DE10137266B4 - Switch mechanism for actuating at least one switching contact - Google Patents

Abstract

Switch mechanism for actuating at least one switching contact, with an actuatable spring-loaded rotary member (turntable 2) with an eccentrically arranged driver (18) and a linear actuator (4) for the switching contact (11) engaged therewith and with a mounting plate (1) for the rotary member (2) and the actuator (4), wherein the rotary member (2) is rotatable between two, each one switching position determining positions, by stops and the rotary member (2) acting and this each against one of the stops pressing spring ( Compression spring 14) are defined, and wherein the adjusting spring (14) is arranged such that it has a dead center position between its two positions determined by the stops with a maximum spring tension, from which they out the rotary member (2) under relaxation abruptly into the respective Spent position, and that the actuator (4) in the direction of the switching contact (11) by a further on the support plate (1) arranged spring (tension spring 8) with a substantially lower spring force than the spring ...

Description

The The invention relates to a switch mechanism for actuating at least a switching contact, in particular the switching contact of an activation / deactivation switch for one Airbag (airbag switch) in a motor vehicle.

In the context of increasing safety requirements, special attention is paid to the protection of occupants in a vehicle. In particular airbag devices, but also other restraint systems and safety devices play an essential role, which are either on the vehicle body or on a vehicle trim part, such as a vehicle seat or a part thereof, arranged. In order to be able to prevent activation of the respective safety system in the event of an impact depending on the situation, it is expedient to provide actuatable activation / deactivation switches. Thus, an activation may be superfluous if a vehicle seat is not occupied. Activation may also be dangerous to a vehicle occupant who is not in a seated, kneeling, or lying position with his head, neck, or thorax directly in front of an airbag module, such that the distance between the opening and the unfolding airbag releases, and the respective body part of the occupant is low. While such positions may be considered negligent, they can not be ruled out, especially for children as rear-seat passengers. In order to effectively counteract the associated dangers of the unfolding airbag, it is expedient to make the airbag system can be switched off. These are for example from the DE 198 35 709 C1 , of the DE 198 11 182 A1 and the EP 0 719 680 B1 Deactivation circuit arrangements and from the DE 298 06 516 U1 , of the EP 1 053 914 and the US-A-5,866,954 and US-A-6145874 Deactivation switch has become known. About an unwanted change of the selected switching state by high acceleration values in a collision of the vehicle, no statement is made.

From the DE 37 01 216 A1 goes out a mechanism in which by means of a rotary member, a spring tensioned and their stored energy is released abruptly after reaching the dead center.

Of the Invention is based on the object, a switch mechanism for one Activation / deactivation switch of a safety device to create in a vehicle in which the selected switching state at maintained high acceleration values in the event of a collision of the vehicle becomes.

These Task is done with a switch mechanism with the features of Claim 1 solved. Advantageous embodiments are listed in the subclaims.

The Invention consists in a switch mechanism for actuating a or a plurality of switching contacts, in particular of micro-switches for safety devices. This switch mechanism has an actuatable rotary member with a eccentrically arranged drivers for a linear actuator, as an actuator for the switching contact at least one switch is used, wherein the rotary member and the actuator are arranged on a support plate. The rotary link is between two positions rotatable, each one switching position of the actuator and thus also the switching contact (on / off) are assigned. These positions are by stops for the Rotary member determined and defined by a spring, which is the rotary member fixed at the respective stop with its spring force. The spring is arranged such that these between their two positions determined by the attacks one Position with a maximum spring tension, in the following Called dead center position. Upon actuation of the rotary member, connected with an excess the dead center position, this is under relaxation at this attacking spring abruptly spent in the respective position, as well as the actuator. The latter is towards the least a switching contact by another spring lower spring force as the acted upon the spring.

A Movement of the rotary member is in a linear movement of the actuator implemented, from the time of the dead center position and independent accelerated from the switching direction (abrupt). When operating several Switching contacts, especially micro-switches, their simultaneous Switch causes. To the impact of the linear movement of the actuator in the direction on the at least one switching contact carries the other on the actuator acting spring, this regardless of its position under constant tension stops and the in the dead center also their maximum in tension and -energie has and at the same time with the spring after exceeding the dead center position relaxed. This spring also contributes significantly to the stability of the switching state at, even under the high loads during a collision of the vehicle.

