WO2008122465A1 - Connecting unit for a pressure measuring cell - Google Patents

Abstract

The invention relates to a connecting unit (10) for a pressure measuring cell (14). Said connecting unit comprises at least one plug (40) having at least one contact plate (56), substantially oriented in the axial direction of the plug (40), via which an electrical signal influenced by the pressure measuring cell (14) can be tapped. The contact plate (56) is configured in such a manner as to allow at least one axial tolerance compensation with a contact element (86) of a slide-on mating element (80), an interior of the plug (40) accommodating at least part of the circuit support (20) on which at least one circuit (24) or at least one electronic component (26) for processing at least one output signal of the pressure measuring cell (14) is arranged.

Description

 description

title

Connection unit for a pressure measuring cell

State of the art

The invention relates to a connection unit for a pressure measuring cell according to the preamble of the independent claim. Thus, a valve with integrated pressure sensor is already known from DE 10 2004 033 846 A1. The pressure sensor is integrated in the valve dome so that no further mounting and holding elements are necessary. By a

Drilling in the pole core of the valve dome, the pressure of the hydraulic fluid is transferred to the measuring diaphragm of the measuring cell. In a printed circuit board a plurality of through holes are formed, through which the electrical contacts of the pressure sensor and / or the electrical part of the valve are passed. Contacting of the pressure sensor takes place for example via bonds.

It is an object of the present invention to provide a space-saving and robust connection unit for a pressure measuring cell. This object is solved by the features of the independent claim.

Advantages of the invention

The connection unit for a pressure measuring cell according to the features of the independent claim has the advantage over the prior that the proposed connector is particularly low builds and thus no longer determining the height. This is achieved in particular by the fact that the plug is built around the pressure measuring cell or around a circuit carrier, so that the height of the pressure sensor can be fully utilized for the device plug. On the circuit board is at least one circuit or at least one electronic component for Conditioning (filtering, signal amplification or the like) of at least one output signal of the pressure measuring cell.

Furthermore, at least one contact plate is provided for contacting. This makes it advantageous to realize the necessary axial tolerance range of the connection unit. Thus, production-related tolerances due to the internal structure, settings and adjustments of the solenoid valves can be easily compensated. About the contact plate with the counterpart an electrical connection is made by sliding contact. As a result, any dirt particles are pushed aside by the contact partners when joining. This improves the electrical contact, for example, with respect to a point contact, as would be provided with spring pins on contact plate. In the abrasive type of contacting via a contact plate also a frictional corrosion of the contact is minimized.

Because the contact surfaces of the pressure sensor are arranged radially, a height-neutral contact is made possible. The transverse forces on the pressure sensor are minimized, since there are only very small relative movements of the connection unit or the receiving means of the valve coil to the pressure sensor.

In an expedient development it is provided that the plug is of a sleeve-shaped construction and the contact plate is arranged on the outside of the plug, preferably on the cylindrical outer side of the plug. This again reduces the height of the installation space, since on the one hand the inner space can be used for receiving the circuit carrier, while the counterpart of the plug encloses this for contacting from the outside.

In an expedient development it is provided that the plug has on its outer side at least one recess in which the contact plate is at least partially received. Such a design of the plug can be realized inexpensively by an injection molded part, which is also characterized by compactness and secure attachment of the contact sheets. Conveniently, the contact plate and plug can be connected together by hot caulking. In an expedient development it is provided that the contact plate comprises at least one spring tongue, which preferably has an embossing at the end. About this spring tongue, a contact or conductive adhesive point of the circuit substrate is particularly simple and - due to the spring property - securely contacted, especially at a later permanent connection by means of conductive adhesive. Appropriately, for this purpose, the plug has at least one opening through which the spring tongue is guided into the interior of the plug. This arrangement is characterized by great compactness. Furthermore, this also improves the mechanical attachment of the contact plate on the plug. Conveniently, a breakthrough or bore is provided at the top of the plug above the contact spring. About this hole, a hot stamping die could be supplied in the connection of the contact spring with the circuit carrier by means of conductive adhesive, so that a second-rapid curing of the connection is possible.

In an expedient development it is provided that the upper side of the plug is provided with at least one chamfer and / or at least one groove. The chamfer serves as a joining aid, for example when mounting an attachment control unit on a hydraulic block. Thanks to the groove, the production of the connector can be optimized because the connector can be brought using the groove, for example in a vibrator in a defined mounting position.

