DE102005047917A1 - Hydraulic unit of a hydraulic vehicle brake device with a pressure sensor - Google Patents

Abstract

A hydraulic unit (10) of a hydraulic vehicle brake system with a hydraulic device (14) for the optional supply or discharge of hydraulic fluid to at least one wheel brake to be connected to the hydraulic unit (14) and a control device (12) for controlling the operation of the hydraulic device (14), with the hydraulic device (14) at least one pressure sensor (30) is provided, according to the invention, is characterized in that the at least one pressure sensor (30) is attached to a solenoid valve assembly (20) which closes on the hydraulic device (14) to block a flow of hydraulic fluid or is provided by a wheel brake to be connected.

Description

background the invention

The The invention relates to a hydraulic unit of a hydraulic vehicle brake system with a hydraulic device for selectively adding or removing Hydraulic fluid to at least one wheel brake to be connected to the hydraulic unit and a controller for controlling the operation of the hydraulic device, wherein at least one of the hydraulic device Pressure sensor is provided.

Power units of the above type are used in hydraulic vehicle brake systems for Controlling the pressure to be applied to the wheel brakes of the vehicle brake system used. The pressure is thereby by means of a hydraulic fluid to the brake cylinder transmitted to the wheel brakes. To allocate the pressure as needed to the wheel brakes has the Hydraulic unit a pump and usually several solenoid valve assemblies on, by means of the control unit can be controlled. Further are provided on the hydraulic unit usually several pressure sensors. With these pressures are measured on the hydraulic device, which in terms of on desired switching positions of an associated pump motor and associated magnetic coils the solenoid valve assemblies can be evaluated.

Task and solution according to the invention

It An object of the invention is a hydraulic unit of the aforementioned To create a way in which one or more pressure sensors saves space and at the same time cost-effective are housed.

The Task is according to the invention with a hydraulic unit solved according to claim 1. Such a hydraulic unit of a hydraulic vehicle brake system is with a hydraulic device and a controller provided and has at least one pressure sensor which is connected to a Solenoid valve assembly is mounted.

The Invention thus stands in contrast to conventional hydraulic units of hydraulic vehicle brake systems, where pressure sensors usually in a cuboid pump housing Aluminum are arranged by means of corresponding holes. The According to the invention selected arrangement is at least one pressure sensor to a solenoid valve assembly with the opposite a smaller space and can be produced at a lower cost.

Of the arranged according to the invention Pressure sensor can in particular by means of welding, for example laser welding, or Plugging in a very simple manner in a known solenoid valve assemblies be used anyway existing depression. It can at least a pressure sensor according to the invention be attached at the same time stationary.

With the attachment process is the at least one pressure sensor according to the invention further preferably at the same time hydraulically to the solenoid valve assembly connected. For this purpose, a fluid-conducting connection is advantageous provided with which the at least one pressure sensor with a Room is connected inside the solenoid valve assembly. The connection is preferably formed such that the pressure sensor in the Room of the solenoid valve assembly detected prevailing pressure.

Regarding Such an arrangement of a pressure sensor on a solenoid valve assembly is particularly preferred to its actual sensor the solenoid valve assembly mounted. The pressure sensor also has an electrical circuit with which the determined by the sensor Measuring signal can be processed. Such a measuring circuit has usually at least one electronic component and is preferred also attached to the solenoid valve assembly. By such Attachment in the immediate vicinity of the arranged according to the invention Sensor can in the pressure sensor short line paths are achieved. Furthermore, will one also spatially clear assignment between sensor and electrical circuit created.

The such designed electrical circuit preferably further comprises a connection means for the solenoid valve assembly to which the pressure sensor according to the invention arranged is. The solenoid valve assembly is preferred with at least an electrical connection contact provided with the electrical Circuit is electrically conductively connected.

In order to In case of maintenance, a cost-effective repair and, where appropriate, a meaningful replacement of assemblies is possible, is about it In addition, preferably with the at least one pressure sensor together with the solenoid valve assembly and together with the electrical circuit designed a replaceable mounting assembly. This mounting assembly can then, for example, in the service case of the associated hydraulic unit be separated. The pressure sensor and in particular the electrical Circuit are preferred to a solenoid housing of Solenoid valve assembly mounted, which mounted by a mounted in the pump housing Valve stem guide of the solenoid valve assembly can be deducted.

Around between the at least one inventively designed in this way electrical circuit an electrical connection to the outside of the hydraulic unit, the electrical circuit is preferred electrically conductively connected to an electrical unbundling grid, which leads to an external plug connection for the control unit. The connection between the electrical circuit and the electrical unbundling grid is preferably solvable designed to meet the above interchangeability of individual assembly assemblies to ensure. Such a detachable Connection is advantageous with a spring contact, a press fit or designed a plug contact. Alternatively, also between the pressure sensor or its actual transducer and the electrical circuit such a releasable electrical connection be prepared. The said unbundling grid is preferred produced by means of a punching process and possibly complete or at least partially into a part of a plastic housing of the ECU injected.

