DE4400772C2 - Electrical switching device - Google Patents

Description

The invention relates to an electrical switching device, ins especially for installation in household appliances, motor vehicles or the like, with at least one of several switch positions engaging contact arm that engages with their one End pivotally supported on a support bearing and with their other end in at least one switch position contacted a fixed counter contact, with a Switch spring with one end on the contact rocker is attached and the contact rocker on the Holding bearing holds and with an actuator that the Spring for transferring the contact rocker into its switch positions moved.

Switching devices of this type DE 38 29 301 A1 are widely used because they have an exact switch guaranteed in the individual switching positions. About that in addition, their structure is relatively simple. The disadvantage is it that such switching devices only for a single Ver are intended for use. In addition, if several contact wings are to be used, esp their structural measures required to the power supply tion and power dissipation.

The object of the invention is therefore an electrical To design switching devices of the type mentioned at the outset so  that there are a variety of uses and Circuit types included. They are also said to be in a multiple ways depending on the purpose be able to attach cycle oscillators with holding bearings. After all the switchgear should have a simple assembly. This object is achieved in that the Switching device has a metal plate that parallel to the metal plate is arranged at least one circuit board that on the metal plate has at least one contact rocker with it Rem holding bearing and the switching spring is provided here at is the support bearing in one piece on the metal plate shaped and the second end of the switch spring on the me tallplatte attached during the in a switch position counter cone coming into contact with the contact rocker clocks on a circuit board provided and with their conductor tracks electrically conductive connected is. The metal plate allows in simpler Way in a pre-assembly the contact rocker with your Holding bearings and the switch spring to be attached to the metal plate bring, still allowing the metal plate through turns, the holding camp itself as part of the Me train tallplatte. In addition, depending on Different uses of the switchgear Contact rockers with support bearing and switch spring arranged be a common over the metal plate Have electricity. Due to the parallel arrangement of the PCB can now be directly in the second Switch position of the contact rocker with the counter contact on the circuit board so that Power supply via metal plates and contact rocker circuit board is possible. With a variety of Contact swinging is still possible tion to the printed conductors of the printed circuit board transfer. This can be done in a manner known per se Pick up additional components on the PCB.  

It is advantageous if the metal plate between two Printed circuit boards is arranged, as a result of which the number of Switching options are increased and more current circles are switched, with the shift rocker after Connect both sides with counter contacts is cash. It is particularly advantageous if the metal plate several molded support bearings for contact rockers has, since this then immediately during assembly can be attached and the variety of circuits of the switching device is increased. Here advantageously Hold the metal plate on its top and bottom bearings for contact rockers to increase the number of possible contact vibrations and circuits to be switched enlarge. It is recommended to extend this the actuators only to one side of the Metal plate towards the switch springs, so with that Switching device to operate from one side to lead.

In a particular embodiment of the invention has the metal plate to determine the distance of the Metal plate from the eyes and / or La open up. Such training makes life much easier the production, because directly during the punching process or the manufacture position of the metal plate eyes and tabs as a distance holder can be molded. It is special here cheap if the eyes and / or the tabs for electricity Transfer between metal plate and circuit board out forms, so as to power the metal plate from the PCB or vice versa, in simple Way to perform. Of particular advantage it continues when the eyes and / or the tabs are attached Fasten the circuit boards to the metal plate  det. On the one hand, this measure allows one to be safe distance between the printed circuit boards and the metal plate. Dar in addition, the circuit boards are safe and light on fix the metal plate so that an independent Assembly for assembly is obtained. Conveniently the distance between the two circuit boards is 4 to 6 mm. This allows very narrow switchgear to work together be put through between the circuit boards lying metal plate with its contact wings or Swinging a safe circuit is guaranteed.

In a further embodiment of the invention carries the printed circuit board facing the metal plate electrical and / or electronic components such as Lamps, resistors or the like. This measure will ensures that the individual components are safe with Power can be supplied and safely in the circuit can be switched on.

In a special embodiment of the invention are the current on one end of the circuit board conclusions about the power supply and one to be switched Device provided as a common plug connection. By this measure can be done by simply plugging in or on plug the switchgear directly into this electrical device are attached so that this over the switching device can be operated.

In a particular embodiment of the invention the circuit board is provided with a sealing film in order to this way ensure that no moisture can get onto the conductor track or the metal plate. To the taste of the switching device variable To be able to design it is recommended to use a ladder  plate to arrange a design plate, depending on the Use the user can determine how that Switchgear should look like.

