DE102010002325A1 - Electric switch element for operating rear window heaters or seat heaters and indicator relays in motor vehicles, e.g. motorcycles, has plunger, which is axially adjustable against restoring force of spring supported within housing - Google Patents

Abstract

The electric switch element (1) has a plunger (9), which is axially adjustable against the restoring force of a spring (8) supported within the housing (2). A permanent magnet (7) is arranged within the housing, and the permanent magnet works together with a ferromagnetic attractor (6) arranged within the housing. The permanent magnet is movably mounted during switching operation relative to the attractor.

Description

The The invention relates to an electrical switching element according to the preamble of claim 1.

Out In the prior art are a variety of electrical switching elements known for closing or opening a circuit. Usually Such switching elements have a housing in which at least one fixed contact part, a movable contact part and a spring are disposed to contact the movable contact member To bring to the fixed contact part or separate from this. A plunger, which protrudes from the housing, is used for mechanical actuation of the switching element. Depending on the arrangement the contact parts is a closing or an opening Switching element. Often the switching elements are designed as buttons, which only briefly a circuit when actuated Close or open, for example, in a switching relay one Trigger switching process.

at Motor vehicles come such switching elements, for example the operation of rear window heaters or seat heaters for use. In motorcycles, these switching elements for example, for the operation of turn signal relay used. In motor vehicles, the requirements for such Switching elements very high. They have a long life and cope with at least 150,000 switching cycles without Significantly changed the force / displacement characteristics of the switching process. In addition, such switching elements are in motor vehicles permanently exposed to vibration in operation, which the Claim components of the component. It must be especially at Turn signal switches also ensure that the shocks lead to no false triggering. From the state Therefore, switching elements are already known in the art in which a reliable and error-free switching function Magnetic force to be ensured.

In the US 2009/0072936 A1 For example, a switching element is described in which the yokes of a permanent magnet interact with an elastically biased, movable contact part. In the initial state, the movable contact part is attracted against its inherent restoring force from the permanent magnet and is thereby applied to a fixed contact. The yokes of the magnet protrude through the receiving housing for the permanent magnet and the switch contacts. By bringing a magnetizable component into abutment with the outer projecting yokes, the tightening force of the permanent magnet on the movable contact part is reduced. Due to its inherent restoring force, the movable contact member detaches from the permanent magnet, and the contact with the fixed contact member is opened. The structure of this magnetic switching element is relatively complex. It has several against the action of return springs against each other slidable components, which must also have a high accuracy of fit. due to its complexity, the switching element is complex and expensive to manufacture. In addition, it has relatively large dimensions due to its design.

For the operating safety and ease of use plays in Automotive used switching elements increasingly also the haptic feedback a role. A switching element must Therefore, be designed so that the user due to his Operating characteristic and / or its switching noise a feedback on the successful operation taught. This is to prevent the attention the driver by an uncertainty about the operation of the switching element is impaired.

task It is therefore an electric switching element of the present invention to provide the requirements for robustness and safety does justice. The switching element should in particular for the Use in motor vehicles, for example motorcycles, be suitable. It should be a structurally simple and inexpensive Have structure. In addition, it should meet the requirements for the haptic Fulfill feedback about the switching process, so that the user gets his full attention dedicated to traffic.

The Solution to this and other tasks is an electrical Switching element with the features mentioned in claim 1. Further developments and / or advantageous embodiments The invention is the subject of the dependent claims.

The Invention proposes an electrical switching element, the a housing in which at least one fixed Contact part, a movable contact part and a spring arranged are. From the housing protrudes a plunger to the mechanical actuation of the switching element relative to the Housing is axially displaceable. The plunger is against the restoring force of itself within the housing supporting spring axially displaceable. Inside the case is a permanent magnet arranged with a likewise within the housing arranged ferromagnetic attractor cooperates. During the switching process, the magnet's attraction to the Attractor be overcome to the magnet relative to Attractor to move.

