EP1091376B1 - Electric switch with pivoting knob - Google Patents

Description

The invention relates to an electrical toggle switch.

From DE-A-195 11 878 an electrical push button switch is known the housing with a switching element at least one automatically resetting and off-center stored button is provided. To apply appropriate Switch contacts an actuator is formed on the button, that interacts with an assigned snap disc, which both resets the button and is used to connect current paths on a printed circuit board. The disadvantage here is that the limited Travel of the snap disc is only a relatively short one Switching path of the button is realizable and in the event of an overstroke the button the circuit board due to an excessive application force can be damaged.

Furthermore, DE-U-76 34 027 discloses a momentary switch, whose electrical contacts via a one-sided Button with an associated, slidably mounted Actuation approach can be acted upon. This is the way of actuation the key from the switching path of the assigned contacts dependent. There is also a dependency between the Contacts and the counterforce that the actuator of the actuating force the key opposite.

Furthermore, DE-A-197 26 529 shows an electrical key switch with a housing in which a switching elements Contact unit is arranged, and with at least an automatically resetting and off-center Key with an actuator acting on the switching elements, which is molded onto the button. With the push button damage or destruction of the switching elements can be prevented even with greater loads. This is the Contact unit resiliently mounted in the housing and against excessive Force applied by the actuator to the switching elements compliant, being between the contact unit and the base the housing a spring unit is arranged. A counterforce the actuating force of the button is activated by a compression spring generated, which is between the actuator or the button and supports the contact unit. Due to the arrangement of the Spring unit between the contact unit and the base of the Housing this push button switch has a relatively complicated Building on.

Furthermore, US-A-5 667 062 discloses an electrical one Push button switch with a button mounted on a housing, the an actuator for loading trained as fixed contacts Switching elements is assigned, the actuator is designed as a leaf spring, one end of which is on the housing side and their other free end with the Interacting elements.

Furthermore, EP 0 406 496 A2 shows a toggle switch according to the preamble of claim 1. The actuator is after Kind of a rocker on a rocker bearing on the housing such arranged that his arm to the microswitch and his other arm into an extension on one end of the Button extends.

It is an object of the invention to provide an electrical toggle switch to create the type mentioned, in which the actuating force and the actuation path of the key from the assigned Switching element are independent and also one Has inexpensive construction.

According to the invention the object is achieved in that that with the microswitch cooperating free end of the leaf spring under tension on the button rests and another end of the leaf spring is fixed on the housing side.

Because of these measures, the operating force of the button dependent on the spring action of the actuator, which at the same time causes the key to be reset after it is acted on and holds the key in its original position. The actuator provides a desired counterforce to the actuating force the button is available, creating a corresponding tactile Switching sensation is generated. The fact that the free end of the actuator designed as a leaf spring on the as a microswitch trained switching element acts, is the microswitch before one caused by an overstroke of the key Overload, which are impressed when the key is pressed can, protected because the leaf spring in the elastic range is compliant.

The microswitch is preferably on one perpendicular to one Bottom of the housing arranged circuit board attached, being the circuit board extends into the interior of the hollow button. Thus, the toggle switch has a very compact Structure with reliable functioning.

To enable a relatively simple assembly of the circuit board and position them both to the button and The PCB should also be fixed exactly to the housing held between guide lugs of the housing.

The guide lugs are integrally formed on the housing and are manufactured together with this in the injection molding process.

The key is expediently by means of an opposing one and spaced apart mounting brackets, which are in the Stretch inside the button, stored. The bearing brackets are also integrally formed on the housing and act as they are inside the button, optically not annoying.

According to an advantageous embodiment of the invention The button is molded onto an attachment on which the free end of the actuator is applied. The approach represents an exact transfer the actuating force acting on the button on the actuator and thus also on the switching element safely.

The actuator is preferably essentially U-shaped, one leg attached to the circuit board is the other leg that acts on the microswitch is supported on the base of the button and the leg connecting web is inclined in the direction of the microswitch. The distance between the parallel legs of the U shape is on the one hand to the height of the microswitch and on the other adapted to the actuation path of the key. The inclination of the Steges essentially influences the counterforce that the actuator opposed to the actuating force of the button.

To achieve a relatively large contact area of the corresponding Leg of the actuator on the circuit board, points preferably the leg fixed to the circuit board two spaced apart, connected by a flange Arms open, with the web coming off the flange.

To quickly, inexpensively mount the actuator to ensure the circuit board are angled on the arms Processes for determining the actuator in corresponding Holes of the printed circuit board formed. By the Insert the extensions into the corresponding holes in the PCB, the actuator is positioned exactly. The extensions protrude slightly from the PCB and become clipped into the holes after insertion, which fixes them of the actuator is ensured. That kind of Determination can be done fully automatically, which is why an inexpensive Assembly in large numbers is guaranteed.

The free end of the actuator is expediently provided with a Angle to the linear contact of the microswitch Mistake. Furthermore, the free one preferably extends End of the actuator beyond the approach of the button. At a The key assigned to the microswitch bends over the stroke Leg in the contact area of the neck of the button through, which is why there is a risk of damage to the microswitch and the associated circuit board is relatively low.

