DE3030911C2 - - Google Patents

Description

The invention relates to an electrical switch, in particular one Steering column switch for motor vehicles, which has the features from the generic term of claim 1.

Such an electrical switch is known from DE-GM 72 26 185. This switch has a contact bridge that runs across the shift lever runs and resiliently abuts against this. The contact bridge is always with a feed contact electrically connected and protrudes with its first End between two fixed contacts spaced apart. In the The neutral position of the shift lever does not touch either of these two Fixed contacts. When swiveling the shift lever out of the neutral position depending on the switching direction, it strikes one or the other of the fixed contacts. A second contact bridge of the switch is also permanently with the Feed contact connected. Depending on the switching direction, it beats on one or the other of two mating contacts when the switch lever is over the the neutral position adjacent work positions into another Working position is moved.

In the known switch, two are made of expensive resilient material manufactured contact bridges needed to be in the neutral position neighboring working positions two and in another working position to connect three fixed contacts.

Compared to the state of the art considered, the object of the invention is to create an electrical switch that is the same Switching functions like the well-known switch are fulfilled, but more cost-effectively can be manufactured and builds more compact.

This object is achieved in that one electrical switch according to the preamble of claim 1 additionally with equips the features from the characterizing part of claim 1.

With such a design, it is possible to which are necessary to fulfill the various switching functions with  run a single contact bridge, making an expensive resilient Contact bridge is saved. Because there is only one contact bridge in the switch A compact design is also possible.

Electrical switches with contact bridges that can be moved at both ends and on one side via a separate spring element on the switch housing support, are per se from FR-OS 23 53 941 or DE-AS 28 44 873 known.

The switch according to DE-AS 28 44 873, however, has no neutral position Shift lever in which neither the first nor the second fixed contact with the Feed contact are connected and he has no working position in both the first and also a third fixed contact are connected to the feed contact are. One with the contact bridge of an electrical according to the invention Switch's comparable contact bridge only works alternately two on opposite sides and at opposite ends of the Contact bridge provided fixed contacts together. The contact bridge is therefore not designed to be resilient in itself.

The contact bridges from FR-OS 23 53 941 each connect at most two fixed contacts with each other. They are also not resilient in themselves educated.

An electrical switch with the features of claim 1 can in are advantageously further developed according to the subclaims. So is it is favorable if the contact bridge according to claim 2 directly on the feed contact is present, so that an expensive copper strand as a connection between the Contact bridge and the fixed contact is saved.

Are advantageous according to claim 6 between the contact bridge and an associated, actable fixed contact at least two of each other there are separate points of contact. Such training is with complicated switching behavior of the contact bridge particularly important so nevertheless a long lifespan and great functional reliability of the Switch is obtained. In addition, expensive silver contact rivets or The like can be dispensed with at the contact points, so that  results in a further discount.

The multiple points of contact can be obtained in a simple manner in that the tab on the side of the tab bent towards the mating contact are or in that in the contact bridge or a fixed contact There are recesses that separate the points of contact from each other. If a contact bridge can act on two sides towards fixed contacts, so it is conceivable to make recesses in it from its end face and the approaches between the individual recesses alternately or in turn any other sequence towards either direction. The however results in a large width of the contact bridge. It is therefore cheaper to further develop the switch according to claim 10 in that the contact bridge laterally bent rag carries and that it from the front has at least one recess and the approaches between the Cut-outs on a certain length compared to the side tabs are turned in the opposite direction.

An embodiment of an electrical switch according to the invention as well an associated circuit diagram is shown in the drawings. Based on Figures of these drawings, the invention will now be explained in more detail. It shows

Fig. 1 is a plan view of an open switch according to the invention with a contact bridge in the form of a substantially rechteckfömigen sheet metal strip,

Fig. 2 shows a section along the line II-II of Fig. 1,

Fig. 3 is a section along the line III-III of Fig. 1, in which the various positions of the contact bridge are located in the individual switching positions,

Fig. 4 shows a section along the line IV-IV of Fig. 3, in which the laterally bent tabs of the contact bridge for the production of two contact points between it and the fixed contact are particularly clearly visible,

Fig. 5 is a circuit diagram for the switch design in FIGS. 1 to 4.