In this case, the support plate to increase the acceleration of the switching movement of the actuator in the direction of the switching contact and to stabilize the switching state have a trained in the direction of movement of the actuator elongated recess into which a fixedly arranged on the actuator guide pin engages, and having a motion-retarding constriction therefor. This constriction is arranged so that the guide pin upon actuation of the rotary member meets this, just before the spring has arrived in the dead center position. The clear width of the recess in the region of the restriction is insignificantly smaller than the diameter of the guide pin, so that this must overcome resistance when reaching the constriction, by further rotation of the rotary member with increased force beyond the dead center addition, connected to a further energy structure on the spring, is overcome. After overcoming the constriction and the Totpunktstellung follows a sudden rotation of the rotary member, connected to a sudden linear movement of the actuator in the direction of the desired switching position.

The arranged on the support plate and acting on the actuator another spring can be advantageously supported on the guide pin, so that no additional Abutment for the spring must be formed.

For the procedure the arranged on the rotary member driver for the actuator can in this one Recess be introduced, which is considerably larger than the cross section of the Driver is. The resulting game supports the Snap effect during a switching movement.

The the respective switching position determining position of the rotary member is easily formed by a formed in the support plate and given to the axis of rotation of the rotary member coaxially arranged finite curve guide, in the one on the rotary member at a radial distance from the axis of rotation arranged stop pin engages, wherein the two ends of the curved guide the attacks for the stop bolt form and determine the respective position. Both positions will be non-positively by the spring defined, which presses the stopper bolt against the stops. Advantageous the spring is a compression spring which pivots on the support plate supported is and which attacks on the stop pin. To hold the spring serves a sleeve-shaped pressure piece, the locked on the support plate and also on the stop pin pivotally is and when pressed the rotary member a change in length allows the compression spring. To is the pressure piece in a simple manner at least at one of its ends on opposite wall regions slotted to form a fork-like guide, so that the pressure piece, for example stop bolt side, the stopper bolt between the formed Can pick up thighs. The stop pin is advantageous made of a wear-resistant Metal, especially steel, on the one hand wear and tear prevent and on the other hand to ensure sufficient strength.

In a preferred embodiment the rotary member is designed as a turntable. On the mounting plate opposite side is the turntable with an axially arranged for this lock cylinder connected and pointing outside the turntable axis a receptacle for a arranged on the lock cylinder actuator on. Upon rotation of the lock cylinder, enabled by the insertion of the ignition key, can so that the turntable is rotated in the other switching position become.

The Invention will be illustrated below with reference to an embodiment. In the associated Drawings show:

1 FIG. 3: a perspective view of a switch mechanism, FIG.

2 : this with a connected switch block,

3 FIG. 2: a plan view of the switch mechanism in a first switching position, FIG.

4 : a plan view of this in a second switching position,

5 : a bottom view of the switch mechanism.

The in 1 shown switch mechanism shows a support plate 1 with a rotatable about an axis A and spring-loaded turntable 2 with a stop pin 3 made of spring steel and a trigger slide 4 with a contact piece 5 , The mounting plate 1 is with lateral guide walls 6 and transverse to these formed guide projections 7 provided, the guide rails for the release slide 4 form. This is by a tension spring 8th loaded on one of the mounting plate 1 trained retaining bolts 9 is supported. The turntable 2 is on the mounting plate 1 side facing away with a receptacle B for an actuator provided for this.

In 2 is the switch mechanism in the same switching position from a different viewing position and with a fixed to the support plate 1 connected switch block 10 shown, which houses three microswitches, each with a switching contact 11 with the contact piece 5 of the shutter slide 4 in operative connection. Shown is the solved position. To recognize is further one in the mounting plate 1 trained, to the rotation axis A coaxially arranged Kurverführung 12 into which the stop pin 3 intervenes. This is below the turntable 2 with one in a sleeve-shaped Pressure piece 13 arranged compression spring ( 14 . 3 . 4 ) as a spring in operative connection, the one at the support plate 1 arranged stop piece 15 is supported.

