DE3827937A1 - Electrical measured value pick-up - Google Patents

Abstract

The new measured value pick-up consists, in a way known per se, of a measuring circuit with a sensor element, which are surrounded by a housing (2); the housing (2) is provided with a cap-like connection part (4) which accepts one end of a connection cable (5). The measuring circuit (91, 93) is connected to the connecting cable (5) in a novel way inside the housing (2) via a multi-core flexible lead piece (9). Lead piece and sensor element are on a carrying body (7), the lead piece and the cores (6) of the connecting cable projecting out of the connecting part (4) are connected directly to each other. <IMAGE>

Description

The invention is in the field of electrical measurement technology and deals with the structural design of a measurement value sensor, which consists of a housing for receiving a electrical measuring circuit and from a ver with the housing tied cap-like connector, the measuring scarf device contains a sensor element and the connecting part one End of a connecting cable. With such a measured value it can be, for example, a speed sensor, a pressure sensor, a temperature sensor and the like like recently, especially for motor vehicles be used.

As part of the further development of control strategies for engine and drive systems in motor vehicles are increasing requirements changes to the electrical interfaces of the key comm components to which the sensors (sensors) belong, ge poses. Significant progress in this area is being made by realizing the concept of so-called "intelligent Sensors "expected. With such sensors with sensor-closer Electronics are, for example, circuitry measures for temperature compensation and / or EMC-proof stabilization tion of the supply voltage and / or for signal processing in integrated the sensor (DE-Z "Electronics", March 31, 1988, page 53).

The solutions used so far for the mechanical construction of sensors are generally related to the special application. Changes in the technical boundary conditions or the measured variable to be recorded therefore make it necessary to redesign the inner sensor structure. If such sensors contain integrated electronics in the form of a printed circuit board or as a hybrid, the technology of safely contacting the sensor element and integrated electronics and connection cable - based on the design change of the sensor structure - must also be newly developed. - In a known sensor of this type, which is designed as a speed sensor, is the electrical measuring circuit, which consists of a coil with a coil body, a permanent magnet, a magnet, a flux guide and a pole piece, as well as busbars, on one in the housing arranged of the sensor centered support body, this support body protrudes with its one end into a cap-like connecting part connected to the housing; the electrical measuring circuit is electrically connected to the wire ends of the connecting cable in that the wire ends of the connecting cable are connected within the cap-like connecting part to solid wires which protrude from the connecting part and are in turn contacted with the free end of a current bar of the measuring circuit by welding (WO -OS 85/01 112).

Starting from an electrical transducer with the Merk paint the preamble of claim 1 is the Invention, the object of the transducer to give such a constructive structure that in the measured values sensor electronics can be integrated and the measured value transducer easy to manufacture, especially an automatic one Manufacturing process is accessible.

To achieve this object, the invention provides that the measuring circuit and the connecting cable over a multi-core electrical line piece are interconnected that the Support body made of a main support receiving the line section with a foot part carrying the sensor element and that one end of the line section directly with the wire ends of the Connection cable is connected, the wires of the connection cable are embedded in the cap-like connector and from this Protrude connector.  

With such a modular structure of the transducer, the multi-core electrical line piece forms on the one hand a common substrate for the respective sensor element and the components of the optionally integrated electronics and on the other hand a homogeneous connecting piece between the sensor element and the optionally integrated electronics and the connecting cable. As a result, the number of electrical contacts required is reduced to a minimum, which solves the contacting problems that usually occur. This is associated with a reduction in assembly errors and wear failures. Furthermore, the measuring transducer designed in this way is easy to produce owing to its modular structure and - with the same internal structure - can easily be adapted to different applications. Another advantage of the new transducer can be seen in the fact that during the manufacture of the transducer all manufacturing steps and all functionally important tests of the assemblies can be carried out mechanically and - with the exception of final acceptance - without hindrance by the connecting cable.

In a development of the invention it is provided that the line piece, which includes the measuring circuit and the connecting cable other connects, is flexible and that for fixation of the line piece on the main carrier of the support body with one the foot part adjoining gutter is provided and one in the Has channel insertable clamping piece; to fix the Line piece on the support body is provided that the flexible line piece with a supporting the sensor element Section on the foot part of the main located in the housing attached carrier and on a piece of its remaining length in the gutter of the main beam is clamped by means of the clamping piece is. Due to the special shape of the support body, this can flexible line piece, which is, for example, a multi-core flat cable but also by several parallel to each other the arranged single wires can act through a simple Snap mounting of main carrier and clamping piece on the supporting body  be attached.