The switch shown in the figures has a switch housing 20 with a base plate 21 which is clipped into the other housing parts with the detents 22 . The base plate 21 and the housing cover 23 have two bores 24 which are aligned with one another and in which the switching element 26 is rotatably mounted in the horizontal direction with the two pins 25 . The switching element 26 lies between the housing cover 23 and ribs 27 projecting upward from the base plate, so that the frictional resistance to rotation of the switching element 26 is only slight. Ribs 27 can also be provided between the housing cover 23 and the switching element 26 .

The end of the switching element 26 adjacent to the bearing is located in an opening 28 on the end face 29 of the housing 20 . A recess 30 in the switching element 26 into which the switching lever 31 engages also opens to this side. This is rotatably mounted in the two side walls 32 of the recess 30 . The height of the recess 30 is greater than the height of the shift lever 31 so that it can be pivoted in the vertical direction. The switching element 26 remains in its position. The wall 34 opposite the opening 33 of the recess 30 carries a switching curve 35 for a spring-loaded switching bolt 36 guided in the end of the switching lever. The switching curve 35 is shaped in such a way that the shift lever 31 can assume two adjacent stable shift positions and, after each stable shift position, a shift position which is self-resetting in the corresponding stable shift position.

The width of the recess 30 corresponds to the width of the shift lever 31 . So if you pivot the shift lever in the horizontal direction, the switching element 26 is also rotated in the horizontal direction. It does not matter in which of the vertical switching positions the switching lever 31 is located. The horizontal switching positions are, as can be seen from FIG. 1, determined by the switching curve 37 formed on the housing 20 and the spring-loaded switching pin 38 guided in the switching element 26 . In FIG. 1, the shift pin 38 immersed in the members of the stable zero position notch 39 of the switching curve 37. Adjacent to this switching position is a self-triggering switching position, which is marked by the kink 40 in the rise of the switching curve 37 . Beyond the unstable switching position, as can be seen from the number of further notches in the switching curve 37 , there are still the stable horizontal switching positions. In the different switching positions, the two contact bridges 44 and 45 , which are held on the switching element 26 , interact with the fixed contacts 46 and 47 or 47, 48, 49 and 50 .

In addition to the contact bridges 46 and 48 , a further contact bridge 60 is accommodated in the switch housing 20 , which extends transversely to the switching lever 31 and is adjusted in the vertical direction when the switching lever is pivoted in this direction. The contact bridge 60 is located in a recess 61 of the switching element 26 , which extends approximately in the longitudinal direction of the contact bridge 60 and is so large that a horizontal pivoting of the switching element does not affect the contact bridge 60 . Shift lever 31 and contact bridge 60 lie, as can be seen in FIGS. 2 and 3, directly against one another. In order to obtain a somewhat constant distance of the points of contact between the switching lever 31 and the contact bridge 60 from the axis of rotation 62 , about which the switching lever is pivoted in order to adjust the contact bridge 60 in the vertical direction, a corrugation 63 is pronounced upward on the contact bridge 60 .

The contact bridge 60 works in the different switching positions with a total of four fixed contacts. It is permanently connected to the fixed feed contact 47 , regardless of the switching position. Of the other fixed contacts, which it connects to the feed contact 47 depending on the switching position, the fixed contacts 64 and 65 are arranged above the contact bridge 60 , while the fixed contact 66 is located below the contact bridge 60 . The fixed contacts 64 and 65 above the contact bridge 60 are realized by metal plates lying parallel to the base plate 21 , which are bent at right angles from metal strips 67 which are perpendicular to the base plate 21 .

