DE10322452A1 - Pressure sensor module, especially for electrohydraulic motor vehicle braking systems, has sealing plate aligned with hydraulic unit by shape connection arrangement of sensor housing - Google Patents

Abstract

The device has several pressure sensors in a sensor housing (13), several hydraulic connections on the housing for connection to a hydraulic unit (12) with a force connection element (6) and a sealing plate (3) between a flange surface of the sensor housing and a connection surface of the hydraulic unit. The sealing plate is aligned with the hydraulic unit by a shape connection arrangement of the sensor housing.

Description

The invention relates to a pressure sensor module, in particular for one electro-hydraulic motor vehicle brake system, according to the preamble of claim 1.

From the EP 1 228 936 A1 a pressure sensor module for an electrohydraulic motor vehicle brake system is already known, the sensor housing of which is sealed to a hydraulic unit by means of a sealing plate. The sealing plate is provided with through-openings, which must be precisely aligned to receive retaining screws and for hydraulic connection to the hydraulic unit.

Therefore, it is the object of the invention to create a pressure sensor module that is easy and precise under Align the intermediate arrangement of a sealing plate on a hydraulic unit leaves.

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

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

Show it:

1a 1 shows a schematic sectional drawing of the pressure sensor module in connection with a hydraulic unit in longitudinal section with an arrangement of the sealing plate according to the proposed invention,

1b a cross section of the sensor housing and the hydraulic unit along the in 1a left-hand friction element,

1c an enlarged section along the in 1a Sectional plane AA shown through the sensor housing and through the hydraulic unit in the area of the right-hand adhesion element,

1d an enlarged section of the sensor housing along the in 1a shown section plane BB in the area of the right adhesion element.

The 1a shows a pressure sensor module for an electro-hydraulic brake system, with several in a rectangular sensor housing 13 arranged mounting holes 11 for pressure sensors as well as with several hydraulic connections 14 on the sensor housing 13 , each with one at the end of the sensor housing 13 arranged adhesion element 6 with a hydraulic unit 12 connected is. The hydraulic unit 12 is also designed as a rectangular housing made up of several pressure channels 15 is penetrated, to several pressure modulation valves inserted into the housing and to the connections 14 to lead. Between a flat flange surface 9 of the sensor housing 13 and a flat connection surface 10 the hydraulic unit 12 there is a sealing plate 3 which according to the basic idea of the invention by means of a positive locking means an exact alignment of the sensor housing 13 to the hydraulic unit 12 allows. Through the positive connection of the sealing plate 3 with the hydraulic unit 12 and the sensor housing 13 is achieved that both the sensor housing 13 as well as the hydraulic unit 12 are positioned exactly to each other. According to the invention, the sealing plate takes over 3 in addition to a sealing function, the function of a feather key.

The design of the form-fitting means as a first, groove-shaped recess proves to be an advantageous construction 1 along the flange surface 9 in which the sealing plate 3 is precisely fitted, so that it is at least in sections along its outer edge, ie along its long side, in the recess 1 is led. The depth of the recess 1 is chosen slightly smaller than the thickness of the sealing plate 3 so that the rectangular sealing plate 3 for guidance and sealing purposes with its outer edge slightly on the flange surface 9 survives.

As analogous to the first recess 1 also on the connection surface 10 the hydraulic unit 12 a second groove-shaped recess 2 is provided as a positive locking means, it is possible to use the sealing plate 3 in the manner of a feather key in the second recess 2 to intervene so that this also with their on the flange surface 9 protruding outer edge fits perfectly into the connection surface 10 fits.

The depth dimension of the two recesses 1 . 2 is therefore always chosen to be slightly smaller than the thickness of the sealing plate 3 to align the sensor housing 13 and hydraulic unit 12 as well as for sealing the required contact pressure of the frictional connection elements 6 on the sealing plate 3 can be transferred.

A sleeve is another form-locking device 4 to apply in one of the two for the frictional engagement elements 6 provided holes 5 in the connection area 10 is used without play. The holes 5 are at both ends of the pad 10 as threaded holes for receiving the screw-shaped friction locking elements 6 educated.

The sleeve 4 extends through a hole 7 in the sealing plate 3 into one in the flange surface 9 of the sensor housing 13 provided through hole 8th , which are used to hold a force-locking element 6 at the right end of the sensor housing 13 is arranged. These are for self-centering hole 7 in the sealing plate 3 and the through hole 8th in the sensor housing 13 designed as elongated holes, the openings of which are transverse to the longitudinal axis of the sealing plate 3 are dimensioned larger than in the direction of the longitudinal axis. For easy alignment of the sealing plate 3 points the hole 7 in the sealing plate 3 and the through hole 8th in the direction of the longitudinal axis of the sealing plate 3 a transition fit. The between the connections 14 and the pressure channels 15 located openings 16 in the sealing plate 3 are chosen so large that an unimpeded propagation of pressure is always guaranteed, even taking into account manufacturing tolerances.