In the 3 and 4 the training and the interaction of the switch mechanism forming elements are illustrated, wherein the turntable 2 only indicated (dash-dotted line). The turntable 2 engages with the arranged on this stop pin 3 in the coaxial with the axis A trained curve guide 12 and with a driving pin 18 in one on the trigger slider 4 trained recess 19 one, the curve guide 12 in an angular range of 90 °, between the angles 270 ° and 360 ° in the clockwise direction, in the mounting plate 1 is formed and wherein the connecting line between the axis A and the stop piece 15 the curve guide 12 halved. The two ends of the curve guide 12 each form a stop for the stop pin 3 , In the in 3 shown dissolved position of the contact piece 5 opposite the three switch contacts 11 is the stop pin 3 in the 270 ° position in the curve guide 12 , This 270 ° position of the stop pin 3 is through the through the curve guide 12 formed stop and in the pressure piece 13 arranged compression spring 14 defines the stop pin 3 presses against the stop and to a much greater spring force than the tension spring 8th having. The pressure piece 13 lies here, by the inside of the pressure piece 13 supported compression spring 14 loaded with a groove formed at its closed end 16 with a semicircular cross section on the stop piece 15 on, which is essentially the shape of the groove 16 has corresponding contact surface, and is parallel to the plane of the mounting plate 1 pivotable.

The pressure piece 13 is slotted stop bolt side to form a fork-like guide and takes the stopper bolt 3 between the formed thighs 17 with little play, so that relative movements between the pressure piece 14 and the stop pin 3 are possible. The compression spring 14 is between the thighs 17 at the stop pin 3 supported. Upon actuation of the turntable 2 with a consequent pivotal movement of the pressure piece 13 thus can the length and the clamping force of the compression spring 14 to change. In the position in which this with the connecting line between the axis A and the stop piece 15 matches, is the compression spring 14 most compressed and has a maximum spring tension (dead center position).

The eccentric on the turntable 2 arranged driving pin 18 engages with play in the two opposing abutment surfaces for this ( 18 ) having recess 19 one. Upon actuation of the turntable 2 , associated with a movement of the stop pin 3 from one to the other (end) position in the curve guide 12 , also performs the driver 18 a movement along a quarter-circle path, this with the shutter slide 4 remains engaged. The mounting plate 1 further has one with the trajectory of the driving pin 18 corresponding guide groove 20 For this ( 18 ) and a slot recess 21 on, in the direction of movement of the shutter slider 4 is trained and in the one at this ( 4 ) arranged guide pin 22 intervenes.

The slot recess 21 is in 5 (Switch position as in 4 ), which the one with as an operating device for the turntable 2 serving lock cylinder 23 completed switch mechanism from its bottom shows, with the axis A of the turntable 2 and those of the lock cylinder 23 are identical and this ( 23 ) with an eccentrically arranged projection (not shown) as an actuating element for the turntable 2 into the receptacle B ( 1 ) intervenes. The slot recess 21 is with a narrowing 24 provided by two in the slot recess 21 protruding projections 25 is formed and which the movement of the guide pin 22 at a switching movement of the trigger slider 4 delayed when the compression spring 14 has reached its dead center position. At a distance from the slot recess 21 are parallel to these two slots 26 in the mounting plate 1 introduced, which is an elastic expansion of the constriction 24 through the guide pin 22 enable. The clear width of the restriction 24 in the unexpanded state is only slightly smaller than the diameter of the guide pin 22 ,

Now, if the switching state of the three micro-switches is to be changed, for example, to activate or deactivate these connected airbags, the lock cylinder 23 turned with an ignition key, and the turntable 2 moves, for example from the in 3 shown position in the in 4 shown. This will be the stop pin 3 and the driving pin 18 moved, whereby on the one hand the pressure piece 13 with the compression spring 14 be pivoted while the compression spring 14 is brought to their dead center position and increasingly tense and on the other hand, the release slider 4 with his contact piece 5 due to the application of the tension spring 8th in the direction of the switch contacts 11 to be moved. At the same time, the guide pin moves 22 in the slot recess on the constriction 24 to. Just before the compression spring 14 has reached its dead center, also has the leadership 22 the narrowing 24 reached and is stopped by this first in its further movement, whereby a decoupling of with Game in the recess 19 arranged driver 18 from the release slider 4 is caused. By following the exceeding of the dead center following abrupt relaxation of the compression spring 14 is also the driver 18 in the recess 19 against the release slider 4 in the direction of the switch contacts 11 accelerated abruptly, causing the trigger slide 4 receives a shock pulse and the guide pin 22 the narrowing 24 by a widening of the same overcomes, with the tension spring 8th supports. The contact piece 5 operated, also abruptly, the switch contacts 11 , Also due to high impact loads this is in 4 shown position of the switch mechanism and the associated switching position of the microswitch stable.