In the manufacture of the transducer, the made of flexible cable with sensor element and measuring circuit and the mounting body existing assembly unit in a simple manner by pressing or by pushing in and casting in the Housing of the transducer can be arranged. Here comes especially in the area of the foot part of the main beam Potting the housing with a potting compound into consideration.

In a further development of the invention comes as a flexible, multi-address ges line piece in particular a flexible, strip-shaped PCB into consideration. Such circuit boards are in themselves known (DE-Z "Markt und Technik", August 8, 1986, page 87, right Half) and with regard to the course of the conductor tracks, which individual wires represent varies widely and thus adapted to the different applications will. On such a flexible circuit board, both the respective sensor element as well as the one before electronic circuit to be arranged and it serves at the same time to compensate for thermal mismatches between the internal structure of the sensor and the outer housing. The Randbe can also be used expediently rich flexible PCB with a perforation ver be seen, for example in 8 mm film pitch, which makes the manufacture of the transducer a continuous automa Transport of this assembly between the assembly machines and the functional test benches up to the final assembly is possible. In addition, perforations can be punched out the required angular positioning and assembly of the flexible circuit board on the plastic carrier, by using the cut-outs as bases for thermal rivets be det. This eliminates time-consuming adhesive connections.

The more connecting the measuring circuit and the connecting cable core electrical wire can also be in the main  Carrier of the support body to be integrated, for the manufacture of such a line piece integrated in the supporting body the known techniques for producing three-dimensional conductors circuit boards come into consideration. This is in particular re about techniques for metallizing plastic carriers and then separating the conductive surface using a laser processing in individual conductor tracks or around the technology of Metallization of certain areas of a plastic surface or about the technique of embedding conductive plastic sheets in an insulating surface.

When inserting the with the line piece, the sensor element and optionally the integrated electronics provided support body in the housing it may be necessary on the foot part to provide the main support at least one spacer, the the distance of the sensor element to the bottom surface of the measured value determined or to the case bottom. Between the distances elements can be a support element for receiving a sensor element tes or part of a sensor element. It is recommended in the sense of a simple assembly that the support element is positively connected to the spacer elements is, especially by a snap connection.

The electronic circuit possibly associated with the sensor is a further development of the invention in a one-sided open Chamber arranged within which they are separate from the rest of the construction of the sensor against mechanical stress such as Shock and vibration loads can be secured. A such chamber can be formed in particular that the main carrier of the support body in the facing away from the foot part Area has a gutter, which together with one in the The insert that can be inserted into the channel forms the chamber open on one side. Provided that part of the sensor is a flexible cable is the piece by means of a clamping piece in the groove of the Main carrier is jammed, you can also proceed that the clamping piece following the clamping point at the same time  Forming part for the chamber, in the area of which Electronic circuit arranged on the flexible line piece is. The chamber accommodating the electronic circuit can be at for example, shed or otherwise filled. - The Assignment of the electronics integrated in the sensor circuit to a multi-core electrical line piece calls for changes in the circuitry of the integrated electronics apart from a redesign of the circuit board, no further changes.

When using a flexible pipe section for connection the measuring circuit with the connecting cable and arrangement of a Electronic circuitry in the area of a chamber can make the assignment purpose of the line piece to the wire ends of the connection cable moderate that the part forming a chamber wall of the clamping piece or the molded part and the inner wall of the cap-like connecting part form a gap in which the flexible line piece to the wire ends of the connecting cable or the wire ends are led to the integrated line section. When using a flexible pipe section, the Production of the transducer the head of the stretched Condition of the pipe section protruding from the housing flexible circuit board first with the from the cap-like Outstanding free conductor ends of the connecting conduit bels contacted. In the subsequent fitting together the housing and the cap-like connecting part folds then the protruding from the housing in the stretched state flexible circuit board or the flexible line piece in the gap formed between the chamber wall and the connecting part. As a connection between the conductors of the line section and the Soldering is expediently chosen here. The Connection point between the flexible line piece and the Core ends of the connecting cable can still be in a recess a centering flange, which may be on Main carrier of the support body is provided. To protect the ver Binding point, the recess can optionally with a Sealant filled trough exist.

