DE4140495C1 - Switch circuit for electrically heated rear windscreen of motor vehicle - uses timing switch and auxiliary relay or bimetallic switch to control supply voltage. - Google Patents

Abstract

The switch circuit has a manually operated push-button (11) acting directly on a timing switch (12) so that the heated rear windscreen (13) is switched on for a timed duration. A second timing switch (36) is operated in conjunction with the first timing switch (12) remains in its active switch condition until the interruption of the supply voltage (41). Pref. the second timing switch (36) is provided by a self-holding switch element, e.g. a relay or a bimetallic switch with a switch spring (361) displaced from its rest position into a temporary working position via the bimetallic element (362). ADVANTAGE - Reduced mfg. costs and space requirement. Can be used for multi-functions. Increased safety for motor vehicle and user.

Description

The invention relates to a switching device with a actuator designed as a button for manual, at least temporary commissioning of elek trical facilities in motor vehicles, in particular of an electrically heated rear window, and one directly switchable with the actuator, on a time switch device arranged on a carrier plate, which after actuation by the actuator the el electrical device a predetermined time interval switches on for a long time.

A switching device of this type is known (DE-PS 38 16 080). The aforementioned known time switch serves, although basically for commissioning any electrical devices can be used  can, essentially for starting a heater Direction of electrically heated rear window from the passenger interior from where the switching device in the fittings board or a console is arranged. If necessary then the user of the motor vehicle by pressing the Heating element designed as a push button start the rear window of the motor vehicle. The The rear window heater is then usually put into operation for a predetermined time, wherein this time is at least such that security is that by the motor vehicle's own heating the interior of the motor vehicle has been heated in this way is that a further commissioning of the rear windows heating is not necessary.

In addition to an unobstructed view of the driver through through the rear window to the rear it is safe reasons necessary for the driver that the or the exterior mirrors of a motor vehicle an unung allow restricted view to the rear. Especially in Winter, which usually next to the discs of the or the exterior mirrors of a motor vehicle with snow or frozen water or water on it are covered and thereby the driver of the motor vehicle obstructed view of the exterior mirrors to the rear it is of great importance that this Au ßenspiegel continuously ice, hoarfrost and water free being held.

It is known to use exterior mirror heaters by means of an Motor vehicle interior arranged separate scarf ters to put into operation, also like the one ahead described switching device in the dashboard is arranged. It is known that through the always white progressive installation of safety-relevant  Techniques and measures in motor vehicle construction in the Ar dashboard or in a console between driver and Passenger space available for such Components inevitably gets smaller, so much subject necessarily to one or the other Sensible increase in the safety of the motor vehicle Measure must be dispensed with, or switching device combined with one another in one operation Actuator switch mechanism combined that have nothing to do with each other, here the multifunctional light and blink light actuators, usually on the steering are attached to a pillar of a motor vehicle becomes.

It is therefore an object of the present invention to Switching device to create a meaningful Combination of two different switching radio tion from a switchgear can that in the dashboard with the same footprint like a known switching device of this type without one Multiple function comes along that is easy and inexpensive can be produced and in the same way as the known one Switching device for triggering multiple radio is suitable and which is the security of strength vehicle and security for motor vehicles users increased.

The object is achieved according to the invention in that essentially simultaneously with the activation of the Time switch device another switch device can be switched on until the supply is interrupted supply voltage supply in its active switching state remains.  

The main advantage of the switching according to the invention facility is that it allows that with the only one as a button in the switching device trained actuator, for example, both with the switching time for the heating the rear window can be put into operation on the known manner after a predetermined period of time passes into their inactive state, as well as a white tere switch device can be activated, the Activation of the outside mirror heater or outside mirror heaters, and which is designed so that the or the exterior mirrors are heated until the Power supply to the exterior mirror heater interrupted , for example by switching off the ignition at a motor vehicle stop. It is also from before part that the switching device itself in place does not need in relation to the known switching device needs to be designed differently, because in the switching device integrated the further switch device and also ak by the common actuator can be activated.

