DE102004026243B3 - Operating system for electrical switches has lever pivoted midway between two projections on broad head of plunger sliding in linear bearing and engaging tip of switch element - Google Patents

Abstract

The operating lever (25,34) projects from a hole in the side of a closed housing (28) holding the switch element (26). The lever is pivoted (29) midway between two small projections (33) on the flat head (31) of a plunger. The projections may be made monolithically with the head or may be made of a different material and added separately. The plunger has a cylindrical portion (32) sliding in a linear bearing (30). The flat end (27) of the cylindrical portion bears against the top of the switch element.

Description

The Invention relates to an additional solution for Patent Hauptp 103 58 946 for an actuator for switching with a pivotally mounted rocker switch, the manual can be actuated from a starting position in two switching positions. Subject of the main patent are two solutions for such an actuator, which is common that the rocker switch on both sides two at a distance has mutually arranged, laterally projecting bolt-like extensions, each in guides are slidably held and below the rocker switch, in the Middle between the extensions a switching element is arranged with a spring element for the release of a Switching function on actuation the rocker switch in the switching positions against the spring force of Spring element, wherein the rocker switch via the spring element in the Starting position in the leadership is held.

Similar operating devices are well known. For example, actuators with integrated paddle shifters are used to switch a wide variety of vehicle functions, especially in the automotive industry. So is out of the DE 43 24 788 C2 a generic actuator for switching a powershift transmission in a motor vehicle via a arranged in a steering wheel spoke switch with successive gripping surfaces known. In this case, the actuating device consists of a finger-operated rocker switch embedded in at least one steering wheel spoke by means of a housing for the manual upshift and downshift of the transmission. The actuator essentially consists of a rocker switch, which is connected to the steering wheel spoke. It is arranged adjacent to the steering wheel rim in such a way that an actuating movement of the switching rocker can be done by the fingers of a driver's hand without letting go of the steering wheel. For this purpose, the rocker switch has on its actuating surface at least one corresponding recess and at least one elevation, which makes it possible to easily feel and position the finger for pivoting the rocker switch.

A generic actuator is from the DE 27 40 364 known. Described herein is an actuator in which a pivotally mounted rocker switch is actuated by train and pressure, wherein the rocker is held by spring force in its initial position and the actuating element of the rocker is formed on one side and in one piece.

Another actuator is in the DE 196 00 657 C1 described. This results in an actuator for switching with a pivotally mounted intermediate element in the form of a rocker, which has laterally protruding bolt-like extensions, which are mounted in a housing part. Below the intermediate element, a linearly guided plunger element is arranged, which switches a switching element upon actuation of the device.

Another actuator is in the DE 102 17 696 A1 described. Described herein is an actuator in which has a rocker switch pivotable in one degree of freedom with two spaced laterally projecting bolt-like extensions, which are held in guides, wherein below the rocker switch in the middle between the extensions, a switching element is arranged and to the rocker an actuating element is integrally formed.

The common task of the additional invention is to provide an additional Actuator to develop, the structurally simple design, a safe operation of a Switching element allows the switching element is minimally loaded and inexpensive to manufacture and the about it out for the Operator through a cheap Haptic distinguishes.

This object is achieved according to the main patent, characterized in that a pivotally mounted rocker switch, which is manually operable from a starting position in two switching positions, on both sides two spaced apart, laterally projecting bolt-like extensions has, which are each held slidably in guides and below the Rocker, in the middle between the extensions, a switching element is arranged with a spring element for triggering a switching function upon actuation of the rocker switch in the switching positions against the spring force of the spring element, wherein the rocker is held via the spring element in the starting position in the guide and to the rocker one-sided an actuator is integrally formed. With the means according to the invention according to this first embodiment, the possibility is created, with the simplest means to produce an actuator that allows cost-effective production. This relatively simple design has created a system that, based on the leverage laws, develops a haptic favorable to the operator. The integrally formed on the rocker extensions serve as storage points for the actuator of the switch. By moving of the actuating element in the direction of the switching element, the extension, which is arranged behind the switching element seen from the actuating element to the camp. If, conversely, the actuating element is actuated counter to the switching element, then the extension, which is arranged by the actuating element and arranged in front of the switching element, serves as a bearing. In both cases, there is a moment that manifests itself in a pleasant and very smooth feel for the operator. The switching element can be very easily actuated by the actuating element and the thus realized rocker switch, wherein the haptic of the actuating device is adjustable by the counter-pressure of the spring element in the switching element.