Around If necessary, completely dispense with such a Entflechtungsgitter to be able to Furthermore, preferably provided an electrical circuit, which is along several solenoid valve assemblies with at least one associated pressure sensor extends. Such an electrical circuit is then in the Usually designed so large, that in it at the same time an unbundling to an external connection of the control unit can be created. The electrical connection between a such a big one electrical circuit and the solenoid valve assemblies or pressure sensors preferably again created by means of a releasable contacting, such as a spring contact, a press contact or a Plug contact. Alternatively you can also not solvable Provided connections, as for example by soldering, bonding or ultrasonic welding can be created. Such insoluble Lead connections then that, if necessary, only one overall assembly of electrical Circuit and multiple solenoid valve assemblies and associated pressure sensors can be exchanged or to dispense with interchangeability altogether. In order to the compounds mentioned as possible can be produced reliably, the solenoid valve assemblies should and in particular, their magnetic coil housing prior to forming the connections aligned with each other.

The electrical connections between the at least one pressure sensor and the electrical circuit and preferably also between the at least a solenoid valve assembly and the electrical circuit are preferably in a spatially limited area summarized the electrical circuit. This area should be In particular, are at the edge of the electrical circuit, which in the rest Area of electrical circuit whose layout is designed especially freely.

Summary the drawings

following Be exemplary embodiments of hydraulic units according to the invention with the attached schematic drawings closer explained. It shows:

1 a longitudinal section of a first embodiment of a mounting assembly according to the invention of solenoid housing, pressure sensor and electrical circuit,

2 a partial longitudinal section of an embodiment of a hydraulic unit with the in 1 illustrated assembly assembly,

3 a partial longitudinal section of a second embodiment of a hydraulic unit according to the invention and

4 a partial longitudinal section of a third embodiment of a hydraulic unit according to the invention.

detailed Description of the embodiments

In the 1 and 2 is an embodiment of a hydraulic unit 10 illustrates which as essential components a control unit 12 and a hydraulic device 14 includes. The control unit 12 has essentially the basic form of a cuboid, which is based on 2 bottom side open and on the opposite, upper side by means of a lid 16 is closed. This lid 16 lies on a side wall 18 of the control unit 12 on. Inside the space thus formed is located in the controller 12 including at least one solenoid valve assembly 20 leading to the hydraulic device 14 heard and in a likewise to the hydraulic device 14 belonging essentially cuboid pump housing 22 is used. In the pump housing 22 is a substantially rod-shaped valve stem guide 24 fixedly attached, which from the pump housing 22 so protrudes that thereon a substantially hollow cylindrical designed solenoid housing 26 can be plugged.

On the related to the 1 and 2 upper end portion of this solenoid housing 26 are located upwardly projecting electrical connection contacts 28 in the form of pens.

On the also related to the 1 and 2 upper end portion of the valve stem guide 24 from one of the solenoid valve assemblies 20 is a pressure sensor 30 with its transducer in fluid communication with the interior of the valve stem guide 24 fixed by means of a laser welding. At the top of this pressure sensor 30 There are several connection surfaces 32 for electrically contacting the pressure sensor 30 or from its transducers.

On the connection contacts 28 is a circuit board 34 plugged, this circuit board 34 also an opening 36 between the to the connection contacts 28 having associated openings. Through this opening 36 the pressure sensor protrudes 30 especially with its connection surfaces 32 therethrough.

On the basis of the 1 and 2 upper side of the circuit board 34 are electronic components 38 which in particular for the operation of the pressure sensor 30 required are. These components 38 are to the pads 32 with the help of at least one bond connection 40 connected. Furthermore, the connection contacts 28 by not shown in detail press seats with the circuit board 34 electrically contacted.

On the related to the 2 upper side of the circuit board 34 There is also a second circuit board 42 , which are parallel to the first circuit board 34 extends and with this by several spring contacts 44 electrically connected. These spring contacts 44 are related to the 2 left side of the circuit board 42 summarized in a spatially limited surface area.

The circuit board 42 is used in particular for the unbundling of the solenoid valve assemblies 20 and the pressure sensors 30 created electrical contacts to a (in 2 not shown) external electrical Steckanschuss. In addition, the circuit board 42 but also other electronic components 38 carry, which for the operation of the pressure sensors 30 and possibly also the further operation of the control unit 12 required are.