The inventive electrical switching element is very simple built and comes with a very small number of components out. Mass tolerances do not play a particularly important role. Therefore the switching element is relatively simple and inexpensive produced. The inventive switching element uses the attraction between the attractor and the permanent magnet, to set a defined force / displacement characteristic. The at Switching action required release force is essentially only dependent on the magnet's attraction and very easily adjustable by selecting the magnet. Gravity between the attractor and the magnet is usually larger as a mechanical preload, achieved solely by spring force becomes. As a result, the switch is far less sensitive to shocks and axial impacts. This can cause false alarms be reduced. Because of the smaller number of components is the switching element also far more compact than known switching elements of the prior art. due to the clearly definable force / displacement characteristic for switching, the switching element is on the haptic Customizable requirements of the user. in the case of use of the Switching element in motorcycles can by suitable choice of the permanent magnet of the required effort for the operation can be adjusted so that also for the driver's gloved hand a clear feedback about the successful operation results. Furthermore it comes when loosening and restoring the magnetic Connection between the magnet and the attractor to a switching noise that Also adjustable is that it gives the user a clear acoustic Feedback on the successful switching process transmitted. The usually made of plastic housing of the switching element is used as a sound box. In contrast to purely mechanical constructed switches remain in the inventive Switching the switching / path characteristic and thus the switching noise on the life of the switch largely unchanged.

For the user proves to be beneficial and enjoyable when upon actuation of the switching element not immediately the Switching process is triggered. This is for example Motorcyclists of advantage, although the gloved thumb already on the control knob for the switching element have, but do not want, for example, the turn signal triggered becomes. To meet this requirement is in the inventive Switching element mounted the plunger so axially displaceable, that he is facing a switching path, causing it to be mechanically forced Relative displacement between the permanent magnet and the attractor comes, can cover a Vorhubweg. Through the forward stroke the turn signal is actually only then actuated, if the user wants that too, and erroneous Fehlbedienungen the flashing system can be prevented. Conveniently, the Vorhubweg is to from 0.01 mm to 5 mm.

A expedient variant of the switching element provides that the permanent magnet at least partially from A flux guide is surrounded. The flux baffle leads practically to a short circuit of the magnetic field lines and prevents that outside the switching element a significant magnetic Field builds up. This avoids ferromagnetic objects attached to the switching element. But the flux baffle fulfills also the function of preventing the magnet from being damaged to protect the switching process. Magnetic materials are often relative brittle. In such magnets, the flux guide plate is under other than impact protection, when the magnet and the ferromagnetic Attractor to return to the initial state after switching. Depending on the attraction of the magnet and depending on the switching path can this with a relatively strong impulse accompanied.

A Embodiment of the electrical switching element sees before, that the permanent magnet possibly in conjunction with a Flußleitblech forms the movable contact part. For this purpose are at the magnet or provided on the flow baffle tongue contacts. In an alternative Embodiment variant, the attractor can form the movable contact part. Both variants are simple and are characterized by a low number of components.

A Another embodiment of the invention provides that the ferromagnetic attractor forms a fixed contact part. As a result, the number of components can be further reduced.

The inventive use of the magnetic force, the electrical switching element already has a very high strength and resistance to vibration. In order to further improve this, in a further embodiment variant of the switching element, the at least one stationary contact part is designed to compensate for overstroke during the switching operation or due to vibrations. This can be done, for example, that the at least one fixed contact part has an inherent spring force and is resiliently biased in Kontaktierungsfall. An alternative embodiment of the switching element provides that the fixed contact part is arranged floating in the housing. The term "floating arrangement" means that the fixed contact part is given sufficient space to bend freely during contact can.

to Improvement of the contact properties, the at least one fixed Contact part a refined, for example, with silver, silver / nickel or gold coated, have contact zone.

By doing the at least one stationary Kontakteil a number in parallel has switched contact areas, a switching element with created redundant contact points. This increases the range of application of the switching element. The contact areas can thereby NC contacts, Closing contacts and / or wiper contacts be.

Around the adhesive force between the permanent magnet and the attractor increase and any stray fields outside of the switching element to reduce even further is in another Embodiment of the switching element of the permanent magnet designed as a pot magnet.

Just in applications in the automotive sector, the switching operation is often also visually displayed. This can be done by a separate lamp, which is arranged in the vicinity of the switching element, and when actuated the switching element is switched on or off accordingly. In a further expedient variant is this luminaire already integrated in the switching element. For example is within the housing a light source, preferably arranged an LED, which can be activated or deactivated during the switching process is. Furthermore, magnet is an axial passage for the light generated by the LED is provided.