In a second embodiment of the main patent, the object of the invention is achieved in that a pivotally mounted rocker switch, manually from a starting position out in two switching positions can be actuated, two on both sides spaced apart, laterally protruding bolt-like Renewals owns, each in guides are held displaceably and below the rocker switch, in the middle between the extensions, a switching element is arranged with a spring element for the release of a Switching function on actuation the rocker switch in the switching positions against the spring force of Spring element, wherein the rocker switch on the spring element in the Starting position in the leadership is held and above the rocker switch an actuating lever for the Rocker is arranged and that the operating lever is centered between the extensions is mounted pivotably about a center and the operating lever for Center spaced on both sides motion transmission means for transmitting motion on the rocker switch when pressed of the operating lever having. By this embodiment of the invention the actuating device In particular, the constructive solution of a switching means a rocker realized in which the actuating lever of the actuator in both directions of actuation creates equal paths and also equal moments. The same moments offer the advantage according to the invention, that the operator of the actuator the feeling is mediated to trigger the same function. Since in both directions of actuation each same switching element is actuated, it can not come to uncertainty of the operator.

The Task is through the additional Invention solved by that the switching rocker at least one laterally protruding bolt-like renewal has, which is mounted in a housing enclosing the rocker switch and the below the rocker switch a guided Plunger element arranged is and that the plunger element interacts with a Schaltele element and the to the rocker switch one-sided an actuator is formed. By the solution according to the invention is now the possibility created, the switching element in the actuator during switching minimal to charge. By means of the linear guide of the plunger element the ram element acts direct and straight on the switching element. This offers to one advantage that always the switching element by the leadership clearly operated will and in addition the advantage that the switching element is minimally loaded, as the Switching element is always actuated from an optimal direction. This structurally simple construction according to the invention is the possibility created, the switching element by means of the plunger element regardless of Tolerances in the actuator always to switch correctly.

following are the inventions of the main patent with reference to drawings and embodiments explained and in a further drawing an embodiment variant according to the claims.

It demonstrate

1 a rocker with a one-sided and integrally molded actuating lever,

2 an embodiment of an actuating device,

3 a further embodiment of an actuating device,

4 a torsion protection for the actuator according to the invention and

5 an embodiment of an actuator according to the claims.

In the 1 is a rocker switch 1 with a one-piece and one-sided molded actuating lever 2 shown. To the rocker switch 1 are laterally projecting bolt-like extensions 3 formed. The rocker switch has in this embodiment, a rectangular base, approximately up to the dashed line 4 enough. The rocker switch 1 is essentially symmetrical, that is, the extensions 3 have the same distance to the center of the rectangular body of the rocker switch 1 and at the same time an identical distance to the end 5 of the main body and the dashed line 4 , In this embodiment is to the rocker 1 an operating lever 2 integrally formed and one-sided, while the end 6 the operating lever 2 take an ergonomically favorable shape, so as to make it easier for the operator and be operated. An embodiment of an actuating device with one of 1 corresponding rocker switch 1 with molded actuator 2 is in 2 shown.

In the 2 is a basic structure of an actuator 7 shown in the side view. The actuating device 7 consists of a housing 8th , one in the housing 8th built-in switching element 9 and in the case 8th guided rocker switch 1 with the molded actuator 2 , The extensions 3 the rocker switch 1 are in guides 10 in the case 8th incorporated are kept. Below the rocker switch 1 is the switching element 9 , which may also be a microswitch, arranged. It is conceivable that in the switching element 9 included spring the rocker switch 1 in the final stages of the leadership 10 holds. For this purpose, a switch plunger is enough 11 from the switching element 9 out and presses against the rocker switch 1 , Clearly visible from this basic drawing of the symmetrical structure of the rocker switch 1 with respect to the switching element 9 , The switching element 9 is right in the middle between the guides 10 for the extensions 3 the rocker switch 1 arranged. For switching with the actuator 7 becomes the actuator 2 moved in the direction of arrows P, B. Will now be the actuator 2 moves in the direction of arrow P, then the extension serves 3 that from the perspective of the actuator 2 in front of the switching element 9 is arranged as a bearing point. The rocker switch 1 presses with the arranged behind the front bearing point part of the rocker switch 1 on the switch plunger 11 and thus solves the to the switching element 9 connected function. When moving the actuating element 2 in the direction of arrow B is behind the switch 9 arranged extension 3 as a bearing point, around this rear bearing point now tilts the rocker switch 1 and thus also operated via the switch plunger 11 the switching element 9 , The two possible Wipprichtungen P, B thus solve the same switch plunger 11 and also the same switching function. In this embodiment according to the main patent different moments are generated for the different operating directions P, B. By changing the distance between the extensions and consequently, of course, to the distance of the center of the rectangular rocker switch 1 are different moments on the actuator 2 adjustable. In particular, the generated different moments then offer an advantage, for example, the accessibility of the actuator 2 is different. For example, if the actuator 7 is mounted in a spoke of a steering wheel of a motor vehicle, accessibility to the actuator from the front of the steering wheel may be more difficult and more difficult from the rear. Will now be the actuator 2 operated from the front, for example, with the thumb, so here a greater drag, that is a larger moment may be useful. If, however, the actuator 2 operated from the back of the steering wheel, this is usually possible only with the fingers placed around the steering wheel. It follows that with the outstretched fingers a not so great force can be generated and thus a lower resistance, that is, a smaller moment makes sense.