1

support plate

2

turntable

3

stop pin

4

trip slider

5

switching piece

6

guide wall

7

guide projection

8th

mainspring

9

retaining bolt

10

switch block

11

switching contact

12

curved guide

13

Pressure piece

14

compression spring

15

stop piece

16

groove

17

leg

18

driving pins

19

recess

20

guide

21

Slot recess

22

guide pin

23

lock cylinder

24

constriction

25

head Start

26

slot

A

axis

B

admission

Claims (11)

Switch mechanism for actuating at least one switching contact, with an actuatable spring-loaded rotary member (turntable 2 ) with an eccentrically arranged driver ( 18 ) and a linear actuator (FIG. 4 ) for the switching contact ( 11 ) and with a mounting plate ( 1 ) for the rotary member ( 2 ) and the actuator ( 4 ), wherein the rotary member ( 2 ) is rotatable between two, each one switching position determining positions, by stops and the rotary member ( 2 ) acting and this in each case against one of the stops pressing spring (compression spring 14 ) are defined, and wherein the adjusting spring ( 14 ) is arranged such that it has between its two positions determined by the stops a dead center position with a maximum spring tension, from which they out the rotary member ( 2 ) abruptly spends under relaxation in the respective position, and that the actuator ( 4 ) in the direction of the switching contact ( 11 ) by another on the support plate ( 1 ) arranged spring (tension spring 8th ) with a substantially lower spring force than the spring ( 14 ) is acted upon. Switch mechanism according to claim 2, characterized in that the mounting plate ( 1 ) in the direction of movement of the actuator ( 4 ) an elongated recess ( 21 ) for a fixed to the actuator ( 4 ) arranged guide pin ( 22 ) and in this ( 21 ) a movement-delaying narrowing ( 24 ), at which the movement of the guide pin ( 22 ) upon reaching the dead center of the spring (compression spring 14 ) stopped and after exceeding the dead center due to released spring energy and a conditional by this elastic expansion of the constriction ( 24 ) is resumed abruptly. Switch mechanism according to claim 2, characterized in that the constriction ( 24 ) by at least one in the recess ( 21 ) protruding projection ( 25 ) is formed, and in that in the mounting plate ( 1 ) at a distance from and parallel to the recess ( 21 ) a slot ( 26 ) is arranged, which is an elastic expansion of the constriction ( 24 ) in the region of the projection ( 25 ). Switching mechanism according to Claims 1 and 2, characterized in that the further spring bears on the support plate ( 1 ) and on the guide pin ( 22 ) engaging tension spring ( 8th ). Switch mechanism according to claim 1 or 2, characterized in that the actuator ( 4 ) a recess ( 19 ) for the intervention of the driver ( 18 ), in which this engages with play. Switch mechanism according to claim 1, characterized in that the rotary member ( 2 ) with a stop pin ( 3 ), which fits into one in the mounting plate ( 1 ) and the axis of rotation (A) of the rotary member ( 2 ) coaxially arranged finite curve guide ( 12 ) engages, the two ends of which form the stops. Switch mechanism according to claim 6, characterized in that the adjusting spring is a compression spring ( 14 ), which on the mounting plate ( 1 ) is pivotally supported and at the stop pin ( 3 ) attacks. Switch mechanism according to claim 7, characterized in that the compression spring ( 14 ) in a sleeve-shaped pressure piece ( 13 ) is guided on the mounting plate ( 1 ) and at the stop pin ( 3 ) is pivotally locked and a change in length of the compression spring ( 14 ) upon actuation of the rotary member ( 2 ). Switch mechanism according to claim 6, 7 or 8, characterized in that the stop pin ( 3 ) consists of a wear-resistant metal, in particular steel. Switching mechanism according to Claim 1 or 6, characterized in that the rotary member is in the form of a turntable ( 2 ) for the arrangement of a lock cylinder ( 23 ) is formed and on its the support plate ( 1 ) facing away from side with a coaxially formed receptacle (B) for a on a lock cylinder ( 23 ) arranged actuating element is provided. Use of the switch mechanism for simultaneous activity several microswitches.