To ensure economic production of the actuator the actuator is preferred in relatively large quantities punched in one piece and shaped accordingly. This Manufacturing of the actuator can be done using a progressive tool with relatively small tolerances.

Because toggle switches of this type are rarely used used alone are preferred several toggle switches next to each other on the circuit board arranged. This measure reduces the Installation effort of several toggle switches considerably, since only the connection contacts of the common circuit board must be electrically connected. Conveniently, the keys are parallel and spaced apart stored on the housing. This makes tactile easier Detection of the individual buttons of the toggle switch guaranteed.

It is understood that the above and below Features to be explained not only in each case specified combination, but also in other combinations are usable without the scope of the present invention to leave.

Fig.1

eine Ansicht auf ein Lenkrad eines Kraftfahrzeuges mit erfindungsgemäßen elektrischen Kipptastschaltern,

Fig.2

eine perspektivische Ansicht auf aus elektrischen Kipptastschaltern zusammengesetzte Schaltereinheiten,

Fig.3

eine Explosionsdarstellung der Einzelheit III nach Fig. 2,

Fig.4

eine vergrößerte Schnittansicht durch den Kipptastschalter entlang der Linie IV-IV nach Fig. 2 und

Fig.5

eine vergrößerte Darstellung der Einzelheit V nach Fig. 3.

The invention is explained below using an exemplary embodiment with reference to the accompanying drawings. Show it:

Fig.1

2 shows a view of a steering wheel of a motor vehicle with electrical toggle switches according to the invention,

Fig.2

2 shows a perspective view of switch units composed of electrical toggle switches,

Figure 3

3 shows an exploded view of detail III according to FIG. 2,

Figure 4

an enlarged sectional view through the toggle switch along the line IV-IV of Fig. 2 and

Figure 5

an enlarged view of the detail V of FIG. 3rd

A steering wheel 1 comprises a steering wheel rim 2, which spokes 3 is connected to the steering wheel bowl 4. On each Side of the steering wheel 1 is between adjacent spokes 3 one consisting of several toggle switches 6 each Switch unit 5 inserted into the steering wheel bowl 4. The Switch units 5 are connected via connecting lines 7 common connectors 8 for coupling the toggle switch 6 with an electrical system of a motor vehicle in training.

Each toggle switch 6 is in common with one Housing 9 stored button 10 provided on the operator facing side a back-lit symbol 11 carries and the end facing away from the operator as Actuating surface 18 is formed. For storing the button 10 has the housing 9 opposite to each other spaced bearing tabs 12, which are located inside the hollow button 10 extend, the bearing tabs 12 on their free ends in corresponding holes 14 of the key Wear 10 engaging pins 13. Below the 10 buttons is an aperture 15 is provided, which is formed by means of a molded web 16 inserted into corresponding guide grooves 17 of the housing 9 becomes. Furthermore, the housing 9 with guide lugs 19 provided for holding a circuit board 20 which in Area of the button 10 of the middle toggle switch 6 of a top and in the area of each housing 9 the toggle switch 6 is held by a stop 21 on the underside. The stops 21 prevent the circuit board from bending 20 in one direction or another. The leadership approaches 19 each have a groove 22 for receiving the circuit board 20 on. The circuit board 20 is perpendicular to a floor 41 of the housing 9 is arranged and carries in the area of each button 10 a switching element designed as a microswitch 23 and an actuator 24 assigned to the microswitch 23, wherein the circuit board 20 with the microswitch 23 and the area 24 supporting the actuator 24 into the inside of the button 10 extends.

The actuator 24 designed as a leaf spring 40 is essentially U-shaped, one leg 26 on the circuit board 20 is attached, the other, the microswitch 23rd acting leg 27 under tension on a Approach 28 supports the button 10 and the legs 26, 27th connecting web 29 inclined in the direction of the microswitch 23 is. The leg 26 fixed to the printed circuit board 20 Actuator 24 comprises two spaced apart, via one Flange 30 interconnected arms 31 on which angled Extensions 32 for determining the actuator 24 in corresponding Bores of the circuit board 20 are formed. The free end of the leg 27 of the actuator 24 is one Angle 33 for linear contact of the microswitch 23 provided and extends over the approach 28th button 10.

In the unloaded state of the toggle switch 6 is the Leg 27 of the actuator 24 under tension on the approach 28 of the button and holds it in its initial position, the by engaging in corresponding openings 35 of the key 10 housing-side stops 34 is determined. With an application the button 10 of the toggle switch 6 is a Initiation of the actuating force via the shoulder 28 of the key 10 on the actuator 24 by on the actuating surface 18 is attacked. This causes the button to tilt 10 around the pins 13 of the bearing plates 12 and the legs 29 becomes elastic in the area of its connection to the flange 30 deformed until the bend 33 of the leg 27 of the actuator 24 comes to the microswitch 23 to the system and this actuated. This pressurized end position of the button 10 is also through the interaction of the stops on the housing side 34 and the openings 35 of the key 10 are determined.

