DE10228428A1 - Sensor, in particular magnetic field sensor, and method for producing a sensor - Google Patents

Abstract

Sensor (10) for contactless detection of a movement-related measured value of a part that can be moved past the sensor, in particular a magnetic field sensor, in which a rotational speed, a speed, a rotational position or the like can be sensed via a magnetic field that is passed, and a method for producing such a sensor (10) , with an electronic sensor body (1) which is accommodated and fastened in a plastic housing (2), the plastic housing (2) having a wall section (3) of reduced wall thickness, which is reinforced by an injected sheet metal part (4).

Description

The invention relates to a sensor, in particular a magnetic field sensor for contactless detection of a movement-related measured value between a fixed and a moving part to record a speed, a speed, a rotary position or the like with a housing and one housed in the housing sensor body and a method for producing such a sensor.

The housing of such sensors usually consists from a pot-like housing made of plastic, which is used for precise positioning and fastening of the sensor body on its inner wall with protrusions and ribs is provided. Opposite to an opening of the housing to introduce of the sensor body there is a case bottom, which in the installed state in the direction of the component to be scanned is directed. On the one hand, there is a conflict between a sufficient wall thickness of the housing to ensure dimensional stability, tightness and to ensure the safe protection of the sensor body, and on the other hand one if possible thin wall to the non-contact Acquisition of the signals from the outside to ensure forth. It has been found in known sensors that there is a limit to the wall thickness a plastic housing for such Sensors at about 0.3-0.4 mm because this is the limit for is an injection molded part, which in terms of strength, geometry and tightness for the requirements of such a sensor are still sufficient.

Furthermore, sensors are known which use a metal pot instead of a plastic housing finds in which the sensor body is inserted, via a O-ring sealed and fixed by rolling. adversely here is that there are no internal contours in a metal pot as the housing are on which the sensor body can be precisely positioned and attached.

In contrast, it is the task of the present Invention, a sensor and a method for its production to provide which is a housing has in terms of the attachment of the sensor body in the housing and in terms of sensitivity of the sensor is optimized even with weak signals.

This object is achieved according to the invention solved, that the sensor has a plastic housing for mounting and mounting of the sensor body has in its interior, the housing reducing a wall section Has wall thickness, which is reinforced by an injected sheet metal part. The wall thickness of the wall section of reduced wall thickness is reduced in relation to the remaining wall sections of the housing. In particular, the Wall thickness of this section is reduced below a value with injection molding technology made of plastic material is still feasible without loss in terms of stability and strength of the housing wall. Due to the injected sheet metal part in the wall section, this can the thickness of the latter can be reduced to a value below otherwise with an injection molding possible value from plastic of wall thicknesses for such housing parts. The with the sensor according to the invention detectable signals can thus weaker be than in sensors with plastic housings without an injected according to the invention Sheet metal part. This has the advantage in particular with magnetic field sensors that weaker Magnets can be used the size of the sensor is reducible, or that the security reserves regarding the detection bandwidth of the sensor can be increased. Still points the sensor according to the invention the advantage that on the inner wall of the housing variable geometries z. B. through the injection mold can be provided for a exact positioning and fastening of the sensor body. For example, plastic protrusions on the Inner wall of the housing be provided, for example, via laser welding secure attachment of the sensor body allow.

According to an advantageous embodiment the invention is the housing the sensor a pot-like receptacle and the wall section of reduced wall thickness the bottom of the case. The housing the sensor can be manufactured in a single injection molding process and does not require assembling and joining together several housing parts.

After another advantageous one Embodiment of the invention, the housing has an inner contour with fastening ribs on which the sensor body can be attached by laser processing. As a result, the sensor body is included its sensitive component if possible Can be positioned close to the moving part and yet always very precisely in its position in the housing established. This can create an air gap between the sensor and the movable part, from which it receives the signal, be larger than it with previous sensors possible was because the measurement accuracy and sensitivity is increased.

According to a further advantageous embodiment of the invention, the cast-in sheet metal part in the wall section of reduced wall thickness is a deep-drawn sheet metal with a raised edge and lateral beads or flats as a safeguard against twisting. The sheet metal part is preferably made of a non-magnetic metal material, which prevents magnetization, so that a sensor signal, especially in Sen sensors that work via the detection of a magnetic field are not falsified. The raised edge region of the sheet metal part has the advantage that the sheet metal part is well embedded and held at its edges when the plastic of the plastic housing is injected or encapsulated. The beads or flattenings of the plate-shaped or tray-shaped sheet metal part have the advantage that, on the one hand, the stability against bending is increased, and, on the other hand, twisting of the sheet metal part in relation to the pot base is avoided. Overall, the use of metal as a reinforcing part of the pot base has the advantage that the smallest possible thickness can be realized and that the base of the housing is more stable and more dense. In the case of magnetic field sensors, a smaller magnet can thus be used or a larger air gap between the sensor and the movable part to be scanned is possible. The wall thickness of the section of reduced wall thickness of the housing is preferably of the order of magnitude of approximately 0.1 mm, whereas the minimum wall thicknesses of such components which can be achieved by injection molding from plastic are of the order of magnitude of 0.3-0.4 mm.