The second further switch device itself can be opened be designed in many suitable ways. That's the way it is for example possible, the second switch device through electronic switching elements or switching elements train, for example by an R-S flip-flop and a subsequent power switching element, for example in the form of a transistor or the like, which by the R-S Flip-flop when starting up the switching device is controlled and in this set state for such a long time remains until the supply voltage is interrupted will. Such a configuration of the second another switch device would have the advantage that this is a relatively low power loss  has, so that the outside during the heating process Mirror in the switching device itself proportionately generates little heat that must be dissipated.

Basically, it is therefore advantageous to turn the switches on direction by a self-holding switching element form, in addition to the above configuration in the form of an electronic one Switch device it can also be advantageous that self-holding switch device in the form of a suitable net trained relays.

It is particularly advantageous for the self-locking switching form element in the form of a bimetal switch, the in addition to a relatively easy to implement constructive design still has the advantage that this can be manufactured very inexpensively, what however equally for the previously described bene electronic solution of the self-locking switching elements applies.

However, in particular for the bimetal switch, that this is produced by simply executed stamped parts can be, the stamped parts as mass products can be provided overall very inexpensively.

Preferably, the bimetal switch essentially has one Lichen just trained, with a switching contact see switching spring, which by means of a bimetallic from a rest position into a working position and from this back to the rest position, depending on the activation of the bimetal element. The Switch contact of the switch spring works with ent own contacts of a bimetal switch Rest contact and a work contact together.  

Basically, the bimetallic element can be used on any be trained in a suitable manner. It has however, it turned out to be advantageous that the bimetal element by a flat, substantially U-shaped ge shaped spring is formed, the switching spring by the cross bar of the spring to perform the switching function is applied.

Preferably, the crossbar of the spring is insulated lierelement provided that a substantially parallel has to the crossbar extending slot through the switch spring extends through, so that more advantageous way is continuously ensured that an electri shear contact between the switch spring and that to it Function of a bimetallic layer under tension ment is prevented and the lower part of the isolate the crossbar the switch spring again safely Switch off the supply voltage as intended its working position by cooling the bimetal can be brought out.

To secure the insulating element to the metallic bimetal to hold element, the insulating element is more advantageous wise with transverse and / or longitudinal to the crossbar Provide support or clamping elements with which the Bi metal element in a defined position opposite the switch spring is durable, the support and clamp elements can be provided with notches or grooves, in which engages the bimetallic element.

The entire switching device is advantageously with surrounded by a body that is on the inside or on its inner walls guide means for the Has actuator. The housing body becomes like this shaped that no separate guides for the  Actuator are necessary, which in turn leads to a Reduction in manufacturing costs leads. In the Ge housing body, which is opposite the housing body of the be did not know any other external contours and has dimensions, and therefore also for the switching device according to the invention can be used can, the second further switch device is full integrable.

According to a further advantageous embodiment of the Switching device has this on their actuation organ essentially opposite end connector facilities, with connector devices preferred as the usual used in motor vehicle construction gen-shaped tabs are the same with the carrier plate connected ends for example in a printed Circuit on one or both sides of the carrier plate intervene and connected there or ge in some other way suitable can be electrically connected.

To the manufacturing costs of the connector according to the invention to be able to reduce the furnishings even further without doing so the functional safety of the switching device is too dangerous it is advantageous to have at least one pole of the bime tallelements with a plug contact of the plug device device to connect, the connection in one piece with the plug contact is formed.

An embodiment of the invention will now be described with reference to FIG following schematic drawings described in detail. These show:  

Fig. 1 is a plan view in an enlarged representation in the form of a bimetal switch formed of further switch means,

Fig. 2 is a side view of the device shown further switch in Fig. 1,

Fig. 3 in the form of an expanded block diagram of the switching device with Zeitschalteinrich processing for switching of a rear window heater and the further switch device for the heating or the mirrors,

Fig. 4 in side view of the complete switching device with the housing body and housing end and with the actuator in an inactive end position and

Fig. 5 shows the switching device in the view as the illustration in Fig. 1, but with the housing body removed and the actuator.

