DE4119316C1 - Electrical switch with multipart housing - has dividing wall providing two chambers for two permanent magnets and Hall component in one - Google Patents

Abstract

The housing is of magnetically ineffective material with a Hall switch package (5) mounted inside it controlled by an activating element (6) and having tow permanent magnets (3, 4) of the same polarity on both sides of it. The first permanent magnet is in contact with the adjustable activating element and the second, acting as a balancing magnet, is fitted into the housing, and its position from the Hall switch package is adjustable. In the upper part (1) of the housing two chambers (8, 10) are separated by a partition. The first permanent magnet is held close to this partition (9) in the first chamber, while in the chamber the Hall switch package is fitted between the second permanent magnet and the partition so that its upper side lies against the partition and its under side is supported by a damping element (35) on the magnet. The other chamber is closed by the lower part (2) of the housing. USE/ADVANTAGE - Mechanical activating element is separated from electrical components switch, reducing hysteresis effects. Suitable for use on motor vehicles.

Description

The present invention is based on one according to the preamble of the main claim designed electrical switches.

Such electrical switches are intended for one electrical circuit with the lowest possible switching hysteresis switch on or off exactly. Such electrical switches are z. B. for the most diverse functional areas in Motor vehicles provided. These are used here electrical switch z. B. as a brake light switch, Gear switch etc.

DE 33 33 497 A1 is a preamble of the Main claim corresponding electrical switch known. The two permanent magnets are in one multi-part housing arranged and lie with the poles with the same polarization at a distance across from. Between these poles is the two permanent magnets a Hall switch module arranged. The first permanent magnet is attached to the actuator of the switch and the second permanent magnet is adjustable on the housing. The  Distance between the second permanent magnet and the Hall Switch module is in this electrical switch via adjusting means designed as an adjusting screw, wherein the second permanent magnet is fixed directly on the set screw is. In such an electrical switch are both the permanent magnets and the Hall Switch module and its holding means in total Housing exposed to prevailing environmental conditions. At aggressive environmental conditions can therefore result in in particular the Hall switch module and its holding means be impaired in their functionality. This can ultimately lead to the failure of the electrical switch.

In addition, DE 33 37 122 C2 is an electric one Switch became known, which consists of a longitudinally adjustable in the Housing upper part held, designed as a push button Actuator, as well as an arranged in the lower housing part, formed from a so-called switch mat movable Switching element and one held on the lower housing part Insulated plate arranged immobile switching element consists. The switching elements are different Electrode layers formed. By dividing the housing into an upper housing part and a lower housing part and the Arrangement of the safety mat and the actuator is created a spatial separation of actuator and switching elements.

The object of the invention is to keep one as small as possible Switch hysteresis switch of the aforementioned Kind in such a way that the mechanical Actuators from electrical / electronic Components of the switch are spatially separated.

This task is carried out in the characterizing part of the Main claim specified features solved. Such a electrical switch is particularly advantageous because it has only a few mechanically operated components and therefore  works particularly wear-free. It is therefore an electrical one Switch emerged, the reliably high Position change numbers reached. It is ensured that the switching hysteresis of the electrical switch even at high Position change numbers remain low because of the Once the distance between the second permanent magnet has been set and the Hall switch module not even due to rough operation can be changed.

Further advantageous embodiments of the invention Subject matter are specified in the subclaims and are based on one shown in the drawing Embodiment explained in more detail.

As can be seen from the drawing, such an electrical switch has an essentially rotationally symmetrical housing consisting of a housing part 1 designed as an upper housing part and a further housing part 2 designed as a lower housing part, in which a first permanent magnet 3 and a second permanent magnet 4 are inserted Hall switching module 3 emitting analog or digital signals is arranged. The Hall switching module 5 can thus be designed as a so-called Hall IC or as a simple Hall switching element. The first permanent magnet 3 is associated with an actuating member 6 which carries out the switching movements and is arranged in a plunger-like manner and arranged together with the same in a chamber 8 of the one housing part 1 . The second permanent magnet 4 is adjustably held in the housing of another chamber 10, which can be adjusted via a set screw designed as adjusting means 7, the distance between the existing also in this chamber 10 Hall switch module 5 and the second permanent magnet. 4

The chamber 8 in the upper part of the electrical switch is separated by a partition 9 from the other chamber 10 , which is also at least partially present in the upper part of the housing, the partition 9 being integrally formed on the upper part of the housing and sealing the two chambers 8 , 10 completely, ie hermetically against one another .