In an expedient development, provision is made for at least one opening to be provided on the plug, said opening having at least one latching lug of the plug

Circuit carrier interacts. This facilitates the assembly of the overall arrangement and contributes to a fixed mechanical and positionally accurate connection.

Further expedient developments emerge from further dependent claims and from the description.

drawing An embodiment of the connection unit for a pressure measuring cell is shown in the drawing and will be described in more detail below.

Show it:

1 shows a perspective view of the connection unit, consisting of plug and counterpart, arranged on a valve,

FIG. 2 is a perspective view of the plug,

FIG. 3 shows the sensor electronics covered by the plug;

FIG. 4 shows the components of the plug,

FIG. 5 shows another view of the carrier of the plug,

6 shows a first sectional view of the plug in cooperation with the pressure measuring cell,

FIG. 7 shows a sectional view of the same arrangement rotated by 90 degrees with respect to the sectional illustration according to FIG. 6;

Figure 8 is a perspective view of the connector receiving the counterpart.

An unspecified valve block, for example for controlling a brake system in a motor vehicle, has a plurality of valves 16. In each case, a pressure measuring cell 14 is arranged on these valves 16 to detect a pressure of the fluid controlled by the respective valve 16. For this purpose, a connection unit 10 is provided, which consists of a counterpart 80 and a plug 40 releasably connected therein. By the counterpart 80, an electrical contact of the pressure measuring cell 14 is made with the plug 40. The counterpart 80 is preferably aligned on the coil shell or in the alternative coil design on the coil bottom of the valve 16. alternative An orientation on the winding carrier of the valve 16 would also be possible. The counterpart 80 is connected via the contact lugs 82 with the lead frame 84 for contacting the processing electronics. Alternatively, however, it would also be possible to connect to the processing electronics via flexible cables.

In Figure 2, the plug 40 is shown in more detail. The plug 40 is preferably cylindrical or cap-shaped. In the circumferential direction of the plug 40 has four upwardly open, but closed to the inside preferably rectangular recesses 55, which serve to accommodate the geometry of the recess 55 matched contact plates 56. These contact plates 56 are subsequently pushed onto the plug 40 and secured by hot caulking 58.

The plug 40 is arranged above a circuit carrier 20. The substantially square-shaped circuit carrier 20 is equipped, for example, with an integrated circuit 24 and electronic components 26. The integrated circuit 24 and the electronic components 26 are electrically contacted via electrical connections 27 with connection points 18 of a measuring bridge 19 of the pressure measuring cell 14. The contacting of the electrical connections 27 with the respective connection points 18 is preferably carried out by means of conductive adhesive. The output signals of the integrated circuit 24 and the electronic components 26 are supplied by electrical connections 27 four Leitkleberpunkten 30. The conductive adhesive points 30 are arranged on the upper side of the circuit carrier 20 and are separated from each other by webs 54 oriented in the axial direction. The circuit carrier 20 is embodied, for example, as an injection-molded part in so-called MID technology (Molded Interconnect Device). Opposing latching lugs 52 are located on the two side surfaces of the circuit carrier 20. These latching lugs 52 cooperate with two openings 68 of the plug 40 in order to support a position-defined connection between circuit carrier 20 and plug 40. The plug 40 is pushed onto the circuit carrier 20 until the latching lugs 52 engage in the openings 68. The inner contour of the plug 40 is matched to the outer contour of the circuit carrier 20 with circuits 24 or electronic components 26 arranged thereon. Thus recesses 74 are provided in the plug 40 for receiving the webs 54 of the circuit substrate 20. Furthermore, an inner groove 76 is provided in each case in the interior of the carrier 50 for receiving the side surfaces of the circuit carrier 20. A recess 76 creates additional space for the components 26 or integrated circuit 24 arranged on the circuit carrier 20.

The contact plate 56, which is matched to the recess 55, has in the upper, middle section a relation to the substantially rectangular, curved contact surface by 90 ° bent spring tongue 60 with an embossing 62 at the end. The geometry of the spring tongue 60 with embossing 62 is designed so that the embossing 62 rests on the associated Leitkleberpunkt 30 in the mounted state. The webs 54 of the circuit substrate 20 prevent corresponding short circuits in Leitkleberverarbeitung. The contact tongues 56 between the circuit board 20 and connector 40 can be additionally glued with conductive adhesive and with a hot stamping punch through the located at the top of the carrier 50 holes 65 of the Plug 40 can be cured quickly. Via the upper openings 70 on the plug 40, the spring tongues 60 reach the interior of the plug 40. The plug 40 furthermore has two parallel grooves 66 on its surface. The chamfer 64, which runs around at the upper outer edge of the plug 40, serves as a joining aid when an attachment control device is mounted on the hydraulic block, the components of which are the valves 16. When mounting, the relatively sharp-edged solenoid coil in the attachment control unit must first be pushed over the pressure sensor.