The Switching element can be as a button, as a conventional switch (NO, NC) or designed as a changeover switch be.

Further Advantages and features of the invention will become apparent from the following Description of embodiments with reference on the schematic drawings. It does not show in scale Presentation:

1 an exploded perspective view of a first embodiment of the electrical switching element;

2 an axially sectional view of the assembled Schaltele management according to 1 ;

3 an axially sectional view of a second embodiment of the switching element;

4 an axially sectional view of a third embodiment of the switching element;

5 an axially sectioned conceptual representation of a fourth embodiment of the switching element; and

6 an axially sectioned conceptual representation of another embodiment of the switching element.

An in 1 and 2 illustrated first embodiment of the invention bears overall the reference numeral 1 , The switching element 1 has a housing usually made of plastic 2 on, with a usually also made of plastic lid 3 is lockable. The lid 3 can after the assembly of the switching element 1 Can be frictionally locked on the case 2 he can stick with the case 2 screwed, glued or otherwise solvable or permanently connected. At the bottom in the representation of the housing are two fixed contacts 4 . 5 indicated in the assembled state of the housing 2 protrude. The contacts 4 . 5 can through recesses in the housing 2 be plugged; but they can also injection molding technically integral with the housing 2 be educated. The switching element 1 further comprises an annular permanent magnet 7 and a ferromagnetic attractor 6 in the assembled state within the lid 3 closed housing 2 are arranged ( 2 ). The ferromagnetic attractor 6 is between the permanent magnet 7 and the lid 3 arranged and supported on the housing 2 from. The dock 3 , the ferromagnetic attractor 6 and the annular permanent magnet 7 are each provided with central bores. The holes are from a pestle 9 interspersed, whose one end through the hole in the lid 3 protrudes. The opposite end of the plunger 9 rests on a spring 7 , For example, a helical compression spring, at the bottom of the housing 2 from. The pestle 9 has an annular flange 10 on whose outer diameter is greater than the diameter of the holes in the lid 3 and in the annular permanent magnet 7 , On the other hand, the outer diameter of the annular flange 10 smaller than the diameter of the hole in the ferromagnetic attractor 6 ,

For actuating the switching element 1 , which is formed, for example, as a button, is on the from the lid 3 projecting end of the plunger 9 pressed. This will cause the plunger 9 against the restoring force of the spring 8th towards the bottom of the case 2 emotional. A recess in the bottom of the housing 2 takes on the foot part of the plunger. The annular flange 10 at the pestle 9 dives into the hole of the ferromagnetic Attrak tors 6 off until it reaches the top of the permanent magnet 7 is applied. The distance traveled is called the forward stroke p. This is usually 0.01 mm-5 mm in applications of the switching element in motor vehicles. In other applications, the forward stroke can be up to 2 cm. The force required for the forward stroke p is solely dependent on the spring constant of the spring 8th dependent. It can therefore be adjusted very easily by suitable choice of the spring. The actual switching process takes place solely against the attractive force of the permanent magnet 7 on the ferromagnetic attractor 6 , The force required to overcome the magnetic attraction force can be from 0.5 N to 15 N. These values are typical for applications of the haptic switching element in vehicle construction. In other applications, the force required to overcome the force of attraction of the permanent magnet can be as low as about 0.05 N or even as high as 100 N. After the permanent magnet 7 from the case 2 supporting attractor 6 he has been solved, he is by the pressure on the plunger 9 from the annular flange 10 taken along until he was at the contacts 4 . 5 is applied and closes the circuit. The permanent magnet 7 thus forms a movable contact part. The of the permanent magnet 7 from his initial situation to the contacts 4 . 5 traversed path is referred to as switching path s. The switching path s is typically set to about 0.1 mm-5 mm. This range, which is particularly suitable for applications in motor vehicles, can be from 0.1 mm to 2 cm in other applications. The after separating the permanent magnet 7 from the ferromagnetic attractor 6 for the displacement expended force is composed of the on the plunger 9 acting restoring force of the helical compression spring 8th and the decreasing force of attraction of the permanent magnet with increasing distance 7 , The fixed contacts 4 . 5 are not directly at the bottom of the housing 2 but in a kind of levitating arrangement have a distance r to it, which serves for the compensation of an overstroke. Usually, the distance r for switching elements for use in motor vehicles is about 0.1 mm-5 mm. In other applications, a distance to compensate for an overstroke of up to 2 cm may prove useful.

