DE4221625C1 - Electrical switch suitable for motor vehicle e.g. throttle flap or steering column - has Hall component and ferromagnetic shield assigned to housing base and cover - Google Patents

Abstract

The electrical switch has a multiple housing (1, 2) accommodating an adjustable activation element (3) and a Hall switching package with two permanent magnets (4, 5) opposite one another, having poles of the same polarity. The first permanent magnet (4) is in contact with the activation element, while the second (5), serving as a balancing element, is held in the housing, with a variable distance from the Hall switching package (6), and the activation element has a projection with a chamber (7) for the first permanent magnet. The basic body (1) has another chamber (9) for the Hall switching package and a third chamber (16) for the second permanent magnet. The two magnets and the Hall package are held in the chambers so that the Hall package fits with its two main faces between the ends of the permanent magnets mounted along an axis. ADVANTAGE - Hysteresis effects reduced. Switching point can be accurately set. Can be accurately mass-produced.

Description

The present invention is based on that of the patent 41 26 345 included the generic term of the main claim electrical switch off.

Such electrical switches are intended for one electrical circuit with the lowest possible switching hysteresis switch on or off exactly. Such electrical switches are e.g. B. for various functions in motor vehicles provided and are z. B. as a throttle switch, Steering column switch and gear switch with downstream Electronics etc. used.

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 switching module is used as a Adjusting screw trained adjusting means, the second permanent magnet is fixed directly on the set screw. The first one is used to control the Hall switch module Permanent magnet over the actuator parallel to it assigned main area in the measuring range of the Hall Switch module moved into it. With such a trained electrical switch becomes the first on the actuator attached permanent magnet piece by piece in the as Detection cone-shaped measuring range of the Hall Switch module inserted. However, since the capture cone of Hall switch modules in its effective expansion is subject to insignificant tolerances, it can happen that the switching hysteresis of such electrical switches the same Production from switch to switch relatively different fail and that the switching points of each electrical switch only very complex can be adjusted.

The object of the patent 41 28 345 is the task on the basis of a switching hysteresis electrical switch of the type mentioned above to further develop that the switching point of each electrical switch in a simple and accurate way can be set and electrical switches of the same production from switch to switch a small one of the same type as possible Have switching hysteresis. In addition to this already through the features of the patent 41 26 345 task accomplished by ferromagnetic material or by magnetic External disturbances on the switch and thus on the Switching hysteresis or influences acting on the switching points are largely switched off.  

This task is carried out in the characterizing part of the Main claim specified features solved.

Such an electrical switch is opposite a switch according to the patent 41 26 345 particularly advantageous because a fully balanced electrical switch with no negative Effects occur, also placed at fastening points can be made of ferromagnetic material or nearby components made of ferromagnetic material are arranged.

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. Show

Fig. 1 is a full sectional view of an electrical switch,

Fig. 2 shows a section through an electrical switch according to the line AA in FIG. 1.

As can be seen from the drawing, such an electrical switch has a housing made of plastic consisting of a housing base body 1 and housing cover 2 . However, the bottom wall 18 of the basic housing body 1 is made of a ferromagnetic material. In the housing, an analog or digital signal-emitting Hall switching module 6 is arranged between a first permanent magnet 4 held on an actuator 3 and a second permanent magnet 5 serving as a balancing means.

The actuator 3 of the electrical switch made of plastic is essentially designed like a plunger. Laterally, this actuator 3 has a nose-shaped projection 3 a, in which a first receiving chamber 7 provided for the first permanent magnet 4 is formed. The first permanent magnet 4 is designed as a round bar magnet and is aligned with its central axis to the center of the facing main surface of the Hall switching module 6 . The end face of the first permanent magnet 4 is thus directly opposite the measuring range of the Hall switching component 6, which is designed as a detection cone. The first permanent magnet 4 is thus permanently in the measuring range of the Hall switching module 6 , so that tolerances of the effective expansion do not affect the switching hysteresis or the switching point. Against the spring force of a helical compression spring 8 , the actuating member 3 is held in the housing in the usual manner in a longitudinally displaceable manner.

The Hall switching module 6 is designed as a so-called Hall IC and is held stationary in a second receiving chamber 9 molded into the basic housing body 1 . The connecting contacts 10 of the Hall switching component 6, which are designed as connecting pins, are connected at their free ends in an electrically conductive manner to the conductor tracks of a circuit board 11 held stationary in the basic housing body 1 . In addition, a plurality of connecting pins 12 which are led outward from the housing are electrically conductively connected to the conductor tracks of the printed circuit board 11 . So that no forces are transmitted to the connecting points of the circuit board 11 through the terminal pins 12, 12 catch holes 13 are introduced, engage the integrally formed on the housing cover 2 dome 14 in the pins. The free ends of the domes 14 also engage in corresponding recesses 15 in the basic housing body 1 for the positionally accurate attachment of the connecting pins 12 to the housing.