In the first chamber 8 , the actuating element 6 , which is designed as a plunger and carries out the switching movements, is held in a longitudinally displaceable manner against the force of a switching stroke spring 11 which is designed as a helical compression spring. The outward end of the actuating element 6, which is designed as a tappet, is mounted in a guide bushing 12 fixed at the end region of the upper housing part. The guide bushing 12 is supported on the one hand on a shoulder 13 of the upper housing part and on the other hand is surrounded by a flange collar 14 . The flanged collar 14 lies in a form-fitting manner on a stepped shoulder 15 of the guide bush 12 . The end of the actuating member 6 facing the interior of the electrical switch has an integrally formed retaining collar 16 , which is supported on the one hand at the upper end of a spring guide sleeve 17 provided with an opening and on the other hand on an overtravel spring 18 designed as a helical compression spring. At the upper end of the spring guide sleeve 17 , a nose 19 is formed, which is assigned a blind hole 20 of the guide bush 12 , whereby anti-rotation protection for the spring guide sleeve 17 is realized. The anti-rotation protection for the spring guide sleeve 17 is therefore necessary so that the magnetic carrier 21 , which is fixed at the lower end of the spring guide sleeve 17 and carries the first permanent magnet 3, does not rotate in its position relative to the Hall switching module 5 . By rotating the position of the magnet carrier 21 and thus the first permanent magnet 3 , undesirable changes in the switching hysteresis of the Hall switching component 5 could occur.

Between the retaining collar 16 of the actuator 6 and the protruding into the spring guide sleeve 17 the end of the magnet support 21, the over-travel spring 18 is arranged so that 6 beyond the displacement movements of the operating member 6 can be absorbed via the switching stroke of the actuator without damages to cause. By 17 engaging in a latching recess 22 of the spring guide sleeve is integrally formed on the magnet support 21 latching lug 23, the magnet carrier is secured to the spring guide sleeve 17 21st The first permanent magnet 3 is arranged on the end of the magnet carrier 21 facing the Hall switching module 5 . The first permanent magnet 3 is fastened in a receiving cavity and its center axis is aligned with the center of the Hall switching module 5 . The receiving cavity for the first permanent magnet 3 is also surrounded by an annular groove 24 , in which on the one hand the switching stroke spring 11 is supported, which on the other hand comes to rest on the partition 9 . The distance between the end surface of the magnet carrier 21 or the first permanent magnet 3 facing the Hall switching module 5 and the partition 9 represents the normal switching stroke of the actuator 6 .

The Hall switching component 5 is accommodated in the second chamber of the upper housing part. The Hall switching module 5 comes with its one side to rest against the partition 9 , which is thus arranged between the first permanent magnet 3 , which is assigned to the actuating element 6 via the spring guide sleeve 17 and the magnet carrier 21, and the Hall switching module 5 . The other side of the Hall switch module 5 is supported on a holding means arranged in a stationary manner in the housing. The holding means consists of an electric circuit board 25 and an opening 26 in a same fixed receiving part 27, wherein the receiving part 27 is fixed via retaining grooves in the opening of the electric circuit board 25th The end of the receiving part 27 assigned to the first permanent magnet 3 is designed as a holder for the Hall switching component 5 . The connection contacts of the Hall switch module 5 are electrically conductively connected to the electrical circuit board 25 . Furthermore, the plug contact elements 28 held in the lower housing part are electrically conductively connected to the electrical circuit board 25 . In addition, 25 electronic components are arranged on the electrical circuit board, the z. B. for signal conditioning, temperature compensation, etc. of the Hall switch 5 serve.

For the assembly of the upper housing part and lower housing part, the other chamber 10 of the housing part is expanded in steps. The lower end of the housing is inserted into the extension of the second chamber 10 . The electrical circuit board 25 is supported on the shoulder 29 of this step-shaped extension, which is surrounded on the other hand by a receiving shoulder 30 of the lower housing part. The lower part of the housing also comes to rest with its annular head surface on the shoulder 29 of the other chamber 10 , so that the printed circuit board 25 is held stationary in the housing. To attach the upper housing part to the lower housing part, the upper housing part is provided with a further flanged collar 31 , which positively surrounds a stepped shoulder 32 molded onto the lower housing part 2 . To seal the other chamber 10 , a sealing ring 33 is arranged in a remaining sealing groove between the corresponding end regions of the upper housing part and the lower housing part.

In the receiving part 27 there is a through opening 34 provided for the second permanent magnet 4 . The second permanent magnet 4 is arranged in a longitudinally displaceable manner in this opening 34 and, with its side facing the Hall switching module 5, is supported on an elastic, made of silicone, non-loaded spherical damping element 35 . On the one hand, the adjusting screw 7 bears on the side of the second permanent magnet 4 facing away from the Hall switching component 5 . On the other hand, the adjusting screw 7 is accessible from the outside via a threaded bore 36 in the lower housing part and is provided with an actuating slot. The adjusting screw 7 is held with its threaded rotatable in the threaded bore 36 with the threaded hole 36 is arranged centrally in the housing lower part. Because of the essentially rotationally symmetrical design of the housing, the center lines of the adjusting screw 7 , the second permanent magnet 4 and the first permanent magnet 3 match the line of symmetry of the housing.