Will the plunger 9 released, becomes the permanent magnet 7 due to the attraction to the ferromagnetic attractor 6 moved back to its original position. Already while loosening the magnet 7 from the ferromagnetic attractor 6 a crackling sound occurs. When striking the moved back magnet 7 to the attractor 7 creates another, louder characteristic switching noise. The two switching noises provide the user with feedback about the switching process. The housing 2 with lid 3 acts as a resonator.

This in 3 illustrated second embodiment of the switching element bears overall the reference numeral 21 , The case is with 22 , the lid with the reference numeral 23 Mistake. Two fixed contact parts 24 . 25 protrude through the bottom of the case 22 or injection molding technology integrally formed therewith. The contact parts 24 . 25 have a certain distance to the bottom of the housing 2 to compensate for an overshoot during the shift. A feather 28 For example, a helical compression spring is between a ferromagnetic attractor 26 and the bottom of the case 2 clamped and presses the attractor 26 against the lid 23 of the housing 22 , A pestle 29 with a fork-like foot part protrudes through recesses in the attractor 26 and rests against a permanent magnet 27 from. The opposite end of the attractor 26 protrudes through a hole in the lid 23 , The permanent magnet 27 is designed as a pot magnet and a flux baffle 20 surround. Through the flux baffle 20 Magnetic stray fields outside the switching element are reduced or largely suppressed. In addition, the flux baffle serves 20 as mechanical protection for the permanent magnet 27 which is often made of a relatively brittle material. The flux baffle 20 absorbs the vibrations that occur when the permanent magnet collides 27 on the attractor 26 occur. In the initial position adhere the permanent magnet 27 and the ferromagnetic attractor 26 together.

By pressing on it from the lid 23 projecting end of the plunger 29 the system becomes an attractive gate 26 / Permanent magnet 27 against the restoring force of the helical compression spring 28 towards the bottom of the case 22 moved until it has covered the Vorhubweg p and the attractor on a circumferential shoulder in the housing 30 is applied. By increasing the pressure, the permanent magnet 27 from the attractor 26 separated and up to the contacts 24 . 25 pushed. The electrical contact is in this embodiment of the switching element on the permanent magnet 27 surrounding flux baffle 20 closed. The permanent magnet 27 in conjunction with the flux baffle 20 forms a movable contact part of the switching element. Once the connection between the permanent magnet 27 and the attractor 26 is disconnected, the attractor jumps 26 due to the restoring force of the spring 28 back to its original position. When the plunger is released, the permanent magnet also moves 27 , driven by the attraction to the attractor 16 back to its original position.

In this embodiment of the switching element occurs after switching to a re latively large force drop, which is recorded by the user as positive feedback. Switching noises arise on the one hand when separating the permanent magnet 27 from the attractor 26 if the latter of the spring 28 driven back to its original position, and by striking the permanent magnet 27 at the attractor 26 when the magnet returns to its original position.

This in 4 illustrated third embodiment of the switching element bears overall the reference numeral 31 , The housing and the lid are with 32 respectively. 33 designated. The switching element 32 has a permanent magnet 37 on top, in a receptacle in the lid 33 is held. The permanent magnet 37 is designed as a pot magnet and in turn of a Flußleitblech 20 surround. A pestle 39 protrudes through a central bore of the permanent magnet 27 and is supported by a return spring 38 , For example, a helical compression spring, relative to the bottom of the housing 32 from. An attractor 36 is on the plunger from the foot end 39 deferred and is in its initial position on the permanent magnet 37 or on the flow baffle 20 at. The opposite end of the plunger 39 protrudes through a hole in the lid 33 , The pestle 39 has an annular peripheral flange 40 on, at the ferromagnetic attractor 36 is applied. At the bottom of the case 32 are fixed contact parts 34 . 35 arranged through the housing 32 protrude outwards. There may be provided a plurality of fixed contact parts, the redundant contacts as the flexibility of the switching element 31 increase.