To secure the second end of the switch spring to the metal plate can be attached and at the same time a light To have assembly, it is convenient if the metal plate has a turn into which the second end of the Switch spring is hooked.

To ensure that the metal plate without lei it can be supplied with power, it is recommended an extension as a power connector on the metal plate itself pull out, through which the electricity easily supply is to be carried out.

To improve the pre-assembly of the switchgear emp it happens if the metal plate has a boundary projection that pivots the contact swing away from the metal plate. Through this Measure will ensure that metal plate, contact swing arm and shift spring can be preassembled and then connect to the circuit board can. The fastening projection ensures security represents that a fall of the contact rocker from the Me tallplatte is not possible. Here is the lead dimensioned so that it pivots the contact swing to a counter contact is not impeded.

In the further embodiment of the invention is a the printed circuit boards are designed as a film. Here are intermediate pieces are provided between the switch spring and the foil, over when moving towards the metal plate, the contact rocker is switched over. Through the  Training the circuit board as a film can be the Eigenbe Mobility of the film for switching the switching device be be used. Here, the cover plate or the De sign plate also formed as a film, with the Cover plate film and the circuit board film also a protective film could be provided. Furthermore can the individual conductor tracks directly on the Printed circuit board foil or the like. So that they securely connected to the contact of the contact rocker can kick. Such an arrangement should then before al lem can be selected if a large number of contacts gene is to be actuated because the individual over the film Switch springs are easy to use.

In a further embodiment of the invention the printed circuit board has a lamp which leads to a pa light guide plate lying parallel to the metal plate extends. Through this measure, the Lichtlei Many sections of the switchgear are illuminated become.

From DE-AS 29 36 192 is a Schaltge advises with push buttons that become known from a lamp be illuminated via a light guide plate. From where the This lamp is powered from this one Document cannot be removed.

In a particular embodiment of the invention some areas of the metal plate are electrically iso arranged from each other, the manufacturer can through subsequent punching.

If necessary, this measure allows a difference Liche power supplies to the metal plate or its To create sections. This goes without saying the individual sections securely over eyes or tabs  ge at a certain distance from the circuit board shapes.

In a particular embodiment of the invention are several holding bearings and contact rockers ring-shaped arranged on the metal plate. This measure allows different cones from a single switching range to control swinging. With another design Example, there are several holding bearings and contact swing parallel and / or perpendicular to each other on the Metal plate. Again, it is here that through a relatively narrow section actuating the contact swing can be performed. Such training are mainly used when seesaw-like Actuators are used.

In the drawing, the subject of the invention is in several Ren exemplary embodiments shown and show:

Fig. 1 shows a first embodiment of the switching device in section,

Fig. 2 is a plan view of the switching device of FIG. 1,

FIGS. 3 and 4 different actuators for the switching device,

Fig. 5 shows a further embodiment of the switching device, partly in section,

Figure 6 is a plan view of swing. On a switching device having a plurality of holding bearings and contact,

Fig. 7 is a side view of the switching device according to Fig. 6,

Fig. 8 shows a further embodiment of the switching device in section,

Fig. 9 shows a further embodiment of the switching device in section,

Fig. 10 is a plan view of the metal plate with a plurality of contact wings,

Fig. 11 is a side view of the metal plate,

Fig. 12 is a front view partly in section of the metal plate shown in FIG. 10,

Fig. 13 shows a further embodiment of the electrical switching device in section,

Fig. 14 is a plan view of the metal plate of an electrical switching device,

Fig. 15 is a side view of the metal plate of Fig. 14,

Fig. 16 is a plan view of an electrical switching device similar to the execution example according to Fig. 8.

The switching device 20 shown in FIGS. 1 to 4 has a metal plate 21 , an upper circuit board 22 , a lower circuit board 23 and an actuator 24 . In Fig. 1, the actuator is ram-like ausgebil det; in Fig. 3 as a rocker switch and in Fig. 4 as a push-slide switch.

Metal plate 21 and circuit boards 22 and 23 are each arranged parallel to each other. Here, the metal plate 21 is located at the exact distance from the printed circuit boards via upper and lower spacers 25 , 26 . The total distance between the printed circuit boards can be only 4-6 mm with a narrow design. The circuit boards are carriers of conductor tracks and, if necessary, components. For the sake of simplicity, these are not shown.

