DE102014212715A1 - Master cylinder - Google Patents

Abstract

The invention relates to a master cylinder having a piston-cylinder unit with a cylinder having a cylinder chamber and with a piston axially displaceably received therein, wherein the piston is connectable to a piston rod, for driving the piston for axial displacement in the cylinder chamber, wherein the cylinder in the Has substantially cylindrical wall defining the cylinder space and the piston has a substantially cylindrical wall, which is adapted to be inserted into the cylindrical wall of the cylinder, characterized in that the cylindrical wall of the cylinder and / or the piston at least has a flat surface area.

Description

The invention relates to a master cylinder, in particular for the pressure medium actuation of units in the drive train of a motor vehicle.

Master cylinder for the pressure medium actuation have become widely known in the art. In this case, a cylindrical piston is received axially displaceably in a cylinder of a piston-cylinder unit, wherein a Sensorgeberelement is connected to the piston and on the cylinder, a Sensornehmerelement is arranged, which detects the positioning of the sensor sensor element. Thereby, the positioning of the piston in the cylinder can be detected.

Due to the cylindrical shape of the piston, the sensor element is also cylindrical or annular and the sensor receiving element is flat on an electronic board, so that the distance between the cylindrical sensor element increases relative to the planar Sensornehmerelement with the lateral distance. As a result, the measurement accuracy is impaired in tolerance cases or thermal expansion.

It is the object of the invention to provide a master cylinder which is simple in construction and reduces or eliminates the disadvantages of the prior art.

The object of the invention is achieved with the features of claim 1.

An embodiment of the invention relates to a master cylinder having a piston-cylinder unit with a cylinder having a cylinder chamber and a piston axially displaceably received therein, wherein the piston is connectable to a piston rod, for driving the piston for axial displacement in the cylinder chamber, wherein the cylinder a substantially cylindrical wall which defines the cylinder space and the piston has a substantially cylindrical wall which is adapted to be inserted into the cylindrical wall of the cylinder, wherein the cylindrical wall of the cylinder and / or the piston at least one having flat surface area. As a result, a providence of a planar sensor contact element with a planar sensor receiving element can be implemented in a simple manner, so that the measuring accuracy is improved and yet the required installation space is not substantially increased.

It is advantageous if the cylindrical wall of the cylinder and / or the piston has a plurality of flat surface areas, which are arranged distributed over the circumference of the cylinder and / or the piston. As a result, a favorable design of piston and cylinder is achieved, wherein in the area of the flat surface areas a favorable sealing of the surfaces can be achieved.

It is also advantageous if the cylindrical wall of the cylinder and / or the piston has a rectangular contour, which is composed of four flat surface areas, wherein the flat surface areas are connected by rounded corner regions.

It is also advantageous if a flat surface of the cylinder faces a flat surface of the piston. These can advantageously be provided with a sensor element, such as with a sensor contact element and with a sensor receiving element, so that they are advantageously opposite each other. Thereby, an arrangement can be provided which is improved in terms of errors due to an annular geometry.

It is also advantageous if a sensor contact element is connected to a flat surface of the piston. As a result, a simple positioning of the sensor contact element is achieved.

It is particularly advantageous if the sensor element is arranged parallel to a flat surface of the piston. As a result, a simple alignment is achieved without any special effort.

It is also expedient if the piston has a receptacle for receiving the Sensorgeberelements. As a result, the receiving position is defined and at the same time the assembly process is simplified.

It is also advantageous if a sensor receiving element is connected to a flat surface of the cylinder. As a result, a simple positioning of the Sensornehmerelements is achieved.

It is also advantageous if the sensor receiving element is arranged parallel to a flat surface of the cylinder. As a result, a simple alignment is achieved without any special effort.

It when the cylinder has a receptacle which serves to receive the Sensornehmerelements is particularly advantageous. As a result, the receiving position is defined and at the same time the assembly process is simplified.

The present invention will be explained in more detail below with reference to preferred exemplary embodiments in conjunction with the associated figures:

Showing:

1a a view of a piston of a piston-cylinder unit,

1b a view of a piston of a piston-cylinder unit,

1c a view of a piston of a piston-cylinder unit in a side view,

1d a view of a piston of a piston-cylinder unit from below,

1e a view of a piston of a piston-cylinder unit in a view on the front side,

2a a view of a cylinder of a piston-cylinder unit in a perspective view,

2 B a view of a cylinder of a piston-cylinder unit in side view,

2c a view of a cylinder of a piston-cylinder unit in section along line CC of 2 B .

2d a view of a cylinder of a piston-cylinder unit in section along line BB of 2 B , and

3 a view of the cylinder with a receptacle for the sensor receiving element.

The 1a to 1e show a piston 1 a master cylinder of a piston-cylinder unit. The piston 1 is with a substantially cylindrical wall 2 and a piston rod 3 designed so that the piston 1 can be connected to a drive to the piston 1 to move axially in a cylinder of a piston-cylinder unit.