For actuating the switching element of the plunger 39 against the restoring force of the helical compression spring 38 towards the bottom of the case 32 pressed. A recess or hole in the bottom of the housing 32 takes the foot end of the advanced ram 39 on. Through the annular peripheral flange 40 becomes the attractor 36 from the pestle 39 taken along and in the receptacle in the lid 33 held permanent magnet 37 separated. in this embodiment of the switching element 31 forms the attractor 36 the movable contact part, via which the circuit is closed. When releasing the pestle 39 the attractor returns 39 driven by the restoring force of the helical compression spring 36 and the attraction of the fixed permanent magnet 37 back to its original position. At the impact of the attractor 36 on the permanent magnet 37 or the flow baffle 20 creates a characteristic switching noise, which gives the user feedback about the switching process.

This in 5 illustrated embodiment of the switching element is overall with the reference numeral 41 Mistake. In contrast to the previous embodiments, the plunger protrudes 49 through the bottom of the case 42 , The permanent magnet 47 is at the bottom of the case 42 attached and removed from the plunger 49 interspersed. An attractor 46 is stuck with the plunger 49 connected and supported by a return spring 48 , For example, again a helical compression spring, against the lid 43 for the housing 42 from. In the lid 42 is a bore for receiving the foot part of the plunger 49 intended. Two fixed contact parts 44 . 45 protrude through the wall of the housing 42 , It may also be provided more contact parts. The feather 48 is with a supply line 50 connected by the housing 42 is guided. The feather 48 takes over the electrical line from the supply line 50 to the ferromagnetic attractor 46 which forms the movable contact part.

For the switching operation of this example designed as a closing switching element 41 becomes the plunger 49 against the restoring force of the spring 46 and the attraction of the permanent magnet 47 in the direction of the lid 43 pressed. If the force exceeds the adhesive force of the permanent magnet, the attractor becomes 46 from the stationary permanent magnet 47 separated and with the contact parts 44 . 45 and possibly further redundant contact parts brought into connection. After switching, the attractor returns 46 back to its original position. When hitting the permanent magnet 47 The typical switching noise is generated, which provides the user feedback about the switching process.

The schematic diagram in 6 shows a further embodiment of the switching element, which overall the reference numeral 51 wearing. Housing and lid are included 52 respectively. 53 indicated. The lid 53 is provided with a bore through which a plunger 59 sticking out by a spring 56 is biased. Inside the case 52 of the switching element designed as a changeover switch 51 are two fixed contact parts 54 . 55 arranged. In this case, the upper contact part forms 54 that is near the lid 53 is arranged, at the same time a ferromagnetic attractor 56 , The other fixed contact part 55 is near the bottom of the case 52 arranged. The upper contact part 54 or the attractor 56 is with spring contact parts 64 Mistake. These are to prevent that it comes through shocks to a break in contact. The arranged near the floor contact part 55 is arranged virtually floating and points to the bottom of the housing 52 a distance r, which serves for a compensation of an overstroke of the movable contact part during the switching operation and for suppressing vibrations. One of a river baffle 20 coated permanent magnet 57 is located between the ferromagnetic attractor 56 and the ground contact part 55 , The flux baffle 20 is for example with an outward leading electrical connection 60 provided in a slot guide in the housing 52 is axially displaceable. Alternatively, the connection 60 also be designed as a sliding contact. Together with the permanent magnet 57 forms the flux baffle 20 the movable contact part.

In the initial state, this is the permanent magnet 57 surrounding flux baffle 20 in contact with the ferromagnetic attractor 56 , at the same time the first fixed contact part 54 forms. Will on the plunger 59 pressed, first the spring 56 compressed until the plunger 59 on the permanent magnet 57 is applied. The distance traveled is called the forward stroke p. The expended for the forward stroke force depends solely on the spring force of the return spring 56 from. After overcoming the attraction of the permanent magnet 57 this becomes the fixed attractor 56 separated and in the direction of the near-ground second fixed contact part 55 emotional. The case covered path is referred to as switching path s. The second fixed contact part can bend in the event of an overstroke by a distance r. Will the plunger 59 let go the permanent magnet 57 and the flux baffle 20 back to the original state. When striking the upper contact part 54 or the attractor 56 The characteristic switching noise is created, which gives the user feedback about the switching process that has taken place.

