DE10001953C1 - Electric switch e.g. for collision sensor for activating automobile passenger restraint, has switch organ displaced perpendiculary for providing connection between relatively insulated conductor foils - Google Patents

Abstract

The electric switch (1) has a switch organ displaced perpendicular the planes of 2 relatively insulated parallel conductor foils (L1,L2) and provided with a coupling device with electrical contact surfaces (7,10) for providing an electrical connection between the conductor foils. The coupling device has a contact surface lying in the plane of a first conductor foil and a second contact surface fitting through an opening in the first conductor foil to contact a second conductor foil in the closed switch position.

Description

The invention relates to an electrical switch for creating an elek trical connection between two in different, pa to each other parallel levels arranged, foil-like and electrical electrical conductors insulated from one another comprising a right-angled to Level of the conductor movably arranged switching element with an electri connecting means having contact surfaces that are created when a connection between the first conductor and the second conductor thoroughly.

With circuits, for example with printed circuits electrical switch realized in that the two through the switch conductors to be electrically connected in each case in a contact area - a so called contact pad - open. As a connecting element for bringing about an electrical connection between the two conductors can be a electrically conductive switching pill, for example made of carbon, serve on the underside a little hat that sits over an elastic membrane on the conductor supports the web carrier, is held. Through the frustoconical shape The membrane is the cap and thus the shift pill in vertical Movable direction. The cap and the membrane, which is the switching element represent with such a switch, are usually made of silicone; a variety of such electrical switches in a particular arrangement  One another are therefore also used as a silicone or rubber switching mat designated. Such an electrical switch is used for electrical connection of two electrical systems located on the same level Ladders. Such a switch is known for example from TAUBNITZ, Gerhard: rubber safety mats, measurement info: electronica, electronic display, Berlin, year no. 10, 1992, pp. 98-100. From DE 42 12 562 A1 is a wide Electrical switch for a silicone safety mat described, the without use of a shift pill. An electrical contact is the subject of this document by a snap disk realized.

Circuit carriers have also become known, in which several Layers on top of each other and through an insulating layer of mutually electrically separate conductor tracks are arranged. Electrical Switches can be operated in the manner described above arrange on the outermost conductor layer. A switchable contact of two electrical conductors arranged on different levels can be realized in that this conductor in the top trace level in the switch for this purpose, as before described, arranged. Such a switch implementation, in particular however, the leading up of the conductor tracks in the top level is complex and can for example in a circuit in which the one individual conductor track levels made of foils arranged one above the other are not easily done. A direct switch to connect of two electrical conductors located on different levels not possible with such a known switch.

In addition to these previously known switches, collision sensors are activated tion of restraint devices for occupants in motor vehicles is known become, depending on the deformation of a package sion the restraint devices can be controlled accordingly nen. Such collision sensors include several in different Layers of electrical conductors arranged parallel to one another, facing one another are electrically insulated. The electrical insulation can, such as as the subject of DE 33 16 893 A1, air insulation or, as provided in the subject of DE 92 16 276 U1, made of film mate rial exist. This is the subject of the latter document Conductor arrangement on the outside by an easily deformable Verpac  Kungs Folie covered, arranged on the needle plate as a switching element is. In the event of an impact on the needle plate, the needles become the elec tric ladders and penetrate depending on the opening impact intensity different number of electrical conductors, which each electrical contact is closed. With such a collision sensor the timing of the impact and the impact energy can be abge be appreciated. However, these prior switches are not for one repeated switching designed.

The invention lies on the basis of this prior art discussed therefore the task of providing an electrical switch, with which a multiple via of two in different conductors arranged parallel to one another are possible.

This object is achieved in that the connecting means at ge closed switch with a con located in a first level tact area on the surface of the first conductor and with a contact located in a second level area on the surface of the second conductor passes through the first conductor fend.  

The switch according to the invention comprises a switching element that is rectangular or is arranged substantially at right angles to the level of the ladder. The Conductors are film-like, with the term "film-like" sol che electrical conductors are meant, which have only a small thickness and are, for example, a film or by means of a transfer or printing process are applied to a carrier.  