Two embodiments of the new transducer in the form of a speed sensor and an angle pulse generator are shown in FIGS . 1 to 4. It shows:

Fig. 1 a speed sensor in section,

Position Fig. 2 shows the same sensor in an explosive-like Dar,

Fig. 3 shows a flexible piece of line in the form of a circuit board and

Fig. 4 shows an angular pulse generator in a sectional view.

The rotational speed sensor of FIG. 1 essentially consists of a metal casing 2 with flange 3, of a cap-like connection part 4, into which the stripped end of a multi-wire connection cable 5 is embedded, and of a cylinder disposed in the housing supporting body 8 with a sensor element 91 in Form of a differential field plate and a more core line piece 9 , the wires at the free end 95 with the wire ends of the connecting cable 5 in the region of a connection point 96 are connected to each other. The metal housing 2 and the connecting part 4 are connected to one another by means of a flange of the housing opening around a corresponding connection flange of the connection part, a sealing ring 11 being arranged in the region of the flange. An elastic disk 10 is arranged between a centering flange of the support body 7 and the connecting part 4, which is not described in any more detail.

The support body 7 consists of a main support 8 with the foot part 81 and a clamping body 82 , the wall 97 of which forms a chamber 90 together with the main support 8 . In this chamber, an electronic circuit 93 is arranged on the line piece 9 and potted by means of the casting compound 94 .

On the foot part 81 of the main support 8 there is also a support body 83 on which the one end of the line piece 9 with the sensor element 91 connected thereto and a permanent magnet 92 are fixed. In the area of this support element, the housing 2 is provided with a cast resin filling 84 . - The free end 95 of the line piece 9 is guided in a gap-shaped area between the chamber wall 97 and the inner wall of the connecting part 4 to the wire ends of the connecting cable 5 .

Fig. 2 shows an exploded view of all the parts of the speed sensor according to FIG. 1 with the exception of the elastic washer 10 and the sealing ring 11 , the housing 2 with the fastening supply flange 3 and the housing base 21 , further the connection part 4 with the connecting cable 5 and the wires 6 and the main carrier 8 are each shown in a section through the longitudinal axis of the speed sensor. The figure shows the main carrier 8 , which is provided in connection with the foot part 81 with a groove 85 into which the clamping piece 82 can be inserted. For the positive connection of the main support 8 with the clamping piece, two lugs 87 are provided on the clamping piece 82 , which can snap into recesses or openings 86 in the groove 85 . Spacer elements 88 are further provided on the foot part 81 , between which a support element 83 can be inserted, the connection of the two parts also being possible by means of a snap connection, for which purpose the recess or the opening 89 is provided on the spacer element 88 . The Tragele element 83 is provided with a blind hole 98 in which the permanent magnet 92 can be used. - On the bottom surface of the blind hole 98 forming the outside of the support member 83 termon rivets 99 are further provided.

In the groove 85 of the main support 8 , the multi-core flexible line piece 9 designed as a flexible circuit board can be clamped. One end of this line section carries the sensor element 91st This end of the line piece is provided with posi tion holes 57 , at which this end is fixed to the support element 83 by means of the termi rivets 99 . - On the line piece 9 , an electronic circuit 93 is arranged, which comes to rest when the clamping piece 82 and the main support 8 are assembled in a chamber between the wall 97 and the corresponding region of the groove 85 .

Fig. 3 shows the flexible printed circuit board 9 without PHONY sensor element and no mounted electronic circuit. The circuit board has three conductor tracks 51/52 , 53 and 54/55 , some of which are interrupted approximately in the middle of the circuit board. In the middle of the circuit board additional support points 56 are provided for an electronic circuit. Furthermore, an additional support point 58 is provided at one end for the sensor element. Furthermore, the circuit board is provided with a perforation 60 on one side. The position holes 57 are used to fix one end of the circuit board to the support body of the sensor, while the holes 59 are provided at the other end of the circuit board for connection to the wire ends of the connecting cable.

The angle encoder according to Fig. 4 corresponds in its basic sätzlichen structure substantially the speed sensor of FIG. 1. A difference lies in the area of the foot part 72 of the supporting body 71 due to the use of a be per se known coil pair coupled (DE-PS 25 32 226) as a sensor element. For this purpose, a ferrite shell core 74 is provided as a supporting element, which is connected to the foot part 72 by means of a snap connection 73 . The ferrite shell core has an oscillator coil 75 and a coupling coil 76 . The foot region of the sensor is provided with a potting, the bottom of the housing 23 being open and the bottom surface 22 of the sensor being formed by the cast resin filling 77 . - The snap connector part 73 also forms the spacer for maintaining the required distance between the floor surface 22 and sensor element 74/75/76 .