The switching device 10 according to the invention is shown in its entirety as a compact component in FIG. 4 and essentially consists of an actuating element 11 which can be moved manually in the direction of the arrow 31 in order to trigger the switching process, and a carrier plate 15 , which is surrounded by a housing body 20 .

The arranged on the carrier plate 15 , which can also be a ge printed circuit, arranged electrical and electronic components are described in detail in DE-PS 38 16 080, to which express reference is made to the description of the structure of the switching device 10 . In addition, a further second switch device 36 is on the carrier plate 15 , cf. Fig. 5, arranged in the union union with the time switching device 12 , which is switched on for a predetermined time interval by means of the actuation with the actuating member. The switch device 36 , which is essentially formed by a self-holding switching element in the form of a bimetallic element 362 , can be seen in particular from FIGS. 1 and 2. The scarf tereinrichtung 36 comprises a substantially flat switching spring 361 , which is held by a U-shaped switching spring holder 370 . The switch spring holder 370 has latching devices 371 on its two legs, these latching devices being formed by notches in the present exemplary embodiment. In this locking devices 371 , the switching spring 361 is used, the switching spring 361 is formed by a suitably chosen metallic Fe dermaterial and can be produced in the form of a stamped part which is designed such that in its material or material-free inner region 372 from the side of the switch contact 360, a cross-sectionally wavy web 373 protrudes into it. The free end of the web 374 and the rear transverse side 375 of the switching spring 361 engages the switch spring holder 370 in the region of the groove-formed Rastein directions 371st By suitable choice and design of the wave-shaped cross section of the web 373 , the switching spring 361 , after it has been brought into engagement with the switching spring holder 370 , is biased, namely in the direction of the corresponding normally closed or working contact 376 , 377 . The normally closed contact 376 , the working contact 377 and the switch spring holder 370 are arranged on a carrier 378 , which forms the mounting base of the switching device 36 .

The bimetallic element 362 is formed by a flat, essentially we-shaped spring 363 . The switch spring 361 is acted upon by the transverse web 364 of the spring 363 to perform the switching function in the direction of arrow 379, that is, the switch spring 361 is lung by means of the bimetal element 362 from an inoperative position, as shown in Fig. 2, in a working position transferred with activated bimetallic element. If the supply voltage 41 supplying the bimetal, which will be described in more detail below, is interrupted, the bimetal element 362 moves against the direction of the arrow 379 and thereby leads the switching spring 361 back to its rest position, as shown in FIG. 2 , back.

Since the bimetallic element 362 is naturally metallic and thus electrically conductive, the cross bar 364 of the spring 363 is seen with an insulating element 365 ver. The insulating element 365 has a slot 366 provided in wesent union parallel to the transverse web 364 , through which the switching spring 361 extends. In order to hold the insulating element 365 securely on the spring 363 , it is seen with support or clamping elements 367 , 368 , which extend transversely and / or lengthways to the transverse web 364 . In this way, the switching spring 361 is continuously held by the insulating element 365 and is also acted on by the ses to take its rest position or working position by the bimetallic element 362 or the spring 363 . The switching spring 361 is formed in conjunction with the switching spring holder 370 described above in the manner of a microswitch and is therefore also suitable for switching large electrical powers, such as are used, for example, for operating electrical heaters in exterior mirrors, without additional relays or otherwise Power switching devices must be provided.

The housing body 20 , cf. Fig. 4, encloses the carrier plate 15 and thus the components arranged on the carrier plate th including the switching device 36 for activating the heater 40 of the exterior mirrors.

The function of the second switching device 36 in the form of a bimetal switch is described below with reference to FIG. 3. By activating the actuator 11 , the local relay 25 is activated via the time switching device 12 , so that a supply voltage 41 applied to the switching device 10 is given with its positive potential to the normally closed contact 376 of the switching device 36 in the form of a bimetallic switch. With the normally closed contact 376 and the working contact 377 , a pole of the bimetal element 362 is connected, while the fixed pole 369 of the bimetal element 362 is continuously connected to the negative pole of the supply voltage 41 via the mirror heater 40 . As a result of vonstattengehenden by the application of the supply voltage 41 and to the bimetallic element of the bimetal element 362 is heated 362 by the bimetal member 362 a movement in the direction of arrow 379, see FIG. Fig. 2, executed so that the switching spring consequently switches to the normally open contact 377 , in which position the positive supply voltage 41 to be fed from the outside of the switching device 10 to the bimetal element 362 and thus to the mirror heater 40 is continuously applied. Since at the same time the bimetallic element 362 also continues to be supplied with a voltage directly from the outside with a positive supply voltage 41 , a shutdown of the relay 25 of the time switching device 12 has no effect on the switch device 36 , which is thus continuously in the manner of a self-holding switching element keeps active state.