The metal plate 21 is provided with two mutually parallel, bent up tabs 27 . As Fig. 1 shows, these plates have a wedge-shaped receptacle 28 into which one end of a contact rocker engages 29 a. Here, the tabs 27 form a holding bearing for the contact rocker 29 , because a switching spring 30 pulls one end of the contact rocker 29 against this holding bearing 27th The other end of the switching spring 30 is suspended on a bend 31 of the metal plate 21 .

The circuit boards 22 , 23 are swing 29 in the area of the contact provided with counter contacts 32 . The Hal telager 27 facing away from the contact rocker is provided with a double contact 33 . Here, in the shown first representation of the contact 33 against the mating contact 32 of the circuit board 22 so that a current transfer via contact rocker plate 29 to the conductor 22 can be made suppressed. If the plunger-like actuating member 24 moves downwards to the metal plate 21 , the spring 30 deforms and with it the dash-dotted line of action of the spring. In an extension beyond the holding bearing 27 , a dash-dotted line 35 is entered by the contact rocker 29 . As soon as the line of action 34 of the spring 30 touches the double-dotted line by moving the actuator downward, the contact rocker 29 can snap so that the contact 33 of the contact rocker arm 29 comes to rest on the counter contact 32 of the lower conductor plate 23 (dotted) .

With an upward movement of the actuator, the switching spring initially assumes a rectilinear shape. As soon as the line of action 34 touches the dotted line 36, swing the extension of the lower position of the contact, the contact rocker 29 switches suddenly into the position shown in FIG. 1. At the same time, the actuator is moved out of the switching device 20 be.

As can be seen from Fig. 1, the upper Lei terplatte 22 is covered with a plate 37 of a so-called design plate. This plate is used at the customer's choice. This plate also determines which actuator is to be used. As already mentioned, the deformation of the spring can follow either with the rocker-type actuator according to FIG. 3 or the push-slide actuator according to FIG. 4.

In Fig. 1 a dash-dotted extension is shown as a plug 38 on the metal plate 21 . This extension forms a power connection for the metal plate.

In Fig. 2 it is shown that the lower circuit board 23 has a so-called edge connector 39 . This edge connector can be used to contact a device to be switched with the switching device.

With regard to the actuator according to FIG. 3, it should also be mentioned that this has an extension 40 . This set slides in the longitudinal direction on the switching spring 30 . The length of the approach is designed so that with a tilting movement of the actuator from one position to the other a switchover of the contact rocker 29 it follows.

In the push-slide switch according to FIG. 4, the extension 41 can move the spring 30 through a first push-in movement to such an extent that the contact rocker 29 switches over. With a sliding movement, a flattening 42 of the actuator 24 engages under a projection 43 of the design plate 37 , so that the switching spring or the contact rocker remains in the lower position. It should be mentioned here that a longitudinal movement of the actuator 24 according to FIG. 4 is possible through unspecified guides.

The switching device according to Fig. 5 has on the upper conductor plate 22, a cover 44, is through the sicherge is that no moisture in the nere Schaltgerätin can pass.

An intermediate piece 45 is also provided under the cover film, with which the switching spring 30 can be bent downwards until the contact rocker 29 snaps down. When relieving the intermediate piece, the spring 30 deforms again so far that the contact swing snaps into the above illustration. It is also important that the metal plate is provided with eyes 46 or tabs 47 . The exact distance between the two printed circuit boards 22 , 23 with respect to the metal plate 21 is determined by the size of the eyes 46 or the tabs 47 .

Furthermore, the eyes 46 or tabs 47 can also be used to fasten the printed circuit boards 22 , 23 to the metal plate. For this purpose, the one tab 27 reaches through the printed circuit board 22 in regions and is bent or riveted on the back, but in particular soldered. Finally, it should also be mentioned here that the eyes and tabs 46 , 47 can also be used for current transmission on conductor tracks of the printed circuit boards 22 , 23 .

In the embodiment according to FIGS. 6 and 7, the contact rocker and the arrangement of the holding bearings in egg ner compared to FIG. 1 are chosen differently. In this embodiment, the contact rocker 29 has two pivot points. In one pivoting direction towards the counter contact, the contact rocker pivots about the first pivot point. When pivoting to the other contact, the contact rocker pivots about its second pivot point. It is common again that the contact rocker is pulled against a holding bearing 27 by means of a spring 30 , a neutral position being shown in the position shown, ie the contact rocker is not in contact with one another. The mating contacts 32 are arranged on tabs 22 on the conductor via unspecified tabs.