Contrary to the force of the damping element 35 , the distance between the second permanent magnet 4 and the Hall switching module 5 can be finely adjusted by turning the adjusting screw 7 . The second permanent magnet 4 is held securely in its set position by the damping element 35 . By changing the distance between the second permanent magnet 4 and the Hall switching module 5 , its switching hysteresis can be influenced in a targeted manner. In order to secure the set position of the adjusting screw 7 , the threaded bore 36 is filled with a potting compound 37 after the distance between the second permanent magnet 4 and the Hall switching module 5, which causes the desired switching hysteresis, is set, so that the one facing away from the Hall switching module 5 with the actuating slot provided side of the adjusting screw 7 is covered.

The first permanent magnet 3 of this electrical switch thus has the function of a switching magnet, whereas the second permanent magnet 4 has the function of a balancing magnet. After the electrical switch is adjusted, it can be attached to the upper housing portion 38 and its threaded key surfaces 39 of an actuating device, such. B. a brake pedal, gear lever, etc. are assigned. Because of its housing design, the electrical switch can also be arranged below a liquid level. The actuating device can move the actuating member 6 , starting from its initial position, in the direction of the arrow, as a result of which the first permanent magnet approaches the Hall switching component 5 . The approximation ultimately results in the Hall switching component 5 being switched , as a result of which a circuit connected to the electrical switch or a plurality of connected circuits are switched on or off. If the force is taken from the actuator 6 , it returns to its starting position due to the force of the compressed shifting spring 11 .

Claims (12)

1. Electrical switch with a multi-part housing made of magnetically ineffective material and with a Hall switch module arranged therein, which can be influenced by an actuator, the two poles of which are arranged on both sides and have the same polarity and opposite permanent magnets, the first permanent magnet being associated with is connected to the adjustable actuating member and the second permanent magnet, which serves as a balancing means, is held in the housing and its distance from the Hall switching module can be adjusted by means of an adjusting means, characterized in that on a housing part ( 1 ) two are provided by an integrally provided partition ( 9 ) chambers ( 8 , 10 ) which are hermetically separated from one another are provided such that in one chamber ( 8 ) the first permanent magnet ( 3 ) is held in the vicinity of the partition wall ( 9 ) by way of the actuating member ( 6 ) at least partially located in this chamber, that in the other Ka Always ( 10 ) the Hall switching module ( 5 ) between the second permanent magnet ( 4 ) also housed therein and the partition ( 9 ) is arranged such that it rests with its top against the partition ( 9 ) and with at least its bottom one in Housing is assigned holding means and that the other chamber ( 10 ) is closed by a further housing part ( 2 ). 2. Electrical switch according to claim 1, characterized in that the holding means consists of at least one preferably provided with electronic components electrical circuit board ( 25 ) between the housing part ( 1 ) formed as an upper housing part and the further housing part ( 2 ) is held stationary in the housing. 3. Electrical switch according to claim 2, characterized in that the circuit board ( 25 ) with an on the Hall switching module ( 5 ) aligned, the second permanent magnet ( 4 ) comprehensive opening ( 26 ) is provided. 4. Electrical switch according to claim 3, characterized in that in the opening ( 26 ) of the printed circuit board ( 25 ) at least partially comprising the Hall switching module ( 5 ), the second permanent magnet ( 4 ) in one on the Hall switching module ( 5th ) aligned through opening ( 34 ) leading holding part ( 27 ) is present. 5. Electrical switch according to claim 4, characterized in that an elastic damping element ( 35 ) is arranged in the through opening ( 34 ) between the second permanent magnet ( 4 ) and the Hall switching module ( 5 ). 6. Electrical switch according to claim 5, characterized in that the elastic damping element ( 35 ) is spherical in the undeformed state. 7. Electrical switch according to one of claims 5 or 6, characterized in that the elastic damping element ( 35 ) consists of a silicone material. 8. Electrical switch according to one of claims 1 to 7, characterized in that the second permanent magnet ( 4 ) adjusting, as an adjusting screw ( 7 ) formed adjusting means in an existing in the lower housing part threaded bore ( 36 ) is rotatably and on the one hand to the Hall - The switching module ( 5 ) facing away from the second permanent magnet ( 4 ) comes into contact. 9. Electrical switch according to claim 8, characterized in that the threaded bore ( 36 ) for the adjusting screw ( 7 ) is arranged in the center of the lower housing part. 10. Electrical switch according to one of claims 8 or 9, characterized in that the adjusting screw ( 7 ) on the other hand on its side facing away from the second permanent magnet ( 4 ) is covered by a casting compound ( 37 ) introduced into the threaded bore ( 36 ). 11. Electrical switch according to one of claims 1 to 10, characterized in that the first permanent magnet ( 3 ) connected to the actuating member ( 6 ) is guided in a longitudinally displaceable manner in one chamber ( 8 ) and is held non-rotatably. 12. Electrical switch according to claim 11, characterized in that the first permanent magnet ( 3 ) is fixed in a magnet carrier ( 21 ) which on the one hand via a first relatively weak compression spring ( 24 ) on the partition ( 9 ) and on the other hand via a relatively strong Compression spring ( 18 ) is supported on the tappet-shaped actuator ( 6 ).