In the direction of actuation of the actuating member 3, behind the second receiving chamber 9 for the Hall switching module 6 , a third receiving chamber 16 is molded into the basic housing body 1 . In this third receiving chamber 16 , the second permanent magnet 5 serving as a balancing means is held adjustable. The arrangement of the second permanent magnet 5 in its receiving chamber 16 also has its central axis aligned with the center of the facing main surface of the Hall switch module 6 . So that the end face of the second permanent magnet 5 is directly opposite the measuring range of the Hall switch module 6 , so that the two permanent magnets 4, 5 are arranged axially aligned in the housing of the electrical switch. The second permanent magnet 5 is extrusion-coated with a plastic compound formed as an adjusting screw and forming the adjusting means 17 . A corresponding thread is formed in the third receiving chamber 16 , so that the distance between the second permanent magnet 5 and the Hall switching module 6 can be set precisely by a simple rotary movement. By adjusting the distance between the second permanent magnet 5 and the Hall switching module 6 , the exact switching point of the electrical switch is obtained at the same time, that is, the Hall switching module 6 is switched whenever the actuator 3 with the first permanent magnet 4 by a certain amount precisely defined amount has been moved in the direction of the Hall switching module 6 . The actuator 3 is returned to its starting position when the actuating force is taken from the actuator 3 and the associated helical compression spring 8 relaxes. On return of the actuator 3, a re-shift of the Hall switch block 6 is carried out, namely, whenever the actuator has passed the leading upon depression of the actuator 3 for switching the Hall switch block 6 position by a very small amount (hysteresis) 3 .

As already described, the basic housing body 1 consists essentially of a magnetically ineffective plastic, but the bottom wall 18 consists of a ferromagnetic material. The bottom wall 18 thus simultaneously serves as a shielding means. The bottom wall 18 can, for. Example, be formed as a sheet metal part which is overmolded with the plastic material of the housing basic body 1 at least in partial areas. But there is z. B. also the possibility of producing the housing base body 1 by a multi-material injection molding method, only the plastic material of the bottom wall 18 being interspersed with ferromagnetic particles. Influences which act on the electrical switch from the outside due to ferromagnetic material located in the vicinity of the electrical switch or magnetic disturbances which act from the outside are thus effectively shielded.

The electrical switch is to be fastened to its installation location in such a way that the base part 18 of the housing basic body 1 faces the ferromagnetic material or the magnetic disturbance variables.

Of course, a shield consisting of a ferromagnetic material can also be inserted into the basic housing body 1 as a shielding means. At the points where electrically conductive components, such as. B. pins 12 come to rest on the shielding means, appropriate insulating layers are applied so that there can be no malfunction of the electrical switch. Because the setting of the switching hysteresis or the switching points is carried out by turning the adjusting means 17 when the electrical switch is fully installed, all the influences which occur due to the ferromagnetic shielding means (bottom wall 18 of the basic housing body 1 ) are also compared, so that the switching hysteresis or the set value once set switching points remain relatively unchanged.

An electrical switch has thus arisen which is composed of a particularly small number of components which can be produced inexpensively. Due to the small number of moving components, an electrical switch has also been created, which reliably maintains the switching hysteresis or switching points once set via high position change numbers. By means of the ferromagnetic shielding means (base part 18 of the basic housing body 1 ), the electrical switch is additionally effectively shielded against influences of ferromagnetic components acting on the switching hysteresis or switching points from the outside or against magnetic disturbance variables acting from the outside.

In order to achieve the highest possible protection against external electromagnetic disturbances (EMC), the housing of the electrical switch can of course be assigned several shielding means made of ferromagnetic material of the most varied designs. So to ensure all-round protection, e.g. B. the housing body 1 and the housing cover 2 are made of ferromagnetic material. Of course, several shielding means attached as individual parts can be conductively connected to one another to increase the shielding and connected to a potential, e.g. B. ground, be connected. To suppress special disturbance variables, it is, of course, possible to use the particularly suitable materials known to the person skilled in the art for the shielding means. The shielding means can also be constructed from several layers of different materials.

Claims (7)

1. Electrical switch with a multi-part housing and with a Hall switch module arranged therein, which can be influenced by an adjustable actuator, to which two permanent magnets arranged on both sides, with their poles having the same polarity, are assigned opposite permanent magnets, the first permanent magnet with the adjustable actuator is in connection and the second permanent magnet serving 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 that an attachment with a first receiving chamber for the first permanent magnet is present on the side of the actuator, that in the basic housing body in Direction of movement of the actuator one behind the other, a second receiving chamber for the Hall switching module and a third receiving chamber for the second permanent magnet serving as a balancing means is present and that the two permanent magnets and de r Hall switching module are held in the receiving chambers such that the Hall switching element is arranged with its two main surfaces between the end faces of the two axially aligned permanent magnets, according to Patent 41 26 345, characterized in that the housing body ( 1 ) and a housing cover ( 2 ) existing housing is assigned at least one shielding means made of ferromagnetic material. 2. Electrical switch according to claim 1, characterized in that the housing base body ( 1 ) is associated with an inside of its top wall, made of a ferromagnetic sheet metal part correspondingly shaped shielding means. 3. An electrical switch according to claim 1 or 2, characterized in that the housing cover ( 2 ) is assigned a shielding means which rests on the inside against its top wall and is formed from a ferromagnetic sheet metal part. 4. Electrical switch according to one of claims 1 to 3, characterized in that the bottom wall ( 18 ) of the basic housing body ( 1 ) as a shielding means consists of ferromagnetic material. 5. Electrical switch according to one of claims 1 to 4, characterized in that the top wall of the housing cover ( 2 ) as a shielding means consists of ferromagnetic material. 6. Electrical switch according to one of claims 1 to 5, characterized in that the housing base body ( 1 ) is at least substantially made of a ferromagnetic material and thus simultaneously represents the shielding means. 7. Electrical switch according to one of claims 1 to 6, characterized in that the housing cover ( 2 ) is at least substantially made of a ferromagnetic material and thus simultaneously represents the shielding means.