FIG. 6 shows the interaction between plug 40 and circuit carrier 20 even more precisely. The spring tongues 60 pass over the upper opening 70 in the plug 40 to the conductive adhesive point 30 to be contacted. The electrical contact between the contact sheet 56 and the conductive adhesive point 30 is produced by conductive adhesive. Above the Leitkleberpunkt 30 is the bore 65th arranged. The recess 76 provides sufficient space for the electronic components 26 and the integrated circuit 24. The circuit carrier 20 is mechanically and electrically connected to the pressure measuring cell 14. As a result, the electrical signals of the measuring bridge 19 are forwarded via the electrical connections 27 to the respective electronic components 26 or integrated circuits 24 and their output signals to the conductive adhesive points 30. The voltage applied to the Leitkleberpunkten 30 electrical signals can be tapped on the contact plates 56.

FIG. 7 also shows how the latching lugs 52 of the circuit carrier 20 interact with the apertures 68.

In conjunction with Figure 8, the counterpart 80 is explained in detail. The counterpart 80 is designed sleeve-shaped, wherein the inner contour is designed substantially cylinder-shaped. The outer contour of the counterpart 80 has an octagonal structure. Each second of the octagonal outer surface of the counterpart 80 has a recess 87 which terminates laterally in the axial direction in two opposite guide slots 88. Recesses 87 and associated guide slots 88 serve to receive a respective contact lug 82. The upper portion of the contact lug 82 is received by the guide slots 88. In this upper area, inner contact springs 84 are provided, which cooperate with the contact plates 56 of the plug 40. The width of the contact lug 82 decreases toward the end of the upper region, is bent by 90 ° and projects outward in the radial direction. The end of the outwardly projecting radial portion of the

Contact lug 82 is angled at the end laterally by 90 ° upwards. The laterally angled upward regions of the contact lugs 82 serve as connection points for the coil punched grid 84, which is also bent at the desired connection points by 90 ° upwards. Towards the bottom, the counterpart 80 is closed by a bearing surface 83. Openings for fastening the receiving means 80 to the valve 60 can be provided in the bearing surface 83. The pressure measuring cell 14 is positioned on the pole core of the valve 16. The valve 16 may be part of a hydraulic block, which in turn is part of a brake system of a motor vehicle. This arrangement can be used, in particular, in the case of antilock braking systems or electronic stability systems. The pressure measuring cell 14 has a measuring bridge 19, which is based on the

Expansion of a membrane, the pressure of the fluid in the valve 16 detected. Measuring bridge 19 or pressure measuring cell 14 have, for example, four electrical connection points 18. The electrical signals present at the connection points 18 must be tapped off and processed in a particularly compact form in order to supply them to further processing control devices.

In addition to a high degree of miniaturization, the connection unit 10 must also meet high tolerance requirements (primarily with regard to the length and obliquity of the valve 16). Furthermore, the fretting corrosion of the electrical contact should be minimized. By integrating the pressure measuring cell 14 on the valve 16, the separability of the additional controller is achieved by the pump housing. In order to achieve a minimization of the tolerances, the counterpart 80 on the valve spool, preferably on the coil shell or in alternative coil design on the coil bottom. Alternatively, the counterpart 80 could also be aligned on the winding carrier. Furthermore, the counterpart 80 could also be designed as a cap, d. H. it could also be done up close.

The contacting of the contact lugs 82 for further processing electronics (for example, the control unit) via the coil punching grid 84. A possibly necessary tolerance compensation can be additionally provided via a meandering 85 in the coil punching grid 84. Alternatively, however, a connection through flexible cables would be possible.