In the exemplary embodiment shown, the contact bridge 60 is a substantially rectangular, elongated sheet metal strip. One end of the sheet metal strip is shaped into a hollow cylinder 70 which projects on one side beyond the lateral edge 71 of the contact bridge 60 and from whose jacket three abutments 72 are bent into the hollow interior on this side. A coil spring 73 is inserted into the cylinder 70 . In front of the front side of the hollow cylinder 70 projecting beyond the lateral edge 71 of the contact bridge 60 is perpendicular to the longitudinal direction of the hollow cylinder a leg of the fixed contact 47 in the form of an angle piece, in front of the other front side there is a wall 74 directed perpendicular to the base plate 21 . The coil spring 73 is supported on the abutments 72 and on the wall 74 and thus presses the contact bridge 60 against the fixed contact 47 . The fixed contact 47 and the wall 74 also serve as a guide for the hollow cylinder 70 and thus for the contact bridge 60 transverse to its longitudinal direction. A web 75 is formed perpendicularly to this longitudinal direction on the wall 74 and the base plate 21 and extends in front of the cylinder 70 from the wall 74 below the contact bridge 60 to the fixed contact 47 . The web 75 stabilizes the position of the contact bridge 60 in its longitudinal direction and serves as a stop for a movement of the left end 76 of the contact bridge 60 downwards. Immediately in front of the cylinder 70 , on the side 77 of the contact bridge 60, an extension 79 of the contact bridge framed by two indentations 78 is bent upward. The fixed contact 65 is arranged above this extension 79 . At the other end 85 of the contact bridge 60 , two cutouts 86 are made in the front face of the latter. This has resulted in three individual lugs 87 which are bent upward at a certain length at right angles from the plane of the contact bridge 60 . As can be seen particularly clearly from FIG. 4, two tabs 88 are also laterally embossed on the contact bridge 60 at the end 85 in the direction opposite the lugs 87 . The fixed contact 64 is arranged above the right end 85 of the contact bridge 60 and below the fixed contact 66 . The design of the contact bridge has the effect that it touches the fixed contacts 64 and 66 in at least two places in the corresponding switching positions. This results in a contact connection with a long service life and great functional reliability.

The contact bridge 60 is biased against the shift lever 31 by a separate spring element, namely the spiral spring 89 . This spring is supported on the side of the contact bridge 60 facing away from the switching lever 31 and on the base plate 21 . The point of engagement of the spring 89 on the contact bridge 60 lies between the point at which the switching lever 31 acts on the contact bridge 60 and the right end 85 of the contact bridge 60 .

The structure of the switch shown entails the following behavior of the contact bridge in and between the individual switching positions of the switching lever 31 :
Lined, latched switching position of the switching lever 31 , the contact bridge 60 is parallel to the base plate 21 in the switch housing 20 . Its left end 76 is pressed by the spring 89 against the web 75 due to a lever action, its right end is held between the fixed contacts 64 and 66 . The contact bridge therefore only touches the fixed contact 47 . If the inner part of the shift lever 31 is now pivoted upward into the second latching position, the contact bridge 60 follows this movement due to the spiral spring 89 . In doing so, it first performs a pivoting movement, the axis of rotation of which is the line of contact between it and the web 75 . Once the right end 85 abuts the fixed contact 64 , the axis of rotation changes to the end 85 and the end 76 moves upward as far as the position of the shift lever 31 allows. The fixed contact 65 is not yet acted upon by the contact bridge 60 . In the switch position considered, this therefore forms a two-way bridge between the fixed contact 47 and the fixed contact 64 . If the switching lever is pivoted further in the same direction into a self-triggering switching position, the spring 89 can pivot the end 76 of the contact bridge 60 with the extension 79 further upwards until the extension 79 meets the fixed contact 65 . The axis of rotation of this movement is still between the fixed contact 64 and the end 85 of the contact bridge 60 . This now connects the fixed contact 47 as a triple bridge both to the fixed contact 64 and to the fixed contact 65 .

If the switch lever 31 is pivoted downward from the position shown in FIGS. 2 and 3 within the switch housing 20 with solid lines, the end 76 of the contact bridge 60 retains its position approximately because of the stop 75 . The contact bridge is now moved counterclockwise against the force of the spring 89 about the axis of rotation between it and the stop 75 until the tabs 88 abut the fixed contact 66 at the end 85 . A further swiveling of the contact bridge can no longer take place. In order to be able to produce the necessary contact security and the necessary contact pressure, the contact bridge is made of resilient material and is bent downward when the switching lever 31 is bridged. This contact bridge is therefore the combination of a rigid contact bridge that can only be pivoted and a resilient contact bridge, the shape of which can be changed in itself.