To carry out the switching movement 30 extensions 48 of an actuating member are provided on the right and left of the switching springs. These extensions belong to the actuator 24 , as shown for example in Fig. 8 is. There is a rocker-type actuator which is pivotable in four directions, the pivoting directions being 90 degrees apart. With reference to the actuator shown in FIG. 8, counterclockwise pivoting can be performed there. It is then seen the upper and lower contact swinging in Fig. 6, against the right counter contact 32 moves. When the actuating member is pivoted clockwise with respect to FIG. 8, the contact rockers pivot to the left.

The position of the other two contact wings remains unchanged. On the other hand, if the actuator is pivoted with respect to FIG. 8, then an arrangement according to FIG. 6 causes the horizontal contact swing upwards with an opposite pivoting of the actuating member via the extensions 48, a swing of the contact swinging downwards on.

Such an arrangement is chosen, for example, if via the switching device the adjustment of two mirrors one Cars to be carried out. Here are for one Mirror two cones at right angles to each other beating provided while for the other mirror the remaining two contact arms are used. Depending on the direction of the pivoting movement of the contact rocker and depending on the movement of the contact arm the Mirror moved in four directions.

Which pair of contact arms is used to adjust the left or right mirror in a motor vehicle is determined using a special rocker switch, cf. Fig. 8, turned on. Depending on the position of the rocker switch 49 , the contact rockers are used to adjust one mirror or the other mirror. Of course, this rocker switch 49 can also be designed as a rotary switch or pressure switch.

In the embodiment of FIG. 8, a circuit board 23 is arranged with the metal plate 21 in a housing 50 to. The special feature of this embodiment is that the metal plate is already embedded in a printed circuit board 23 . The counter contacts 32 are provided on special tabs that lead to the circuit board as can be seen from the figure. The actuator can be moved in four directions via a hemispherical bearing 51 . Here, the ball position takes place via the housing 50 . The pivoting of the actuating member 24 is carried out either clockwise or counterclockwise with respect to FIG. 8, or the actuating member is lowered with respect to FIG. 8 to the front or from the viewer to the rear. The extensions 48 move in this tilting movement of the actuator, as already described with reference to FIGS. 6 and 7, definable contact rockers.

In Fig. 9, a similar embodiment is Darge provides. Here, however, the extensions 48 for switching the contact rockers are not provided directly on the actuator 24 , but on a cage-like section 52 which in turn is connectable to the actuator. The contact arrangement can be seen again from FIG. 6. For the sake of completeness, it should also be mentioned that a contact system 53 is arranged above the printed circuit board 23 . This contact system determines which of the contact rockers are used for power transmission or which mirror is to be actuated in each case. This contact system is operated by a switch, not shown.

In the exemplary embodiment according to FIGS. 10 to 12, the contact rockers 29 are not arranged radially to one another as in the exemplary embodiment according to FIG. 6, but rather parallel or perpendicular. The mode of operation of the contact rockers with their holding bearing has already been described in FIG. 1. For switching either an actuator is used for each switching spring or it follows a couple of wise switching, with an additional switch then determining which circuit should be switched on to the mirror.

It should be noted here that a circuit would also be possible with this embodiment in FIG. 10, 12 by a rocker-like actuator. In this case, the two left-hand contacts would be actuated when the actuator is pivoted counterclockwise according to FIG. 8, while the two right-hand contact arms according to FIG. 10 would be actuated when pivoting to the right. The other two pairs of contact arms are switched similarly.

In this embodiment, it is also special that the tabs 27 , which form the holding bearing, carry a United extension stop 54 . Through this extension stop, the pivoting movement of the contact rocker from the metal plate 21 is limited. That is, the metal plate with the individual contact rockers can be arranged as a pre-assembled unit on a circuit board. The mating contact with which the contact rocker connects, must of course before the end of the full pivoting movement of the contact rocker in connection with this. It should be noted here that in the exemplary embodiment shown in FIG. 11 only the two opposite ones Contact rocker pairs are shown, while in Fig. 12 only the left and right lying contact pairs are shown, as can be easily determined from the drawing. Furthermore, no circuit board is drawn in this embodiment.