In the 3 a further embodiment variant according to the main patent is shown as a schematic diagram. The actuator 12 consists of a housing 13 in which a switching element 14 below a separate rocker switch 15 is arranged. Above the rocker switch 15 is an operating lever 16 in the case 13 pivoted. Here is the center 17 the pivot point of the operating lever 16 exactly in the middle above the rocker switch 15 and the switch plunger 18 of the switching element 14 arranged. The rocker switch 15 is exactly like in the actuator 7 in guides 19 held and by means of the spring force from the switching element 14 and the switch plunger 18 at the upper ends of the guides 19 positioned. To the operating lever 16 are means 20 for actuating the rocker switch 15 appropriate. These funds 20 , which here represent the shape of a triangle, are equidistant from the center 17 of the operating lever 16 above the extensions 21 . 22 the rocker switch 15 arranged. In this embodiment, the means 20 an equal distance from the center 17 but this is not absolutely necessary. Rather, it is even provided as a further embodiment that the means 20 a different distance from the center 17 so as to produce different moments.

Will now the operating lever 16 actuated in the direction of the arrows P ', B', so the actuating lever pivots 16 around the center 17 , Due to the structural design according to the invention of the mechanics of the actuator 12 are in both directions of actuation P ', B' the same actuating paths for triggering the switching element 14 necessary. From equal introduced forces on the operating lever 16 in the directions P ', B' then also arise the same moments on the operating lever 16 , This results in the advantage according to the invention that the actuating device has the same feel in both actuating directions P ', B'. Will now the operating lever 16 moved in the direction of the arrow P ', so the rocker moves 15 about the extension 22 , which in this case as a bearing point for the rocker switch 15 serves. The rocker switch 15 describes it with their extension 21 a circular path around the bearing point 22 , Because the movements of the rocker switch 15 for triggering the switch plunger 18 but are very small, the leadership must 19 not necessarily a circular path in the housing 13 describe. To trigger the switch plunger 18 is usually a movement of the rocker switch 15 about 1 mm necessary. Will now the operating lever 16 in the direction of arrow B 'is actuated, so pivots or better tees the rocker switch 15 about the extension 21 , which in this case as a bearing point for the rocker switch 15 serves. The rocker switch 15 gets through to the operating lever 16 molded-on means 20 in the direction of the switching element 14 emotional. The means 20 lie loosely on the rocker switch 15 on. But it is also conceivable in the rocker switch 15 in the field of funds 20 make a positive connection to the position and movements of the rocker switch 15 to stabilize.

So that the rocker switch 15 . 1 is not twisted while pressing is proposed to the extensions 3 . 21 . 22 a torsion protection 23 to mold. One embodiment of a torsion protection is in 4 shown. To the rocker switch 1 . 15 is an extension 3 . 21 . 22 molded by the leadership 10 . 19 through and over the leadership 10 . 19 extends beyond. The guide is formed from the housing, which surrounds the rocker switch and thus can also represent a part of the housing. At the end of the extension 3 . 21 . 22 is in a groove 24 of the housing 8th . 13 a torsion protection 23 to the extension 3 . 21 . 22 formed, which has a larger diameter than the width of the guide 10 . 19 measures. The torsion protection 23 consequently also has a larger diameter than the extension 3 . 21 . 22 , Will now the rocker switch 1 . 15 pressed, so can the rocker switch 1 . 15 do not cant as they pass through the torsion 23 in the groove 24 is guided.

The described controls 7 . 12 are used for example in motor vehicles and especially for the operation of functions of the vehicle. A preferred application of the controls 7 . 12 is the integration in a steering wheel. The actuating device 7 . 12 is in the way in the steering wheel rim, the steering wheel spoke or the steering wheel baffle integrated that the actuator 2 , or the operating lever 16 from the front and back of the steering wheel are actuated. But it is also conceivable, the controls 7 . 12 to integrate as switching elements in the dashboard, the door linings, the seat, et cetera.