The switching element comprises connecting means which have contact surfaces, one of which with the switch closed on the surface of the Lei ters in one level and another on the surface of the other to be contacted conductor in an electrically conductive connection. The Contact surfaces of the connecting means are in different Planes to each other according to the vertical distance between the two contacting conductor surfaces. The lanyard supports itself its one contact surface on the top of a first, upper conductor when the switch is closed. The further contact surface for the contact ren of the second, lower level conductor is the same accordingly in a plane spaced apart from the first plane at the connector funds provided. This formation of the contact surfaces can can be realized, for example, by grading the connecting means, the contact surface for contacting the surface of the lower lying is the lower end face of an extension with which the overhead conductors and all between the overhead conductor and the layers located below the conductor are penetrated. Appropriate recesses are in the laminate, which is a laminate can be formed, introduced.

With the electrical switch according to the invention can be adjacent based on the arrangement in different levels to each other orderly electrical conductors can be contacted. There is also the possibility with this switch electrical conductors together in electrical Bring connection that through further layers, for example wide re electrical conductors are spaced apart. With the Ausgestal All that needs to be done is to ensure that the relevant Layers made openings for the introduction of the connection are sized sufficiently large so that an undesirable error contact with other conductors has not been made. The invention Switch is also suitable to start several in one starting to contact conductors located on different levels at the same time or by two from the top level in a lower level and to contact electrically insulated conductors.

In one embodiment it is provided that the entire switch gate gan is the connecting means, which in an embodiment of the Switching organ as a cap of a switching mat, electrically conductive overall,  is made of electrically conductive silicone, for example. The sub side of the elastic membrane carrying the cap rests on the Top of the first conductor above. Does this leader form the top layer of a multilayer conductor on which the bottom of the switch the membrane can carry a contact bead on the underside in this way to increase the contact pressure on the upper conductor. The The underside of the membrane carrying the cap forms a first con tact area in a first plane, namely in the plane of the top of the first conductor is arranged. The switch cap has one for Passing through an opening made in the top conductor layer provided extension, the underside of which is closed Switch in a level below the level of the first contact surface finds. This second contact surface lies on the surface of the second The electrical switch is closed.

In a further embodiment, which is also from the training tion of the switching element as a cap of a switching mat is as Connecting means provided an electrically conductive switching pill, which for Training of the two contact surfaces is graded. Through the staged off education becomes an annular contact shoulder for contacting the waiter surface of the overhead conductor provided. The opposite of the Kon Tact shoulder tapered section is used for reaching through and for contact animals with the top of the second, lower conductor their front. When the switch is closed, the contact is thus shoulder in electrical connection on top of the overhead and the face of the extension on the top of the bottom Leader.

Further advantages and refinements of the invention are part of it further subclaims and the following description of Embodiments with reference to the accompanying figures. Show it:

Fig. 1: in a schematic sectional representation of a switch for contacting two different levels in befindli chen electrical conductors according to a first execution example in a first application,

Figure 2:.. In a schematic sectional view of a switch for contacting two different levels in befindli chen electrical conductors corresponding to Figure 1 according to a second application,

FIG. 3. In a schematic sectional view of a switch for contacting two different levels in befindli chen electrical conductors corresponding to Figure 1 according to a third application,

FIG. 4 shows in a schematic sectional representation of a switch for contacting two different levels in befindli chen electrical conductors according to a further example of execution in a first application,

FIG. 5 shows in a schematic sectional representation of a switch for contacting two different levels in befindli chen electrical conductors corresponding to Figure 4 according to a second application.

FIG. 6 shows in a schematic sectional representation of a switch for contacting two different levels in befindli chen electrical conductors corresponding to Figure 4 according to a third application, and.

Fig. 7: A multilayer conductor with electrical switches arranged on its flat sides.