In the embodiment according to FIG. 13, separate actuating members 24 are provided for adjusting the individual contact rockers 29 , including a rotary switching actuating member 55 . When the left actuator 24 is actuated, the contact rocker 29 can connect on the left to the mating contact 32 of the printed circuit board. This applies correspondingly to the right tappet-like actuator 24 . The middle rotary switch actuating member 55 then allows, depending on the position of the corre sponding contact bracket 56 on the circuit board 23 to vote, which conductor track is activated and which mirror is to be actuated if necessary.

A special feature of this embodiment is that a light guide plate 57 is provided over the metal plate 21 . This light guide plate 57 is in connection with a glow lamp 58 which is in turn arranged or connected to the circuit board 23 . By means of this light guide plate 57 , depending on the viewing window in the housing 50, different sections on the surface of the housing of the switching device can be illuminated, for example in which the actuating members 24 have a prism-like surface (shown in dashed lines in FIG. 13) in the region of crossing the light guide plate 57 the light emitted by the lamp 58 reaches the outer surface of the actuators 24 .

In the exemplary embodiment according to FIGS . 14 and 15, the metal plate 21 is provided with contact rockers lying in parallel and arranged perpendicular thereto. Such an arrangement could be used, for example, in the switching device according to FIG. 13, with contact vibrations being adjustable in pairs via the individual actuators 24 . A central switch is then used to determine which contact rocker should, for example, adjust a mirror or a mirror direction. In this embodiment, it should also be mentioned that the switching spring is hooked directly into an eyelet in the metal plate 21 , without the need for a tab or the like. To adjust the contact rocker engages with respect to FIG. 14 from below an actuation member to the switching spring with respect to FIG. 15 from the left side. It should be noted here that the upper and lower contact rocker according to FIG. 14 is shown in FIG. 15. The two side contact rockers including the holding bearing and the switch springs are not shown.

In the embodiment according to FIG. 16, a covering plate is shown for the switching device with the actuator 24. Various markings are entered on the actuator 24 . These markings indicate the direction in which the actuator must be pivoted in order to achieve an adjustment, for example of a mirror, that the mirror is pivoted.

The cover plate in Fig. 16 still shows two actuators by which it is determined which of the mirrors of a motor vehicle should be adjusted or which contact rocker swing two parallel contact, which are adjusted together when actuating the actuator or by a circuit ak should be activated.

As already mentioned, the execution shown only form implementations of the invention, for example, these are not limited to this. Rather are still various changes and applications possible. At for example, the cover plate or design plate and a circuit board directly from a two or three fold film be formed, here has the bottom Foil printed conductor tracks. When pressing on the film web could then be a corresponding switch be operated via an intermediate piece. Be further still mentioned that the metal plate in different che, isolated sections arranged from each other could be divided, so different circuits easy to activate. The separation into the individual However, sections would only take place during assembly easy pre-assembly with the whole metal to achieve plate. Finally, it should be mentioned that the switching device according to the invention also in household appliances ten or kitchen appliances could be used for example in freezers, with one operation link generally for switching on the refrigerator see is while other switches are actuated around the different cooling capacities of the freezer head for.

Reference list

20 switching device
21 metal plate
22 printed circuit board
23 printed circuit board
24 actuator
25 spacers
26 spacers
27 tabs, holding bearing
28 wedge-shaped receptacle
29 contact arm
30 switch spring
31 Turn
32 counter contact
33 contacts
34 dash-dotted line of 30
35 dash-dotted line of 29
36 dotted line of 29
37 design plate
38 extension to 21 as plug connection
39 edge connectors
40 approach
41 Approach of 24
42 flattening
43 head start
44 cover film
45 intermediate piece
46 eyes
47 tabs
48 extension
49 rocker switches
50 housing
51 hemispherical bearing
52 cage-like section
53 contact system
54 Extension stop
55 rotary switch actuator
56 contact bracket
57 light guide plate
58 glow lamp

Claims (21)

