DE10302281A1 - Pressure sensor module for electro-hydraulic car brakes, has pressure sensor in hard mount forced into soft housing to make sealed joint - Google Patents

Abstract

A pressure sensor module has a pressure sensor (10) held in a housing (13) by a non removable connection (17) made by forcing the hard sensor mount (16) into the soft housing material so that the housing material is swaged into grooves (25) in the mount.

Description

The invention relates to a pressure sensor module for electronic Brake systems in motor vehicles.

It is known from WO 01/85511 A1, pressure sensors to integrate in electronic brake control units. In the the embodiments described relate to the Integration of individual sensors using a clinch connection are directly attached to a hydraulic unit. This requires a considerable space requirement for the immediate arrangement of the required huge Mounting holes in the hydraulic unit, in which the pressure sensors are pressed in.

From the EP 1068120 B1 a pressure sensor module is already known, the pressure sensors of which are fastened in the sensor housing by means of sealing and retaining rings, the electrical connection of the pressure sensors to a printed circuit board being effected via rigid contact pins, for which purpose the pressure sensors must be exactly aligned with the soldering points of the printed circuit board before being fastened in the sensor housing ,

It is therefore the object of the invention one if possible easy to manufacture pressure sensor assembly to create which does not have the aforementioned disadvantages.

This task is for a pressure sensor module of the genus mentioned at the outset by the characteristic features of Pa tent Claim 1 solved.

Further advantages, features and possible applications the invention result from the dependent claims and the following Description of several embodiments based on drawings.

Show it:

1 2 shows a schematic sectional drawing of the pressure sensor module in a partial view with the features relevant to the invention,

2 an alternative embodiment of the pressure sensor module 1 with a pressure channel arranged off-center to the mounting hole in the pressure sensor module,

3 deviating from 2 a pressure channel designed as an oblique channel, which opens into a blind hole of the pressure sensor module,

4 a plan view of a hydraulic unit and a pressure sensor module, which are screwed together,

5 an overall view of the pressure sensor module according to the invention in an exploded view.

The 1 shows a cross section through a measuring element carrier fastened in the pressure sensor module by means of self-caulking 16 a pressure sensor used for electrohydraulic brake systems. Typically, multiple pressure sensors are placed in a rectangular sensor housing 13 preferably arranged in a row with pressure sensor membranes 10 and one made of pressure sensor electronics 11 are provided. The use of pressure sensor membranes 10 represents one of several options for executing the measuring elements required for the pressure sensors.

On the sensor housing 13 there is a pressure channel below each pressure sensor 18 arranged, which can be connected to a hydraulic unit of the electro-hydraulic brake system. By means of a sensor housing 13 assigned circuit board 1 , which covers the entire pressure sensor electronics 11 has in the final assembly state a central electrical connection point to one above the circuit board 1 connectable electronics housing, which in 4 is shown.

The invention provides that the pressure sensors by means of an undetachable connection 17 in the form of self-locking in the sensor housing 13 are attached, for which the sensor housing 13 with multiple hole levels 24 is provided, the material of which is softer than the material of the tubular measuring element carrier 16 in order to produce an inseparable connection 17 that the bore steps 24 forming soft material of the sensor housing 13 by means of a caulking tool in an annular recess 25 each measuring element carrier 16 to displace.

This is the sensor housing 13 advantageous from an easy to produce wrought aluminum alloy and the measuring element carrier 16 Made from an easy-to-machine steel.

Electrical connections in the form of flexible wires 4 connect the pressure sensor membranes 10 with the circuit board 1 , which is designed as a stable support plate and several, preferably rectangular recesses 2 has such generous dimensions that the flexible wires 4 with play and in any position through the recesses 2 can be relocated. The extremely fine wires 4 are designed as so-called bond wires, which are created by micro-welding technology on the circuit board 1 be connected. Electrical contacting of the pressure sensor membrane, which is independent of position deviations, can thus take place 10 with the pressure sensor electronics 11 on the circuit board 1 respectively.