In an actuating device according to the invention is between the switching rocker 25 and the switching element 26 a switch plunger 27 arranged. A schematic structure is in 5 shown. The actuator consists of a housing 28 in the one rocker switch 25 , a switch plunger 27 and a switching element 26 is integrated. The rocker switch 25 is by means of an extension 29 swiveling in the housing 28 stored. Below the rocker switch 25 is the switch plunger 27 arranged, by means of a linear guide 30 in the case 28 is held so that the switch plunger is displaced in the direction of arrow D back and forth. The linear guide 30 may be a part of the housing and made accordingly from the same material, but there is also the possibility of the linear guide 30 as a separate component in the housing to insert. Depending on the application, then the separate component may also consist of a lubricious material or include a sliding bearing or a sliding sleeve. Accordingly, of course, a corresponding sliding tion tion directly into the housing 28 to the linear guide 30 be inserted. The switch plunger 27 may be integrally formed and made of plastic. But it is also conceivable, the switch plunger 27 made of several materials and multipart. In the in 5 illustrated embodiment, the switching plunger 27 from two areas 31 . 32 educated. The area 31 is immediately below the rocker switch 25 arranged and, optionally, depending on the structural conditions of the shape of the rocker switch 25 be adjusted. In this embodiment is to the area 31 in the direction of the rocker switch 25 at the ends of the area 31 a survey 33 appropriate. The surveys 33 are the same distance S from the extension 29 the rocker switch 25 on the area 31 arranged the switch plunger. The surveys 33 Can be made in one piece to the area 31 be formed or consist of separate parts, so that there is the possibility here, for example, a lubricious or wear-resistant material as a partner of the rocker switch 25 to face. The first area 32 of the switch plunger 27 serves for linear guidance of the switch plunger 27 , The first area 32 may for example be cylindrical, which would be advantageous if circular sliding elements are to be used. The restriction to a cylindrical formation of the area 32 but is not mandatory. It is also conceivable that the first area 32 has an angular shape. Furthermore, it is also conceivable that in the first area 32 and the linear guide 30 conforming geometries are introduced, but all a linear displacement of the switching plunger 27 in the direction of the switching element 26 enable. Below the switch plunger 27 is the switching element 26 in the case 28 or attached to a printed circuit board, not shown.

Will now the actuator by means of the actuator 34 in the direction of the arrow P '' or B '' moves, then pivots the rocker switch 25 around the pivot point of the extension 29 , The rocker switch 25 Depending on the direction of actuation, it acts on one of the elevations 33 so the switch tappet 27 in the direction of the arrow D in the direction of the switching element 26 is moved. By the inventive storage of the switch plunger 27 becomes the switching element 26 always optimally operated. The linear guide 30 for the switch plunger 27 causes an off-center actuation of the switch plunger 27 is converted into a purely linear motion. The by the off-center arrangement of the survey 23 applied tilting moments are thereby from the linear guide 30 added. By the linear movement of the switch plunger 27 becomes the switching element 26 always optimally operated. Such actuation of the switching element 26 has a positive effect on the life of the switching element 26 out. After releasing or releasing the actuator 34 is the switching plunger by the spring force of the switching element 26 moved back to the starting position.

Claims (8)

Actuating device according to the main patent 103 58 946 for switching with a pivotally mounted rocker switch ( 25 ), which is manually operable from a starting position in two switching positions (P '', B ''), wherein the rocker switch ( 25 ) on both sides at least one laterally protruding bolt-like extension ( 29 ), the bolt-like extensions each in a rocker switch ( 25 ) enclosing housing ( 28 ) are stored, below the rocker switch ( 25 ) a guided ram element ( 27 ) is slidably disposed in a linear guide, the plunger element ( 27 ) with a switching element ( 26 ) cooperates by pressing the rocker switch ( 25 ) is moved to trigger a switching function against the spring force of a spring element in the direction of actuation of the switching element, and to the rocker switch ( 25 ) on one side an actuating element ( 34 ) is formed. Actuating device according to claim 1, characterized in that on each side of the switching rocker ( 25 ) an extension ( 29 ) is formed, so that the rocker switch ( 25 ) is guided on both sides. Actuating device according to one of claims 1 or 2, characterized in that the plunger element ( 27 ) in a linear guide ( 30 ) is recorded Actuating device according to one of claims 1 to 3, characterized in that the plunger element ( 27 ) from a linearly guided first area ( 32 ) and one immediately below the rocker switch ( 25 ) arranged on the shape of the rocker switch ( 25 ) adaptable second area ( 31 ) is formed. Actuating device according to one of claims 1 to 4, characterized in that in the second area ( 31 ) of the plunger element ( 27 ) in the direction of the rocker switch ( 25 ) and at the same distance from the extension ( 29 ) Surveys ( 33 ) are mounted. Actuating device according to one of claims 1 to 5, characterized in that the extension ( 29 ) through a part of the housing ( 28 ) and over the part of the housing ( 28 ) and that the end of the extension ( 29 ) a larger diameter ( 23 ) than the range ( 22 ), which runs through the housing ( 10 . 19 . 28 ) extends therethrough. Actuating device according to one of claims 1 to 6, characterized in that the actuating device ( 1 ) is integrated in the steering wheel of a motor vehicle. Actuating device according to claim 7, characterized in that the actuating device ( 1 ) is integrated into the steering wheel in the manner that the actuator ( 1 ) is operable from the front and rear of the steering wheel.