The task is also completed by the inventive method for Manufacture of a sensor in accordance with the Claim 6 specified features solved. The procedure is particular advantageous in that only one additional Working step, namely corresponding to the deep drawing of a molded part made of thin-walled sheet metal the shape of a wall section of the housing, a sensor with improved Scanning properties can be produced while maintaining it the advantages of a plastic housing regarding the attachment of the sensor body by means of ribs and laser welding or the like. Due to the reduced wall thickness of the wall section, in which the molding during injection molding of the housing for reinforcement deformation or poor stability of the housing is equally avoided, as well as damage of the inside of the case arranged sensor body is effectively avoided by the tightness of the sheet metal part. It can smaller magnets are used in magnetic field sensors, whereby the overall cost of the sensor is reduced. The tolerances a thin-walled sheet metal part are also much smaller than with a plastic floor the technique of injection molding is realizable, so that the positioning of the sensor body still more precise accomplished can be.

The method according to the invention is advantageous a non-magnetic metal sheet used with a thickness in of the order of magnitude of about 0.1 mm. This is influencing or falsifications of the sampled signal due to magnetic charging of the sheet metal part avoided, so that the sensor accuracy, especially with magnetic field sensors is high.

Further advantages, advantageous configurations and details of the invention are the following description in which the invention based on the in the drawing illustrated embodiment described in more detail and explained is.

The drawing shows:

1a a side view in section of an embodiment of a sensor according to the invention;

1b a plan view of the sensor according to the in 1a illustrated embodiment of the invention;

2a a detailed view of the deep-drawn sheet metal part for reinforcing the wall section of the housing of the sensor from the 1a and 1b ; and

2 B a detailed view of the deep-drawn sheet metal part 2a ,

In the 1a and 1b An embodiment of a sensor according to the invention is shown. A sensor body 1 , which is for example a sensor body of a magnetic field sensor, is in a housing 2 of the sensor 10 recorded and attached. The sensor 10 is, for example, a magnetic field sensor which detects a rotary movement of a in the scanning direction S (see arrow S in 1a ) located part (not shown) can be scanned by detecting a magnetic field. The sensor body 1 is in the housing 2 of the sensor 10 with its sensor front towards a wall section 3 of the housing 2 aligned, which has a smaller wall thickness than the side walls of the housing 2 , The wall section 3 with reduced wall thickness consists of a deep-drawn sheet metal part 4 , which is when the housing is injection molded 2 was inserted and cast. This results in the wall section 3 a very small wall thickness of about 0.1 mm maximum, whereas the side. Walls of the housing 2 must have a wall thickness of at least 0.3-0.4 mm due to stability, tightness and technology criteria of injection molding. As a result, the sensor can be arranged at a greater distance from the moving part to be scanned, since the reduced wall thickness enables good scanning behavior even with weaker signals. In 1b the sensor is off 1a shown in a top view. The deep-drawn sheet metal part 4 which is in the housing 2 is injected, therefore has the shape of a tray, which has raised lateral edges 5 having.

The deep-drawn sheet metal part 4 is in detail in the 2a and 2 B shown. Here are the raised edges 5 of the deep-drawn sheet metal part 4 shown, which as a reinforcing insert on the wall section of reduced wall thickness of the housing it serves. The raised edges 5 of the sheet metal part 4 enable a good and safe fastening or injection of the sheet metal part in the rest of the housing 2 , Furthermore. has the sheet metal part 4 three flats on its outer circumference 6 on - as in 2a apparent - which serve to twist the sheet metal part 4 to avoid when manufacturing the sensor housing. Furthermore, the sheet metal part 4 Beads z. B. have at its edge (not shown in the figures) to further increase its stability against bending.

All features shown in the description, the following claims and the drawing can be essential to the invention both individually and in any combination with one another.

Claims (8)

Sensor ( 10 ) for the contactless detection of a movement-related measured value of a part that can be moved past the sensor, in particular a magnetic field sensor, in which a rotational speed, a speed, a rotational position or the like can be scanned by means of a magnetic field that is passed, with an electronic sensor body ( 1 ), which is in a plastic housing ( 2 ) is received and fastened, characterized in that the plastic housing ( 2 ) a wall section ( 3 ) reduced wall thickness, which is caused by an injected sheet metal part ( 4 ) is reinforced. Sensor ( 10 ) according to claim 1, characterized in that the housing ( 2 ) a pot-like receptacle and the wall section ( 3 ) reduced wall thickness is the bottom of the receptacle. Sensor ( 10 ) according to claim 2 or 3, characterized in that the housing ( 2 ) has an inner contour with fastening ribs to which the sensor body can be fastened by laser processing. Sensor ( 10 ) according to one of the preceding claims, characterized in that the sheet metal part ( 4 ) a deep-drawn sheet is with a raised edge ( 5 ) and side beads and / or flats ( 6 ). Sensor ( 10 ) according to one of the preceding claims, characterized in that the sheet metal part ( 4 ) is made of a non-magnetic metal material. Method of manufacturing a sensor ( 10 ) with a plastic housing ( 2 ) to accommodate an electronic sensor body ( 1 ), in particular a sensor body of a magnetic field sensor, characterized by deep-drawing a molded part made of thin-walled sheet metal corresponding to the shape of a wall section ( 3 ) of the housing ( 2 ) and injection molding the housing while inserting the molded part so that a wall section ( 3 ) the wall thickness at the point of the molded part is smaller than the wall thickness of the other sections of the plastic housing ( 2 ). A method according to claim 6, characterized by using a non-magnetic metal sheet with a thickness in the order of magnitude of about 0.1 mm. A method according to claim 6 or 7, characterized by attaching the sensor body ( 1 ) inside the housing ( 2 ) using fastening ribs and laser welding.