An electrical switch 1 is part of a silicone switch mat 2 consisting of a plurality of electrical switches arranged next to one another. The silicone switching mat 2 is arranged on the upper side of a multilayer conductor 3 , which consists of three electrical conductors L ₁ -L ₃ , the electrical conductors L ₁ -L ₃ being separated from one another by dielectric layers D ₁ -D ₂ . The electrical layer D _{3 located} at the bottom is applied to a support 4 by which the multilayer conductor 3 is stiffened. In the illustrated embodiment, the individual layers L ₁ -L ₃ and D ₁ -D ₂ are realized by foils that are glued together.

The electrical switch 1 comprises a switching element, consisting of a cap 5 and a membrane 6 molded onto the cap 5 , which is supported with its lower annular surface 7 on the upper side of the conductor L ₁ . The membrane 6 is frustoconical in its upper region and serves, among other things, to provide the necessary return force for the cap 5 after a switching operation. The frustoconical section of the membrane 6 goes into a cylindrical annular section from, on which the bottom 8 of the silicone switching mat 2 borders on.

In the exemplary embodiment shown in FIGS. 1 to 3, the switching element is in each case electrically conductive overall. In these configurations, the entire switching element forms the connecting means.

The lower ring surface 7 of the membrane 6 provides a first contact surface on which the connecting means bears in an electrically conductive manner. Protruding from the underside of the cap 5 , a peg-shaped extension 9 is formed, the lower end face 10 of which represents the further contact surface which, when the switch 1 is closed, rests on the surface of the two conductors - in FIG. 1 the electrical conductor L ₂ . For Kontaktie tion of the conductor L ₂ is in the conductor L ₁ in the underlying dielectric cal D ₁ a punched 11 of a circular cross-section, so that the top of the conductor L ₂ contacted when the switch 1 is actuated by the contact surface 10 can be. In this way, when the switch 1 is closed, an electrical connection between the conductor L ₁ and the conductor L _{2 is} made.

The electrical switches shown in FIGS. 2 and 3 are constructed in the same way as the electrical switch 1 of FIG. 1, with a difference between the conductor and the electrical switch 12 of FIG. 1, in contrast to the electrical switch of FIG. 1 L ₁ and the conductor L ₃ is realized with the switch 12 closed. For this purpose, only the extension 14 is longer in the electrical switch 12 of FIG. 2, so that it not only penetrates the electrical conductor L ₁ and the dielectric layer D ₁ but also the electrical conductor L ₂ and the dielectric layer D ₂ can.

In the application shown in FIG. 3, the electrical switch 13 makes contact between the conductor L ₂ and the conductor L ₃ . In contrast to the electrical switch 1 of FIG. 1, the membrane 6 is formed in its cylindrical section so that the annular surface 15 can be supported on the top of the electrical conductor L ₂ .

A further exemplary embodiment of the invention is shown with corresponding applications in FIGS. 4 to 6. The ge shown in Fig. 4 electrical switch 16 corresponds in principle to the structure of the electrical switches 1 , 12 , 13 , wherein in contrast to these scarf ters 1 , 12 , 13 an electrically conductive switching pill 17 is used as a connecting means. The switching pill 17 is stepped, whereby an obe re contact shoulder 18 as the one contact surface and through the front end face 19 of the tapered portion of the switching pill 17, the second contact surface is provided. When the switch 16 is closed, the switching pill 17 lies in the application shown in FIG. 4 with its contact shoulder 18 on the top of the conductor L ₁ . The tapered section passes through the conductor L ₁ and the underlying dielectric layer D ₂ and lies with its front end face 19 on the upper side of the conductor L ₂ . For this purpose, the tapered section of the switching pill 17 passes through a punched-out 20 in the conductor L ₁ and in the dielectric layer D ₁ , the diameter of which is larger than the diameter of the tapered extension of the switching pill 17th In the application shown in FIG. 4, the switch 16 is used to contact the conductor L ₁ with the conductor L ₂ .

The applications shown in FIGS . 5 and 6 show switches 21 , 22 constructed accordingly, wherein in the application shown in FIG. 5, a contact between the conductor L ₁ and the conductor L ₃ and in the application shown in FIG. 6 a Contacting between the conductor L ₂ and the conductor L _{3 is} provided. For this implementation, the tapered extension of the switching pill is either lengthened (cf. embodiment according to FIG. 5) or the punched-out in the upper conductor L ₁ and the first dielectric layer D _{1 is made} correspondingly larger (cf. illustration of FIG. 6 ).