The pressure sensor module is thus used to connect to a brake control unit, the hydraulic unit, which is provided for the control and / or regulation of motor vehicle brakes 12 via a sealing element 6 on the sensor housing 13 connected. The sensor housing 13 of the pressure sensor duls is on the hydraulic unit 12 using a suitable fastener 5 such as screws, rivets, snap hooks connected.

Out 1 also shows that the hydraulic fluid from the hydraulic unit 12 one in the middle of the sensor housing 13 merging pressure channel 18 to the membrane 10 is introduced. A membrane deformation caused by pressure change is converted into an electrical measurement signal, for example by means of strain gauges. The tight connection between each pressure channel 18 and the hydraulic unit 12 is carried out, for example, via an O-ring, which acts as a sealing element 6 each in a recess of the sensor housing 13 is used.

Just like in 1 is in the 2 a cross section through the sensor housing 13 shown that are identical to 1 characterized by a particularly slim design, which, despite the high mechanical stress, requires a minimum of material, since it is only in the caulking area of the measuring element carrier 16 the wall thickness of the sensor housing 13 is increased in order to be able to easily absorb the caulking force and the hydraulic pressure effective below the caulking point (connection 17). In addition, the tubular measuring element carrier has 16 to 2 just like in 1 above its caulking area, a reduced-diameter housing section in the form of a shoulder 21 on, which is a sufficiently large radial distance to the inner wall of the sensor housing 13 allows to press in the measuring element carrier 16 into the sensor housing 13 required pressing tool into the sensor housing 13 to be able to introduce. Off center on the bottom of the sensor housing 13 the pressure channel opens 18 one, which by means of a in the channel connection of the block-shaped hydraulic unit 12 used annular sealing element 7 detects the pressure in the hydraulic unit.

The 3 shows towards the 2 a modification of the measuring element carrier 16 , the pipe section of which is shortened below the caulking, so that to form a solid, thick-walled and thus particularly rigid sensor housing base below the measuring element carrier 16 just a short blind hole 22 remains to which the pressure channel 18 as an inclined channel in the direction of the hydraulic unit 12 extends. Otherwise the structure of the pressure sensor module corresponds to 3 which to 2 given explanations.

Which of the in the 1 to 3 presented version of the pressure channel 18 used, determine, among other things, the space available and the selected hole arrangement in the hydraulic unit 12 , The pressure channels 18 lie according to the row arrangement of several measuring element carriers 16 in the sensor housing 13 usually also in a common row, whereby the pressure channels reduce the machining effort and minimize the hydraulic effective areas 18 have the smallest possible diameter, comparable to cannulas.

Based on 4 an overall overview of the arrangement of the pressure sensor module according to the invention will be given within a brake pressure control device. Therefore shows the 4 a plan view of an approximately square hydraulic unit 12 , the several, arranged in rows valve receiving bores 23 has, into which electromagnetically actuated inlet, outlet, switching and isolating valves are used. The sensor housing is therefore in the present application 13 Particularly space-saving in addition to a third row of valves Z, which have the valve mounting holes 24 for the changeover and isolating valves. The valve mounting holes 23 and the sensor housing 13 are from frame-shaped walls of an electronics housing 20 limited as a housing frame to the hydraulic unit 12 are put on. The pressure sensor module is thus between the housing frame of the electronics housing 20 and the third valve row Z by means of suitable fastening elements 5 on the hydraulic unit 12 fixed.

The pressure sensor module shown corresponds in all features essential to the invention to the embodiments according to 1 to 3 , The only difference is the selected distribution of the contact areas 9 to two electrical connectors, the housing collar 19 are easy to recognize, which can also be summarized or divided in another way as desired or required. Furthermore through the window-shaped recesses 2 in the circuit board 1 which are aligned with the measuring element carriers 16 arranged pressure sensor membranes 10 to recognize the thin wires not shown 4 with the pressure sensor electronics 11 are connected. Further details on the structure of the pressure sensor module shown can also be found in the preceding parts of the description of the figures.