The piston 1 has a substantially cylindrical wall 2 on, which consists of a number of flat areas 4 is composed, wherein the flat surface areas by rounded corner areas 5 connected to each other.

In the embodiment of 1a to 1e consists of the essentially cylindrical wall 2 from four flat surface areas 4 , the above 4 rounded corner areas 5 connected to each other. In other embodiments, more or less flat surface areas may be provided.

On the bottom of the piston 1 is a recording 6 provided for receiving a sensor sensor element. The recording 6 is characterized by grooves or rails, so that the Sensor Berberelement 7 , which is C-shaped, in the grooves or rails in the axial direction can be inserted and pressed. In this case, the sensor facing element 7 a flat body with two opposing hook-like projections, so that the hook-like projections in the grooves or rails of the recording 6 can intervene.

The 2a to 2d show a cylinder 10 a master cylinder for receiving a piston 1 according to the 1a to 1e ,

The cylinder 10 has a substantially cylindrical wall 13 with a cylinder space 11 on, wherein the substantially cylindrical wall 13 by substantially flat surface areas 14 and these connecting corner areas 15 is formed, so that the inner contour of the cylinder 10 essentially the outer contour of the piston 1 equivalent. In the embodiment of 2a to 2d four flat surface areas are provided, wherein in alternative embodiments, other configurations may be provided with more or less flat surface areas.

The cylinder 10 still has a recording 12 on, which serves for receiving a Sensornehmerelements which, for example, in the recording 12 can be inserted in the axial direction. In this case, the Sensornehmerelement in the recording 12 be arranged such that the plane of the Sensornehmerelements is arranged parallel to the plane of the Sensorgeberelements.

The 3 shows the arrangement of an electronic circuit 16 as a sensor receiver element, as in the recording 12 is insertable. By means of a lid 17 can the recording 12 sealed, such as welded, and sealed. In this case, a lateral guide rail is provided for the radial attachment of the electronic circuit or its board, along which the board is inserted.

LIST OF REFERENCE NUMBERS

1

 piston

2

 wall

3

 piston rod

4

 level surface area

5

 rounded corner area

6

 admission

7

 Sensor transmitter element

10

 cylinder

11

 cylinder space

12

 admission

13

 wall

14

 level surface area

15

 corner

16

 electronic circuit, circuit board

17

 cover

Claims (10)

Master cylinder with a piston-cylinder unit with a cylinder ( 10 ) with a cylinder space ( 11 ) and with a piston therein axially displaceable ( 1 ), the piston ( 1 ) with a piston rod ( 3 ) is connectable, for driving the piston for axial displacement in the cylinder space ( 11 ), whereby the cylinder ( 10 ) a substantially cylindrical wall ( 13 ), which defines the cylinder space and the piston ( 1 ) a substantially cylindrical wall ( 2 ) which is adapted to fit into the cylindrical wall ( 13 ) of the cylinder ( 10 ), characterized in that the cylindrical wall ( 2 . 13 ) of the cylinder ( 10 ) and / or the piston ( 1 ) at least one flat area ( 4 . 14 ) having. Master cylinder according to claim 1, characterized in that the cylindrical wall ( 2 . 13 ) of the cylinder ( 10 ) and / or the piston ( 2 ) a plurality of planar areas ( 4 . 14 ), which over the circumference of the cylinder ( 10 ) and / or the piston ( 1 ) are arranged distributed. Master cylinder according to claim 1 or 2, characterized in that the cylindrical wall ( 2 . 13 ) of the cylinder ( 10 ) and / or the piston ( 1 ) has a rectangular contour, which consists of four flat surface areas ( 4 . 14 ), wherein the flat surface areas ( 4 . 14 ) by rounded corner areas ( 5 . 15 ) are interconnected. Master cylinder according to at least one of the preceding claims, characterized in that a flat area ( 14 ) of the cylinder ( 10 ) a flat area ( 4 ) of the piston ( 1 ) is opposite. Master cylinder according to at least one of the preceding claims, characterized in that a sensor element ( 7 ) with a flat area ( 4 ) of the piston ( 1 ) connected is. Master cylinder according to one of the preceding claims, characterized in that the sensor element ( 7 ) parallel to a flat area ( 4 ) of the piston ( 1 ) is arranged. Master cylinder according to claim 5 or 6, characterized in that the piston ( 1 ) a recording ( 6 ) for receiving the sensor element ( 7 ). Master cylinder according to at least one of the preceding claims, characterized in that a sensor receiving element ( 16 ) with a flat area ( 14 ) of the cylinder ( 10 ) connected is. Master cylinder according to one of the preceding claims, characterized in that the sensor receiving element ( 16 ) parallel to a flat area ( 14 ) of the cylinder ( 10 ) is arranged. Master cylinder according to one of the preceding claims, characterized in that the cylinder ( 10 ) a recording ( 12 ), which for receiving the Sensornehmerelements ( 16 ) serves.

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