At the bottom of the case 52 can also have an LED 61 be arranged, by the operation of the switching element 51 is activatable. The light emitted by the LED is transmitted through an axially extending channel 62 passing through the flux baffle 20 and the permanent magnet 57 extends to the outside radiated. The pestle 59 For this purpose, for example, have on its front side a translucent area or consist entirely of a translucent plastic. For example, a figurative symbol for the element to be switched is attached to the translucent area of the plunger.

The Contact parts themselves or at least the contact zones of the fixed and moving contact parts can be finished or with a lot good conductive materials, such as silver, silver / nickel or Gold, be coated.

The Switching element can be used as a button, as an opener or Schliesser or be designed as a changeover switch.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 2009/0072936 A1 [0004]

Claims (15)

Electrical switching element with a housing ( 2 . 3 ; 22 . 23 ; 32 . 33 ; 42 . 43 ; 52 . 53 ), in which at least one fixed contact part ( 4 . 5 ; 24 . 25 ; 34 . 35 ; 44 . 45 ; 54 . 55 ), a movable contact part ( 7 ; 27 . 20 ; 36 ; 46 ; 57 . 20 ) and a spring ( 6 ; 26 ; 36 ; 46 ; 56 ) are arranged, and with a protruding from the housing plunger ( 9 ; 29 ; 39 ; 49 ; 59 ), for the mechanical actuation of the switching element relative to the housing ( 2 . 3 ; 22 . 23 ; 32 . 33 ; 42 . 43 ; 52 . 53 ) is axially displaceable, characterized in that the plunger ( 9 ; 29 ; 39 ; 49 ; 59 ) against the restoring force of the inside of the housing supporting spring ( 6 ; 26 ; 36 ; 46 ; 56 ) is axially displaceable, and that within the housing a permanent magnet ( 7 ; 27 ; 37 ; 47 ; 57 ) which is arranged with a ferromagnetic attractor disposed within the housing ( 6 ; 26 ; 36 ; 46 ; 56 ) and the permanent magnet ( 7 ; 27 ; 37 ; 47 ; 57 ) during switching relative to the attractor ( 6 ; 26 ; 36 ; 46 ; 56 ) is slidably mounted. Switching element according to claim 1, characterized in that the plunger ( 9 ; 29 ; 59 ) is mounted so axially displaceable that it is in front of a switching path (s), in which a mechanically forced relative displacement between the permanent magnet ( 7 ; 27 ; 57 ) and the attractor ( 6 ; 26 ; 56 ), a Vorhubweg (p) travels. Switching element according to Claim 2, characterized that the feed stroke (p) is from 0.01 mm to 5 mm. Switching element according to one of the preceding claims, characterized in that the permanent magnet ( 27 ; 37 ; 57 ) at least partially from a flow baffle ( 20 ) is surrounded. Switching element according to one of the preceding claims, characterized in that the permanent magnet ( 7 ; 27 ; 57 ) optionally in conjunction with a flow baffle ( 20 ) or the attractor ( 36 ; 46 ) forms the movable contact part. Switching element according to one of the preceding claims, characterized in that the attractor ( 56 ) forms a fixed contact part. Switching element according to one of the preceding claims, characterized in that the at least one fixed contact part ( 4 . 5 ; 24 . 25 ; 44 . 45 ; 55 ) is designed to compensate for overstroke during the switching process or by shocks. Switching element according to claim 7, characterized in that the at least one fixed contact part ( 54 ) has an inherent spring force and is resiliently biased in Kontaktierungsfall. Switching element according to claim 7 or 8, characterized in that the fixed contact part ( 4 . 5 ; 24 . 25 ; 44 . 45 ; 55 ) is suspended in the housing. Switching element according to one of the preceding claims, characterized in that the at least one fixed contact part a refined, for example, with silver, silver / nickel or gold coated, contact zone has Switching element according to one of the preceding claims, characterized in that the at least one fixed Kontakteil has a number of parallel switched contact areas or more parallel fixed contact parts are provided. Switching element according to one of the preceding claims, characterized in that the magnet is a pot magnet. Switching element according to one of the preceding claims, characterized in that within the housing a light source ( 61 ), preferably an LED is arranged, which can be activated or deactivated during the switching process, and in the magnet ( 57 ) an axial passageway ( 62 ) is provided for the light generated by the LED. Switching element according to one of the preceding claims, characterized in that it is designed as a button. Switching element according to one of claims 11-13, characterized in that it is designed as a changeover switch is.