Finally, the shows 5 that the circuit board 1 is adapted in terms of its outer dimensions to the frame contour, so that it as an insert in the frame contour of the sensor housing 13 fits and if required or materially or positively, for example also by means of an adhesive connection, in the sensor housing 13 can be fixed. The sensor housing 13 is by means of a above the circuit board 1 arranged housing cover 14 sealed pressure-tight, aligned to several on the circuit board 1 arranged electrical contact surfaces 9 (Contact pads) an electrical feedthrough 8th includes. The circuit board 1 thus has the contact surfaces already mentioned at the beginning, which are easy to contact due to their size 9 on that like that on the circuit board 1 are arranged so that on the implementation 8th one electric conductive and particularly simple detachable contact can be made with the electronics housing of a brake control unit.

During the assembly of the brake control unit, that is to say when the hydraulic unit having a plurality of pressure control valves and the pressure sensor module is brought together with the electronics housing, the sealing collar is removed 19 on the housing cover 14 immersed in a sealing material (eg a gel). This results in a particularly tight connection, with the oversizing of the contact points 9 In the area filled with the sealing material, problem-free electrical contacting that is independent of manufacturing tolerances, for example by means of several contact springs, is achieved.

1

circuit board

2

recess

3

constriction

4

wire

5

fastener

6

sealing

7

bore step

8th

execution

9

contact area

10

Pressure sensor diaphragm

11

Pressure Sensor Electronics

12

hydraulic unit

13

sensor housing

14

housing cover

15

recess

16

Measuring element carrier

17

connection

18

pressure channel

19

collar

20

electronics housing

21

shoulder

22

blind

23

Valve accommodating bore

Claims (7)

Pressure sensor module, in particular for electrohydraulic brake systems, with several in one sensor housing ( 13 ) arranged pressure sensors with measuring elements and pressure sensor electronics ( 11 ) are provided with several hydraulic connections on the sensor housing ( 13 ) with a hydraulic unit ( 12 ) can be connected, as well as with an electrical connection of the pressure sensor electronics ( 11 ) via a printed circuit board ( 1 ) with components of an electronics housing ( 20 ) with the hydraulic unit ( 12 ) can be connected, characterized in that the pressure sensors by means of an undetachable connection (17) in the form of self-locking in the sensor housing ( 13 ) are attached. Pressure sensor module according to claim 1, characterized in that the sensor housing ( 13 ) with several bore steps ( 7 ) is provided, the material of which is softer than the material of the pressure sensors, which tubular measuring element carriers ( 16 ) have circumferential recesses ( 25 ) into which the soft material of the sensor housing ( 13 ) is displaced to produce an insoluble connection (17). Pressure sensor module according to claim 1 or 2, characterized in that the sensor housing ( 13 ) made of a wrought aluminum alloy and each measuring element carrier required to form the pressure sensor ( 16 ) are made from free cutting steel. Pressure sensor module according to claim 1, characterized in that to absorb a caulking force in the caulking area of the non-detachable connection (17), the wall thickness of the sensor housing ( 13 ) is enlarged in the area of the permanent connection (17). Pressure sensor module according to claim 2, characterized in that the tubular measuring element carrier ( 16 ) above the inseparable connection (17) a reduced diameter housing section in the form of a shoulder ( 21 ), which is used to insert a press tool into the sensor housing ( 13 ) a sufficiently large radial distance between the inner wall of the sensor housing ( 13 ) and the outer diameter of the measuring element carrier ( 13 ) produces. Pressure sensor module according to claim 1, characterized in that to form a solid, thick-walled and thus particularly rigid base on the sensor housing ( 13 ) underneath the permanent connection (17) of the measuring element carrier ( 16 ) a short blind hole ( 22 ) remains in which the measuring element carrier ( 16 ) with a shortened pipe section in the direction of a pressure channel ( 18 ) extends. Pressure sensor module according to claim 1, characterized in that the sensor housing ( 13 ) next to a third valve row (Z) of the hydraulic unit ( 12 ) is arranged, which has several valve receiving bores ( 24 ) for changeover and isolating valves.