Due to the existing tolerances within the toggle switch 6 is the effect of an overstroke of the button 10 on the microswitch 23 not completely by the interaction to exclude the stops 34 and the openings 35. However, an initiated overstroke is indicated by a appropriate deformation of the actuator 24 intercepted. in this connection both the web 29 and the free bend, beyond the stop 28 of the key 10 projecting end of Leg 27 in the elastic range and the bend 33 of the Leg 27 acts on microswitch 23 with a force one that doesn't damage this. After releasing the button 10 of the toggle switch 6 reverses this due to the effect of the actuator 24 designed as a leaf spring 40 in their Starting position back.

The switch units 5 shown are used for remote control a not shown radio of a motor vehicle, a toggle switch 6 as a memory request switch 36 of the radio, two toggle switches 6 as station search switch 37 to search for a radio station in different Directions, a toggle switch 6 as a switch 38 for switching between radio and cassette operation and two toggle switches 6 as a volume switch 39 for regulating the Volume of the radio are provided. The operator of the radio can therefore control all functions without his hands to have to take off the steering wheel 1 by using the appropriate Fingers of the right or left hand the assigned Actuating surfaces 18 on the button 10 of the toggle switch 6 applied. To facilitate easier tactile recognition of the individual To ensure buttons 10, they are spaced apart mounted on the common housing 9.

LIST OF REFERENCE NUMBERS

1.

steering wheel

Second

steering wheel rim

Third

spoke

4th

steering wheel bowl

5th

switch unit

6th

Kipptastschalter

7th

interconnectors

8th.

connector

9th

casing

10th

button

11th

symbol

12th

bearing bracket

13th

spigot

14th

drilling

15th

cover

16th

web

17th

guide

18th

actuating surface

19th

leadership approach

20th

circuit board

21st

attack

22nd

groove

23rd

microswitch

24th

actuator

25th

Area

26th

leg

27th

leg

28th

approach

29th

web

30th

flange

31st

poor

32nd

extension

33rd

angling

34th

attack

35th

opening

36th

Ask to save switch

37th

Tuning switch

38th

switch

39th

Volume switch

40th

leaf spring

41st

ground

Claims (13)

1. Electric rocker-type pushbutton switch with a pushbutton (10) which is mounted on a housing (9) and with which is associated an actuator (24) designed as a leaf spring (40) for acting on a switching element constructed as a microswitch (23), wherein a free end of the leaf spring (40) cooperates with the switching element, characterised in that the free end of the leaf spring (40) cooperating with the microswitch (23) abuts against the pushbutton (10) under initial tension, and another end of the leaf spring (40) is fixed on the housing side.
2. Rocker-type pushbutton switch according to claim 1, characterised in that the microswitch (23) is attached to a printed circuit board (20) arranged perpendicularly to a bottom (41) of the housing (9), wherein the printed circuit board (20) extends into the interior of the hollow pushbutton (10).
3. Rocker-type pushbutton switch according to claims 1 and 2, characterised in that the printed circuit board (20) is held between guide attachments (19) of the housing (9).
4. Rocker-type pushbutton switch according to claim 1, characterised in that the pushbutton (10) is mounted by means of opposed and spaced-apart bearing straps (12) which extend into the interior of the pushbutton (10).
5. Rocker-type pushbutton switch according to claim 1 or 4, characterised in that on the pushbutton (10) is integrally formed an attachment (28) against which the free end of the actuator (24) abuts.
6. Rocker-type pushbutton switch according to any of claims 1 to 5, characterised in that the actuator (24) is substantially U-shaped, wherein one branch (26) is attached to the printed circuit board (20), the other branch (27) which acts on the microswitch (23) is supported on the attachment (28) of the pushbutton (10), and a bar (29) connecting the branches (26, 27) is inclined in the direction of the microswitch (23).
7. Rocker-type pushbutton switch according to claim 6, characterised in that the branch (26) which is fixed to the printed circuit board (20) has two spaced-apart arms (31) connected by a flange (30), wherein the bar (29) starts from the flange (30).
8. Rocker-type pushbutton switch according to claim 7, characterised in that on the arms (31) are integrally formed angled extensions (32) for fixing the actuator (24) in corresponding bores of the printed circuit board (20).
9. Rocker-type pushbutton switch according to any of claims 1 to 8, characterised in that the free end of the actuator (24) is provided with an angled portion (33) for linear contact of the microswitch (28).
10. Rocker-type pushbutton switch according to any of claims 1 to 9, characterised in that the free end of the actuator (24) extends beyond the attachment (28) of the pushbutton (10).
11. Rocker-type pushbutton switch according to any of claims 1 to 10, characterised in that the actuator (24) is stamped in one piece and shaped accordingly.
12. Rocker-type pushbutton switch according to any of claims 1 to 11, characterised in that several rocker-type pushbutton switches (6) are arranged adjacent to each other on the printed circuit board (20).
13. Rocker-type pushbutton switch according to claim 12, characterised in that the pushbuttons (10) are mounted on the housing (9) parallel to and spaced apart from each other.

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