Claims (11)

1. Electrical transducer, consisting of a housing for receiving an electrical measuring circuit which contains a sensor element, and a cap-like connecting part which is connected to the housing and which receives one end of a connecting cable,
in which the electrical measuring circuit is arranged on a support body centered in the housing, which protrudes with one end into the connecting part,
and in which the electrical measuring circuit is electrically connected to the wire ends of the connecting cable,
characterized in that

• a) the measuring circuit (91,93) and the connecting cable (5) are interconnected via a multi-wire electrical conductor piece (9),
• b) the support body ( 7 ) consists of a line section ( 9 ) receiving the main support ( 8 ) with a foot part ( 81 ) carrying the sensor element ( 91 ) and
• c) one end ( 95 ) of the line section ( 9 ) is connected directly to the wire ends of the connecting cable ( 5 ), the wires ( 6 ) of the connecting cable being embedded in the cap-like connecting part ( 4 ) and protruding from this connecting part.

2. Sensor according to claim 1, characterized in
that the line piece ( 9 ) is flexible,
that the main support ( 8 ) is provided with a channel ( 85 ) connected to the foot part ( 81 ) and has a clamping piece ( 82 ) which can be inserted into the channel
and that the flexible line piece ( 9 ) with a sensor element ( 91 ) supporting portion on the housing ( 2 ) located foot part ( 81 ) of the main support ( 8 ) and on a piece of its remaining length in the groove ( 85 ) of the Main carrier is clamped by means of the clamping piece ( 82 ). 3. Sensor according to claim 2, characterized in that the flexible line piece consists of a flexible, stripe-shaped circuit board ( 9 ). 4. transducer according to claim 1, characterized in that the multi-core cable section is integrated in the main carrier. 5. Transducer according to one of claims 1 to 4, characterized in that at least one spacer element ( 73 , 88 ) is provided on the foot part of the main support ( 8 ), the distance of the sensor element ( 91 ) to the bottom surface ( 22 ) of the transducer or Housing bottom ( 21 ) determined. 6. Sensor according to claim 5 with at least two spacing elements, characterized in that between the spacing elements ( 88 ) a support element ( 83 ) for receiving a sensor element or part of a sensor element ( 92 ) is arranged. 7. Sensor according to one of claims 1 to 6, characterized in that the main carrier ( 8 ) in the region facing away from the foot part has a groove ( 85 ) which, together with a mold part ( 82 ) which can be inserted into the groove, has a chamber open on one side ( 90 ) forms, in the area of which an electronic circuit ( 93 ) is arranged. 8. Sensor according to claim 7 with a clamping piece according to claim 2, characterized in that the clamping piece ( 82 ) in connection with the clamping point also forms the molded part ( 91 ) for the chamber, in the area of which the electronic circuit is arranged on the flexible line piece. 9. Sensor according to claim 7 or 8, characterized in that the chamber wall ( 91 ) forming part of the clamping piece ( 82 ) or the molded part and the inner wall of the cap-like connecting part ( 4 ) form a gap in which the flexible line piece ( 9 ) to the wire ends of the connecting cable ( 5 ) or the wire ends to the integrated line section. 10. Sensor according to claim 3 and 6 and optionally one of claims 7 to 9 in the form of a speed sensor with a field plate and a permanent magnet, characterized in that the support element ( 83 ) is cuboid and a blind hole ( 98 ) for receiving the permanent magnet ( 92 ) and that the circuit board ( 9 ) with its end carrying the field plate ( 91 ) is fixed ( 57 , 99 ) to the surface forming the bottom of the blind hole. 11. Sensor according to claim 3 and 6 and optionally according to one of claims 7 to 9 in the form of an Winkelim pulse generator with a ferrite bell core and an inner and an outer measuring winding, characterized in that the support element is formed by the ferrite bell core ( 74 ) is that the housing base in the region of the bell core has an opening which is closed with a cast resin filling ( 77 ) which also surrounds the foot part of the main carrier, the spacer elements extending to the bottom surface of the cast resin filling.