The inner diameter of the counterpart 80 is dimensioned such that the pressure measuring cell 14 or measuring bridge 19 and circuit carriers arranged thereon

20 is enclosed. Furthermore, the substantially cylindrical inner diameter of the counterpart 80 is used to receive the plug 40. The device plug 40 with mounted contact plates 56 is brought into engagement with the side surfaces of the circuit carrier 20 via the inner groove 66 until the two latching plates engage. sen 52 of the circuit substrate 20 in the openings 68 of the plug 40 engage. In the recesses 74, the webs 54 of the circuit substrate 20 find space and thereby prevent a short circuit between the Leitkleberpunkten 30 in the contacting of the electrical connections 27 with the respective Leitkleberpunkten 30 by conductive adhesive, such as silver conductive adhesive. Spring tongues 60 with embossings 62 of the contact plates 56 press resiliently onto the circuit carrier 20. The contact surface 56 between the circuit carrier 20 and plug 40 can be additionally glued with conductive adhesive and cured with a hot stamping die through the bore 65 of the plug 40. In order to perform the plug 40 directed to the assembly, are on the

Top provided the two grooves 66. The plug 40 can thereby take targeted in the vibrator to a desired, defined position (mounting position).

Plug 40 and counterpart 80 are connected to each other by the plug 40 passes into the interior of the receiving means 80. When joining rubs the

Contact lug 84 on the landing surface of the contact plate 56 and thus allows better contact, since any particles present in this area are stripped and not trapped. In the assembled state is now a contact between the pressure measuring cell 14 and via the electrical connections 27, optionally electronic components 26 and integrated circuit 24 via the Leitkleberpunkte 30, the embossments 62 of the spring tongues 60, contact plates 56, contact springs 84 of the terminal lugs 82 - with coil punched grid 84 and possibly reaches a further processing control unit.

Claims

claims 1. connection unit (10) for a pressure measuring cell (14) comprising at least one plug (40) having at least one substantially in the axial direction of the plug (40) oriented contact plate (56), via at least one of the pressure measuring cell (14) influenced electrical signal can be tapped, wherein the contact plate (56) is formed so that at least an axial tolerance compensation with a contact means (86) of a slide-on counterpart (80) is possible, wherein an interior of the plug (40) at least partially Receiving a circuit carrier (20) is used, on which at least one circuit (24) or at least one electronic component (26) for processing at least one output signal of the pressure measuring cell (14) is arranged. 2. Apparatus according to claim 1, that the plug (40) is constructed sleeve-shaped and the contact plate (56) on the outside of the plug (40), preferably on the cylindrical outer side of the plug (40) is arranged. 3. Device according to one of the preceding claims, characterized in that the plug (40) on its outer side at least one recess (55), in which the contact plate (56) is at least partially accommodated. 4. Device according to one of the preceding claims, characterized in that the contact plate (56) with the plug (40) by hot caulking (58) is connected. 5. Device according to one of the preceding claims, characterized in that the contact plate (56) has at least one spring tongue (60). 6. Device according to one of the preceding claims, characterized in that the plug (40) has at least one opening (70) through which the spring tongue (60) is guided into the interior of the plug (40). 7. Device according to one of the preceding claims, characterized in that the upper side of the plug (40) with at least one chamfer (64) and / or at least one groove (66) is provided. 8. Device according to one of the preceding claims, characterized in that in the interior of the plug (40) at least one inner groove (66) is provided for receiving the circuit carrier (20). 9. Device according to one of the preceding claims, characterized in that on the plug (40) at least one opening (68) is provided, which cooperates with at least one latching lug (52) of the circuit carrier (20). 10. Device according to one of the preceding claims, characterized in that in the interior of the plug (40) at least one recess (74) is provided for receiving at least one web (54) of the circuit carrier (20). 11. Device according to one of the preceding claims, characterized in that at least one recess (76) in the interior of the plug (40) is provided, the receiving at least one circuit (24) and / or an electronic component (26), the on the circuit carrier (20) are arranged, serves. 12. Device according to one of the preceding claims, characterized in that at least one recess or an opening (70) on the Outside of the plug (40) is provided for fastening the contact plate (56). 13. Device according to one of the preceding claims, characterized in that at least one opening or bore (65) on the top of the plug (40) above the contact spring (62) is arranged. 14. Device according to one of the preceding claims, characterized in that a counterpart (80) is provided with at least one contact means (86) which is electrically conductively contactable with the contact plate (56) of the plug (60). 15. Device according to one of the preceding claims, characterized in that the contact means of the counterpart (80) at least one contact spring (84). 16. Device according to one of the preceding claims, characterized in that the contact means of the counterpart (80) is designed as a contact lug (82), which is at least partially oriented in the radial direction. 17. Device according to one of the preceding claims, characterized in that the counterpart (80) is formed substantially sleeve-shaped, wherein the counterpart (80) at least partially surrounds the plug (40).