The 1b shows a cross section of the sensor housing 13 and the hydraulic unit 12 along the in 1a left-hand friction element 6 , Based on the description too 1a should in 1b the groove or basin shape of both recesses 1 . 2 be clarified so that the sealing plate 3 on both long sides between the narrow base of the sensor housing 13 and the preferably milled connection surface 10 is bordered. The helical friction element 6 penetrates the hole with play 7 in the sealing plate 3 in the middle and is under the prestressing force required for sealing.

The 1c refers to an enlarged section along the in 1a shown section plane AA through the sensor housing 13 and through the hydraulic unit 12 in the area of the right adhesion element 6 , Based on the description too 1a should in 1c the arrangement of the sleeve 4 in the hole 5 be made clear. The sleeve 4 is preferably designed as a thin-walled deep-drawn part, the outer surface of which has a precise fit. The sleeve 4 is by means of a light press fit in the stepped bore 5 the hydraulic unit 12 attached. The sleeve 4 stands for centering the sealing plate 3 in the hole 7 and for centering the sensor housing 13 in the stepped through hole 8th slightly on the connection surface 10 out. The through hole is for centering 8th and the hole 7 in the longitudinal direction of the sealing plate 3 with a slight sliding fit, while extending transversely between the sleeve 4 and the through hole 8th or the hole 7 there is a sufficiently large game that an alignment of the sensor housing 13 and the sealing plate 3 in the out 1d obvious way.

The 1d shows an enlarged section of the sensor housing 13 along the in 1a shown section plane BB in the area of the right adhesion element 6 , The cut circular cross-section of the helical friction-locking element can be seen 6 and the cut ring cross section of the sleeve 4 through which the adhesion element 6 extends. According to the illustration, it is located above and below between the cut sleeve 4 and the sensor housing 13 a crescent-shaped gap through the through hole designed as an elongated hole 8th comes about. The crescent-shaped gap advantageously enables transverse displacement of the sensor housing 13 opposite the sleeve 4 for the purpose of automatically aligning the pressure sensor module on the hydraulic unit 12 ,

The proposed invention simplifies the centering of the sealing plate 3 and the sensor housing 13 on the hydraulic unit 12 guaranteed by the recesses 1 . 2 and the sleeve 4 Guide surfaces are available on which the sealing plate 3 and the sensor housing 13 can align itself to the hydraulic unit.

1

recess

2

recess

3

sealing plate

4

shell

5

drilling

6

Positive connection element

7

hole

8th

Through Hole

9

flange

10

terminal area

11

location hole

12

hydraulic unit

13

sensor housing

14

connection

15

pressure channel

16

opening

Claims (7)

Pressure sensor module, in particular for electro-hydraulic motor vehicle brake systems, with several in one sensor housing ( 13 ) arranged pressure sensors, with several hydraulic connections on the sensor housing ( 13 ) by means of a force-locking element ( 6 ) with a hydraulic unit ( 12 ) can be connected, as well as with a sealing plate ( 3 ) between a flange surface ( 9 ) of the sensor housing ( 13 ) and a connection surface ( 10 ) the hydraulic unit ( 12 ), characterized in that the sealing plate ( 3 ) the sensor housing ( 13 ) on the hydraulic unit ( 12 ) aligns. Pressure sensor module according to claim 1, characterized in that the positive locking means through a first recess ( 1 ) on the flange surface ( 9 ) is formed in which the sealing plate ( 3 ) is guided at least in sections along its outer edge. Pressure sensor module according to claim 1 or 2, characterized in that the positive locking means through a second recess ( 2 ) on the connection surface ( 10 ) is formed in which the sealing plate ( 3 ) is guided at least in sections along its outer edge. Pressure sensor module according to claim 1, characterized in that the positive locking means through a sleeve ( 4 ) which is formed in at least one of several bores ( 5 ) in the connection area ( 10 ) is used without play, which at one of the two ends of the connection surface ( 10 ) as threaded holes to accommodate several screw-shaped friction locking elements ( 6 ) are provided. Pressure sensor module according to claim 4, characterized in that the sleeve ( 4 ) through a hole ( 7 ) in the sealing plate ( 3 ) in a through hole ( 8th ) in the flange surface ( 9 ) of the sensor housing ( 13 ) extends to accommodate the force-locking element ( 6 ) at one end of the sensor housing ( 13 ) is provided. Pressure sensor module according to claim 5, characterized in that the hole ( 7 ) in the sealing plate ( 3 ) and the through hole ( 8th ) are designed as elongated holes, the openings of which are transverse to the longitudinal axis of the sealing plate ( 3 ) are larger than in the direction of the longitudinal axis. Pressure sensor module according to claim 1, characterized in that the hole ( 7 ) in the sealing plate ( 3 ) and the through hole ( 8th ) in the direction of the longitudinal axis of the sealing plate ( 3 ) to align the sealing plate ( 3 ) have a transition fit in the longitudinal direction.