In 3 is an embodiment of a hydraulic unit 10 illustrates which with respect to the housing of the controller 12 and the pump housing 22 and the solenoid valve assemblies 20 of the hydraulic device 14 like that in the 1 and 2 illustrated embodiment is designed.

Furthermore, in this embodiment also a first circuit board 34 and a second circuit board 42 intended. Of these boards, however, is the first circuit board 34 designed so small that they alone a front end of one of the solenoid housing 26 covered. The circuit board 34 is again electrically connected to this front end with connection contacts 28 connected, which of the solenoid housing 26 protrude. In addition, there are bond connections 40 between the connection surfaces 32 one in turn on the solenoid housing 26 attached pressure sensor 30 to the circuit board 34 , Finally, spring contacts are also 44 between the first circuit board 34 and the second circuit board 42 intended. Next to the circuit board 34 there is a solenoid valve assembly 20 at which no pressure sensor is provided and which instead by means of spring contacts 46 from their connection contacts 28 off directly to the circuit board 42 is releasably coupled.

The circuit board 42 is therefore on the spring contacts 44 and 46 from the solenoid valve assemblies 20 and in particular of its pressure sensor 30 together with the rest of the control unit 12 removable. It carries the circuit board 42 furthermore electronic components 38 for the operation of the pressure sensor 30 and / or for further switching functions of the solenoid valve assemblies 20 and provides an unbundling to one in 3 with reference number 50 designated external plug connection ready.

In 4 is an embodiment of a hydraulic unit 10 shown, which also largely like that in 1 and 2 illustrated embodiment is designed. In this embodiment, moreover, on the side wall 18 of the control unit 12 an inwardly projecting support 52 formed by means of a solenoid housing 26 on the associated valve stem guide 24 is restrained.

In addition, in this embodiment, no second circuit board 42 but instead a punched grid 54 provided by means of the required unbundling of the contacts on the solenoid valve assemblies 20 and the pressure sensors 30 towards a (not shown) external plug connection is realized.

10

hydraulic unit

12

control unit

14

hydraulic equipment

16

cover

18

Side wall

20

Solenoid valve assembly

22

pump housing

24

Valve tappet guide

26

Solenoid housing

28

terminals

30

pressure sensor

32

terminal area

34

circuit board

36

opening

38

module

40

bond

42

circuit board

44

spring contact

46

spring contact

48

module

50

plug-in connection

52

support

54

lead frame

Claims (8)

Hydraulic unit ( 10 ) a hydraulic vehicle brake system with a hydraulic device ( 14 ) for selectively supplying or removing hydraulic fluid to at least one of the hydraulic unit ( 14 ) to be connected wheel brake and a control unit ( 12 ) for controlling the operation of the hydraulic device ( 14 ), wherein on the hydraulic device ( 14 ) at least one pressure sensor ( 30 ), characterized in that the at least one pressure sensor ( 30 ) on a solenoid valve assembly ( 20 ) attached to the hydraulic device ( 14 ) is provided for blocking a flow of hydraulic fluid to or from a wheel brake to be connected. Hydraulic unit according to claim 1, characterized in that a fluid-conducting connection is provided, with which the at least one pressure sensor ( 30 ) with a space inside the solenoid valve assembly ( 20 ) connected is. Hydraulic unit according to claim 1 or 2, characterized in that an electrical circuit ( 34 ) with at least one electronic component ( 38 ) is provided, which for the operation of the at least one pressure sensor ( 30 ) and the electrical circuit ( 34 ) also on the solenoid valve assembly ( 20 ) is attached. Hydraulic unit according to claim 3, characterized in that the solenoid valve assembly ( 20 ) at least one electrical connection contact ( 28 ) connected to the electrical circuit ( 34 ) is electrically conductively connected. Hydraulic unit according to claim 3 or 4, characterized in that with the at least one pressure sensor ( 30 ) together with at least part of the solenoid valve assembly ( 20 ) and together with the electrical circuit ( 34 ) is designed a replaceable mounting assembly. Hydraulic unit according to one of claims 3 to 5, characterized in that the electrical circuit ( 34 ) with an electrical unbundling grid ( 54 ) is electrically conductively connected, with which preferably a connection to an external plug connection ( 50 ) for the control unit ( 12 ) is formed. Hydraulic unit according to one of claims 3 to 6, characterized in that a plurality of solenoid valve assemblies ( 20 ) with preferably at least one associated pressure sensor ( 30 ) are provided and the electrical circuit ( 34 ) along at least two of these solenoid valve assemblies ( 20 ). Hydraulic unit according to claim 7, characterized in that the electrical connection between the at least one pressure sensor ( 30 ) and the electrical circuit ( 34 ) and preferably also between the at least one solenoid valve assembly ( 20 ) and the electrical circuit ( 34 ) in a surface area of the electrical circuit ( 34 ) are summarized.