inductive sensor unit and thus ensures a reliable determination of the position of the piston within the cylinder.

In another embodiment, the plastic is a PA6 CSM material. Such materials are very conductive and represent an advantageous alternative to aluminum.

The invention allows numerous embodiments. One of them will be explained in more detail with reference to the figures shown in the drawing.

It shows:

1 : Schematic representation of an electro-hydraulic coupling system,

2 : An embodiment of the master cylinder of the electro-hydraulic clutch system according to 1 .

3 : a sectional view of the embodiment of the master cylinder,

4 : an embodiment of the target according to the invention,

5 : a section of the embodiment according to 3 .

6 FIG. 2: a representation of the master cylinder according to the prior art, FIG.

7 : a section from the master cylinder according to 6 ,

Identical features are identified by the same reference numerals.

In 1 is an electro-hydraulic clutch system 1 shown how it is used in motor vehicles. Such a coupling system 1 has an electro-hydraulic actuating system in the form of a clutch master cylinder, which is designed as a housing cylinder 2 includes, in which a piston 3 is mounted axially movable. The piston 3 is powered by an electrically commutated electric motor 4 powered by a control unit 5 via a power amplifier 6 is controlled. The final stage 6 is in common with the electric motor 4 on the cylinder 2 attached. The radial movement of the electric motor 4 is about a gearbox 7 in the axial movement of the piston 3 implemented. It should be noted that not only electro-hydraulic clutch systems are known, but the piston also directly, waiving the electric motor 4 , can be connected to the accelerator pedal of the driver of the motor vehicle.

Via a hydraulic line 8th is the clutch master cylinder with a slave cylinder 9 connected, which is a clutch 10 actuated. Adjusting the position of the coupling 10 occurs due to the drive of the piston 3 through the electric motor 4 , The clutch master cylinder 2 . 3 and the clutch 10 with the slave cylinder 9 are arranged spatially separated in the vehicle.

Outside of the serving as a housing cylinder 2 is an inductive sensor unit 11 arranged, which is an electrically conductive target 12 opposite, at the front of the piston 3 is attached. How out 2 can be seen, is the target 12 designed as an annular element, which is centered on the end face of the piston 3 is attached. At the movement of the piston 3 the target is moving 12 along the longitudinal extent of the inductive sensor unit 11 and outputs an output signal which indicates the position of the piston in the master cylinder 2 equivalent. The annular target 12 consists of an electrically conductive plastic, such as PA6 CSM, where a use of TECACOMP is recommended. The outer diameter of the annular target 12 is only slightly smaller than the inner diameter of the cylinder 2 to allow the annular target 12 as close as possible to the inductive sensor unit 11 is guided along.

In 3 is once again clarified that the distance between the inner diameter of the cylinder 2 and outer diameter of the annular target 12 so chosen is that the piston 3 with the target 12 unhindered within the cylinder 2 can move. How out 3 can be seen, has the annular target 12 an axially extending element 15 by means of which the annular target 12 in the pistons 3 is clipped into it. Between the piston 3 and the annular target 12 is on the front of the piston 3 a plastic ring 14 arranged on which a primary seal 13 rests. By clipping the ring-shaped target 12 in the pistons 3 becomes the primary seal 13 centered and against the piston 3 biased. Thus, the annular target takes over 12 not only the function of the resonance element for the inductive sensor unit 11 but at the same time the attachment function for the primary seal 13 ,

4 shows again the annular target 12 with the peg-shaped element 15 , It can be seen that the annular target 12 has a circumferentially closed surface. The cone-like element 15 has on its surface circumferential elevations, by means of which the annular target 12 inside the piston 3 is attached.

In 5 is again an enlarged section of the cylinder 2 illustrated in which the distance between the annular target 12 and the sensor unit 11 is clarified. There is only one within the design possibilities minimum distance between the target 12 and the cylinder 2 on which the sensor unit 11 rests, so that the annular target 12 good in the of the inductive sensor unit 11 immersed magnetic field can dip and thus in a change in position of the piston 3 a correspondingly accurate and strong change of the magnetic field causes what a highly accurate sensor signal of the inductive sensor unit 11 entails.

The described piston-cylinder arrangement comprises a target 12 , which is mounted between the carrier-free on the piston. The target 12 assumes two functions. Once it provides the resonant body for the inductive sensor unit 11 On the other hand it serves as a fastener for the primary seal 13 , This results in a piston-cylinder arrangement with a precisely working displacement measuring device.

LIST OF REFERENCE NUMBERS

1

Electrohydraulic coupling system

2

Master cylinder

3

piston

4

electric motor

5

control unit

6

final stage

7

transmission

8th

hydraulic line

9

slave cylinder

10

clutch

11

Inductive sensor unit

12

target

13

primary seal

14

Plastic ring

15

Spigot-like element

Claims (8)

Piston-cylinder arrangement, in particular for a master cylinder of a clutch actuation system in a motor vehicle, having a piston ( 3 ), which is axially movable in a cylinder designed as a housing ( 2 ) is arranged, with a Dichtungsfixierelement which a seal ( 13 ) with respect to an end face of the piston ( 3 ), and an inductive sensor system ( 11 . 12 ), which is an electrically conductive target ( 12 ) located on the piston ( 3 ) and in operative connection with an inductive sensor unit ( 11 ), which outside of the cylinder ( 2 ), characterized in that the existing of an electrically conductive plastic Dichtungsfixierelement as a target ( 12 ) is trained. Piston-cylinder arrangement according to claim 1, characterized in that the target ( 12 ) is formed ring-like and between carrier-free centric on the end face of the piston ( 3 ) is attached. Piston-cylinder arrangement according to claim 1 or 2, characterized in that the ring-like target ( 12 ) is formed radially circumferentially closed. Piston-cylinder arrangement according to claim 2 or 3, characterized in that the ring-like target ( 12 ) in the end face of the piston ( 3 ) and when a movement of the piston ( 3 ) along the inductive sensor unit ( 11 ), which are parallel to the direction of movement of the piston ( 3 ), is guided. Piston-cylinder arrangement according to claim 4, characterized in that the ring-like target ( 12 ) an axially extending pin-like element ( 15 ) for insertion into the end face of the piston ( 3 ) having. Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that the ring-like target ( 12 ) has an outer diameter which is slightly smaller than the inner diameter of the cylinder ( 2 ). Piston-cylinder arrangement according to at least one of the preceding claims, characterized in that the electrical conductivity of the plastic from which the target is made, approximately corresponds to the electrical conductivity of steel. Piston-cylinder arrangement according to claim 7, characterized in that the plastic is a PA6 CSM material.

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