Only when the positive supply voltage 41 is switched off by the switching device 10 , which is normally the case in motor vehicles, for example, by switching off the ignition, does the bimetal element 362 , since it therefore no longer receives a supply voltage, against the direction of Arrow 379 in turn back to its starting position and is then ready for a new Einschaltvor gear, triggered by the actuator 11 for the timer 12 and thus also for the second switching device 36th

Reference list

10 switching device
11 actuator
12 time switch device
13 electrical device (rear window)
14
15 carrier plate
16
17th
18th
19th
20 housing body
21 plug device
22
23
24th
25th
26
27th
28
29
30th
31
32
33
34
35
36 switching device
360 switch contact
361 switch spring
362 bimetal spring
363 feather
364 crossbar
365 insulating element
366 slot
367 clamping element
368 clamping element
369 pin
369 shift spring holder
370 switch spring holder
371 locking device
372 interior
373 footbridge
374 free ridges
375 short side
376 break contact
377 working contact
378 carriers
379 arrow
38 plug contact
39 connection
40 mirror heating
41 supply voltage

Claims (11)

1.Switching device with an actuator designed as a push button for manual, at least temporarily limited commissioning of electrical devices in motor vehicles, in particular from an electrically heated rear window, and a switchable directly with the actuator, arranged on a carrier plate, the time switch device after actuation by the actuator the electrical device switches on for a predetermined time interval, characterized in that a further switch device ( 36 ) can be switched on substantially simultaneously with the switching on of the time switch device ( 12 ) and remains in its active switching state until the supply voltage supply ( 41 ) is interrupted. 2. Switching device according to claim 1, characterized in that the switch device ( 36 ) is formed by a self-holding switching element. 3. Switching device according to claim 2, characterized records that the self-holding switching element a Re lais is. 4. Switching device according to claim 2, characterized records that the self-holding switching element is a Bi is metal switch. 5. Switching device according to claim 4, characterized in that the bimetallic switch has a substantially planar, with a switching contact ( 360 ) verse hen switching spring ( 361 ) by means of a bi metal element ( 362 ) from a rest position to a working position and from this can be transferred back to the rest position. 6. Switching device according to claim 5, characterized in that the bimetallic element ( 362 ) is formed by a flat, substantially U-shaped spring ( 363 ), the switching spring ( 361 ) by the transverse web ( 364 ) of the spring ( 363 ) is applied to perform the switching function. 7. Switching device according to claim 6, characterized in that the crossbar ( 364 ) of the spring ( 363 ) is provided with an insulating element ( 365 ) which has a substantially parallel to the crossbar ( 364 ) extending slot ( 366 ) through which the switch spring ( 361 ) reaches through. 8. Switching device according to claim 7, characterized in that the insulating element ( 365 ) transverse and / or longitudinal to the crosspiece ( 364 ) extending support or clamping elements ( 367 , 368 ) with which the bimetal element ( 362 ) in one defined position against the switching spring ( 361 ) is durable. 9. Switching device according to one or more of claims 1 to 8, characterized in that it is surrounded by a housing body ( 20 ) having guide means for the actuating member ( 11 ) on its inside. 10. Switching device according to one or more of claims 1 to 9, characterized in that it has at its the actuator ( 11 ) substantially opposite end ( 17 ) connector device ( 21 ). 11. Switching device according to claim 10, characterized in that at least one pole ( 369 ) of the bimetallic element ( 362 ) with a plug contact ( 38 ) of the plug device ( 21 ) is connected, the connection ( 39 ) integrally with the plug contact ( 38 ) is formed.