The circuit diagram of FIG. 5 shows schematically the contact bridges 44 and 45 and the contact bridge 60 are moved and fixed contacts which connect to each other in the different switch positions as shown by the vertical and horizontal pivoting movements of the lever 31. The positive potential is fed to the switch via the feed contact 47 . With such a switch, the wiper and washer systems for the front and rear windows of a motor vehicle can be operated. A horizontal movement of the switching lever 31 adjusts the two contact bridges 44 and 45 and thus influences the windshield wiper system. When the switching lever 31 is pivoted vertically, the windshield washer system is started via the contact bridge 60 in position III, in which it acts on the fixed contact 66 . When the shift lever moves from position 0 to position I, the contact bridge 60 connects the fixed contact 47 to the fixed contact 64 . This will put the rear wiper system into operation. In the switching positions I and III, the contact bridge 60 is therefore used as a two-gang bridge. Finally, in switch position II, the rear washer system is operated in addition to the rear wiper system. For this purpose, the contact bridge 60 also connects the fixed contact 65 to the supply contact 47 in addition to the contact 64 . In this switch position it is used as a triple bridge.

Claims (10)

1.Electric switch, in particular steering column switch for motor vehicles, with a housing, with a shift lever, which is supported by a spring-loaded latching element on a shift curve and can be pivoted from a neutral position into several working positions, as well as with a spring that extends transversely to the shift lever adjacent contact bridge, which is permanently connected to a supply contact ( 47 ) and protrudes with its first end between two fixed contacts ( 64, 66 ) arranged at a distance from each other and when the switching lever is pivoted in a first pivoting direction in a first working position on the first fixed contact ( 64 ) and when the switching lever is pivoted in the opposite direction in a second working position on the second fixed contact ( 66 ), with a third when the switching lever is pivoted in the first pivoting direction beyond the first working position in a third working position ter fixed contact ( 65 ) is driven, characterized in that the contact bridge ( 60 ) projects with its second end ( 76 ) between a web ( 75 ) on the switch housing ( 20 ) and the third fixed contact ( 65 ), which on the same side of the Contact bridge ( 60 ) is arranged like the first fixed contact ( 64 ), that on the opposite side of the contact bridge ( 60 ) a separate spring element ( 89 ) supported on the switch housing ( 20 ) between the switching lever ( 31 ) and the first end ( 85 ) on the Contact bridge ( 60 ) acts and that via this contact bridge ( 60 ) also the third fixed contact ( 65 ) is controlled, the web ( 75 ) when pivoting the shift lever from the neutral position into the first and second working position as an axis of rotation for the contact bridge ( 60 ) serves, while when pivoting the shift lever into the third switching position, the first fixed contact ( 64 ) serves as a pivot axis or contact bridge ( 60 ), which in the third working position ng bridges the first fixed contact ( 64 ) and the third fixed contact ( 65 ), and the necessary contact pressure in the first and third working position is achieved by the spring element ( 89 ), but in the second working position by the resilient properties of the contact bridge ( 60 ) . 2. Electrical switch according to claim 1, characterized in that the contact bridge ( 60 ) bears directly on the contact ( 47 ) with which it is permanently connected in an electrically conductive manner. 3. Electrical switch according to claim 1 or 2, characterized in that the contact bridge ( 60 ) at its second end ( 76 ) is pressed transversely to its longitudinal direction by a spring ( 73 ) against the contact ( 47 ) with which it is permanently connected is. 4. Electrical switch according to claim 1, 2 or 3, characterized in that the web ( 75 ) is a projection of the housing ( 20 ). 5. Electrical switch according to claim 1, 2 or 3, characterized in that the web is a transverse to the longitudinal direction of the contact bridge ( 60 ) extension of a fixed contact. 6. Electrical switch according to one of the preceding claims, characterized in that between the contact bridge ( 60 ) and an associated loadable fixed contact ( 64, 66 ) there are at least two separate contact points. 7. Electrical switch according to claim 6, characterized in that the contact points are offset transversely to the longitudinal direction of the contact bridge ( 60 ). 8. Electrical switch according to claim 6 or 7, characterized in that on the contact bridge ( 60 ) laterally tabs ( 88 ) are bent in the direction of a mating contact ( 66 ). 9. Electrical switch according to claim 6, 7 or 8, characterized in that the separation of the contact points through recesses ( 86, 111, 112, 114, 117 ) in the contact bridge ( 60 ) or a fixed contact ( 66 ). 10. Electrical switch according to claims 8 and 9, characterized in that the contact bridge ( 60 ) carries laterally bent tabs ( 88 ) and that it has at least one recess ( 86 ) from the end face and the lugs ( 87 ) between the recesses ( 86 ) are bent over a certain length to the direction opposite to the lateral tabs ( 88 ).