Fig. 7 shows a further multilayer conductor 23 with three electrical conductors L ₄ -L ₆ , which are separated from each other by a dielectric layer D ₄ , D ₅ . The electrical conductors L ₄ -L ₆ are also foil conductors. On the two flat sides of the respective outer conductors L ₄ and L ₆ , an electrical switch 24 , 25 are arranged, which correspond to the design shown in FIGS. 4 and 6. An electrical connection between the conductors L ₅ and L _{6 can be} established with both switches 24 , 25 .

The switch according to the invention can also be combined with those which enable contacting of electrical conductors on one level. By arranging multilayer conductors side by side, the elec are separated from each other, the number of layers required for the realization tion of a certain number of switches is necessary his.  

Compilation of the reference symbols

1

electrical switch

2

Silicone safety mat

3rd

Multilayer leader

4

carrier

5

little hat

6

membrane

7

Ring surface

8th

ground

9

Continuation

10th

lower face

11

Punching

12th

electrical switch

13

electrical switch

14

Continuation

15

Ring surface

16

electrical switch

17th

Switching pill

18th

Contact shoulder

19th

front face

20th

Punching

21

electrical switch

22

electrical switch

23

Multilayer leader

24th

electrical switch

25th

electrical switch
D ₁

-D ₅

dielectric layer
L ₁

-L ₆

electrical conductor

Claims (7)

1. Electrical switch for establishing an electrical connection between two arranged in different, mutually parallel planes, foil-like and electrically isolated from each other electrical conductors (L ₁ -L ₆ ) comprising a movable perpendicular to the plane of the conductors (L ₁ -L ₆ ) Switching element with a connection means having electrical contact surfaces ( 7 , 10 ; 18 , 19 ), which is in contact when the connection between the first conductor and the second conductor is established, characterized in that the connection means when the switch ( 1 , 12 , 13 , 16 , 21 , 22 , 24 , 25 ) with a contact surface ( 7 , 18 ) in a first plane on the surface of the first conductor (L _1. L ₂ , L ₃ ; L ₅ , L ₆ ) pointing away from the second conductor (L ₂ , L ₂ ; L ₆ , L ₅ ) and with a contact surface ( 10 , 19 ) in a second plane on the surface of the second conductor (L ₂ , L ₃ ; L ₅ , L ₆ ) first conductor (L ₁ , L ₂ ; L ₆ , L ₅ ) is applied. 2. Switch according to claim 1, characterized in that the contact surface for contacting the first conductor (L ₁ , L ₂ ) ( 7 ) of the connecting means is in constant electrical connection with the first conductor (L ₁ , L ₂ ). 3. Switch according to claim 2, characterized in that the entire ge switching element is electrically conductive and is supported on the first conductor (L ₁ , L ₂ ). 4. Switch according to claim 3, characterized in that the switching element is the cap ( 5 ) of a switch mat ( 2 ) and is connected via an electrically conductive elastic membrane ( 6 ) to the bottom ( 8 ) of the switch mat ( 2 ). 5. Switch according to claim 4, characterized in that under sided the membrane merges into an annular bead, which is from the Bo  that of the switch mat to the electrical conductor to be contacted protrudes. 6. Switch according to claim 1, characterized in that the connecting means is a stepped switching pill ( 17 ) in which the contact surface for contacting the first conductor (L ₁ , L ₂ ; L ₆ , L ₅ ) is designed as a contact shoulder ( 18 ) is formed on which a smaller diameter extension for reaching through the first conductor (L ₁ , L ₂ ; L ₆ , L ₅ ), the end face ( 19 ) of which is the contact surface for contacting the second conductor (L ₂ , L ₃ ; L ₅ , L ₆ ). 7. Switch according to claim 6, characterized in that the Switching element is the cap of a switching mat, of which the Shift pill is worn.