1.Electric switching device, in particular for installation in household appliances or motor vehicles, with at least one contact rocker which occupies a plurality of switching positions and which is pivotally supported at one end on a holding bearing and which contacts a fixed mating contact with its other end in at least one switching position, with a switching spring , which is attached at one end to the contact rocker and holds the contact rocker on the holding bearing and with an actuator which moves the spring for transferring the contact rocker into its switching positions, characterized in that the switching device ( 20 ) has a metal plate ( 21 ) That at least one printed circuit board ( 22 , 23 ) is arranged parallel to the metal plate ( 21 ), that at least one contact rocker ( 29 ) with its holding bearing ( 27 ) and the switching spring ( 30 ) is provided on the metal plate ( 21 ) the holding bearing ( 27 ) in one piece on the metal plate ( 21 ) and the second end of the switching spring ( 30 ) is attached to the metal plate ( 21 ), while the counter-contact ( 32 ) coming into contact with the contact rocker ( 29 ) in a switching position is provided on a circuit board ( 22 , 23 ) and with whose conductor tracks are electrically connected. 2. Switching device according to claim 1, characterized in that the metal plate ( 21 ) between two printed circuit boards ( 22 , 23 ) is arranged. 3. Switching device according to claim 1 or 2, characterized in that the metal plate ( 21 ) has a plurality of integrally formed holding bearings ( 27 ) for contact rockers ( 29 ). 4. Switching device according to one of claims 1 to 3, characterized in that the metal plate ( 21 ) has on its top and bottom holding bearings ( 27 ) for contact swinging. 5. Switching device according to claim 4, characterized in that the actuating members ( 24 ) extend from a single side of the metal plate ( 21 ) to the switching springs ( 30 ). 6. Switching device according to one of claims 1 to 5, characterized in that the metal plate ( 21 ) eyes ( 46 ) and / or tabs ( 47 ) for determining the distance of the metal plate from the / the circuit board / s ( 22 , 23 ) . 7. Switching device according to claim 6, characterized in that the eyes ( 46 ) and / or the tabs ( 47 ) for power transmission between the metal plate ( 21 ) and printed circuit board ( 22 , 23 ) are formed. 8. Switching device according to claim 6 or 7, characterized in that the eyes and / or the tabs ( 47 ) for fastening the printed circuit boards ( 22 , 23 ) on the metal plate ( 21 ) are formed. 9. Switching device according to one of claims 1 to 8, characterized in that the distance between the two printed circuit boards ( 22 , 23 ) is 4 mm to 6 mm. 10. Switching device according to one of claims 1 to 9, characterized in that the printed circuit board ( 22 , 23 ) on the side facing the metal plate ( 21 ) carries electrical and / or electronic components, such as lamps ( 58 ), resistors or the like . 11. Switching device according to one of claims 1 to 10, characterized in that the power connections to the power supply and to a device to be switched as a common edge connector ( 39 ) are provided on one end of the circuit board ( 22 , 23 ). 12. Switching device according to one of claims 1 to 11, characterized in that a circuit board ( 22 , 23 ) is provided with a sealing film ( 44 ). 13. Switching device according to one of claims 1 to 12, characterized in that a design plate ( 37 ) is arranged above a printed circuit board ( 22 , 23 ). 14. Switching device according to one of claims 1 to 13, characterized in that a tab ( 31 ) of the metal plate is provided for holding the second end of the switching spring ( 30 ). 15. Switching device according to one of claims 1 to 14, characterized in that the metal plate ( 21 ) has an extension serving as a power connection ( 38 ). 16. Switching device according to one of claims 1 to 15, characterized in that the metal plate ( 21 ) has a limiting projection ( 54 ) which limits the pivoting movement of the contact rocker ( 29 ) away from the metal plate ( 21 ). 17. Switching device according to one of claims 1 to 16, characterized in that one of the printed circuit boards ( 22 , 23 ) is designed as a foil, here intermediate pieces ( 45 ) are provided between the switching spring ( 30 ) and the foil, via which when they move according to the Metal plate ( 21 ) to switch the contact rocker ( 29 ). 18. Switching device according to one of claims 1 to 17, characterized in that a circuit board ( 22 , 23 ) has a lamp ( 58 ) which extends to a parallel to the metal plate ( 21 ) lying light guide plate ( 57 ). 19. Switching device according to one of claims 1 to 18, characterized in that some regions of the metal plate ( 21 ) are electrically insulated from one another. 20. Switching device according to one of claims 1 to 19, characterized in that a plurality of holding bearings ( 27 ) and contact rockers ( 29 ) are arranged in a ring on the metal plate ( 21 ). 21. Switching device according to one of claims 1 to 19, characterized in that a plurality of holding bearings ( 27 ) and contact rockers ( 29 ) are arranged in parallel and / or perpendicular to one another on the metal plate ( 21 ).