DE2348321B2 - ELECTRIC ROTARY SWITCH - Google Patents

Description

30th

The invention relates to an electrical rotary switch, especially for motor vehicles, with several contacts fixedly arranged around the central axis of rotation and their associated contact bridge! "!, which is followed by a rotatable actuator are adjustable, which forcibly axially when rotated by a .Spiralführung is moved, and with which a non-rotatable, axially displaceable insulating body is coupled, which the Carries contact bridges.

Such a rotary switch is known from DT-OS 20 5b 861. The contact bridges of this rotary switch are made of resilient metal to ensure a secure fit on the mating contacts. Due to the heating of the contact bridges caused by the passage of current through the contact bridge, after a long period of use or due to incorrectly guided contact bridges, there may be a reduction of the contact pressure and, as a result, poor contact. Furthermore, the production contact bridges made of resilient material are more difficult. In addition, it is with switches well known. Insert contact pieces for their suspension in individual elastic sockets (DT-OS 14 90 901) or to apply additional spring elements.

The object of the invention is to provide an electrical rotary switch of the type mentioned at the outset in such a way improve that the contact bridges are constantly in contact with the mating contacts with the same pressure, without also require individual spring elements.

According to the invention, this object is achieved in that for the suspension the fastened in the insulating body Contact banks of the insulating body made of an elastic Material consists.

In the switch according to the invention, the contact bridges can be made of simple, non-resilient metal exist. This means a simplification in the creation and di ·; Make sure the contact bridges rest on the mating contacts with constant pressure. Nor is it necessary for everyone Assigning a contact bridge to a single resilient element, so that the number of items is not increased and assembly is not made difficult. In the solution according to the invention, the insulating body takes over additional function of the resilient loading of all contact bridges, whereby a safe and fatigue-free contact is achieved.

It is preferably proposed that the contact bridges are bent noses which sit on the free ends of lamellae clamped into the insulating body. The contacts can be designed as tongues and diverge somewhat from the direction of the central axis towards the insulating body, as a result of which the contact bridges with increasing rotary movement when the rotary switch is switched on. as soon as they come into contact with the tongues, they are pressed harder and the contact pressure is increased.

In the following, the invention is explained in more detail with reference to a drawing showing an exemplary embodiment explained. In detail shows

F i g. 1 shows a rotary switch in axial section according to the Line I-I of FIG. 5.

2 shows a contact bridge seated in an insulating body before installation in perspective view.

F 1 g. 3 a contact bridge plugged into the insulating body when making contact with a pair of contacts, the contact pressure being exerted by the elastic insulating body is effected, in perspective representation,

4 shows a contact bridge inserted in the insulating body when making contact with a pair of contacts, their tongues to each other and to the central axis of the Rotary switches diverge, in a perspective view, and

F 1 g. 5 the rotary switch according to FIG. I in cross section along the line V-V in FIG. 1.

The rotary switch shown in the figures has a housing 1 made of insulating material. By doing A spiral groove 2 is embedded in the inner casing of this housing 1, the course of which is indicated by the dashed line Lines is indicated. A seated on the outer casing of an actuating member 4 engages in this groove Cam 3 a. The actuator 4 has a central bore. in which a shaft is used, the is coupled non-rotatably via a flat 6 with a tubular extension 9 forming the bore. By rotating the shaft 5, the actuating member 4 is guided in the spiral groove as a result of its guidance twisted and axially displaced at the same time.

In the housing 1, a cup-shaped part 16 is arranged coaxially to the actuating member 4, the one Insulating body 11 made of elastic material receives. The cup-shaped part 16 is axially immovable with the Actuator 4 coupled in such a way that it is with its outside of its bottom on the outside Edge of the actuator 4 and with its inside its bottom is supported on a ring 10, which is in a groove on the outside of the bottom of the topl-shaped Part 16 thorough approach 9 is embedded. This connection of the actuator 4 with the Cup-shaped part 16 does not allow any relative axial movement between the two parts, but it does a rotary motion.

But with a combined axial and rotary movement of the actuating member 4, the cup-shaped Part 16 is not rotated. assigns it to his

Outer jacket arranged cam, which in an axially extending groove 7 in the inner maniel of the housing 1 intervenes.

The arranged in the cup-shaped part 16 insulating body 11 made of elastic material is rotationally fixed with the cup-shaped part 16 connected. He carries several bridges arranged in a circle 12, due to the elastic property of the material of the insulating body II held by clamping action and resilient are stored. Each contact bridge 12 consists of a tongue that is inserted in the insulating body 11 and located in the extends essentially axially parallel and a contact bridge bent outwards at the free end, the two fixed contacts 13,13 'are assigned. The contacts 13, 13 'are in a corresponding manner in Arranged in a circle and sitting in a cover 15 of the housing 1. At the bottom of the cover 15 is a central Helical spring 17 supported against the insulating body Il presses. The spring 17 resets the Rotary switch in the l.uge shown in Fig. 1. she can also, if necessary, compensate for the axial play of the switch.

The function of the switch is as follows: By rotating the shaft 5, the actuator 4 is rotated and at the same time axially displaced because of the spiral guide. As a result of the axial displacement, the cup-shaped part supported on the actuating member 4 with the insulating body 11 carrying the contact bridges is also axially displaced against the force of the central teder 17. A rotation of the part 16 is not possible because it is guided by the cam 8 in the groove 7. During the axial displacement, the contact bridges 12, 12 ', 12 ", 12'" come into contact with the contact pairs 13, 13 'assigned to them and establish the desired electrical connection. The point in time when the electrical connection is established depends on the axial plane. in which the contact bridges 12 are arranged. Another possibility of successively pairing the individual contacts to establish an electrical connection is that the contact pairs have different axial lengths. Since the bridges, when they make contact, grinding the tongues ensures that the tongues are kept clean and always make good contact. Due to the inclination of the tongues towards the axis, a slight amount of cone can be achieved with increasing contact pressure. Since the resilience of the contact bridges is not due to the material of the contact bridges. but is effected by the elastic insulating body 11, the contact bridges can be made of highly conductive material and with a large cross section.

1 sheet of drawings

Claims (3)

Patent claims: 1. Electrical rotary switch, especially for motor vehicles, with several around the central Axis of rotation fixed contacts and their associated contact bridges, which by a rotatable Actuator are adjustable, which forcibly when rotated by a spiral guide is axially displaced, and with which a non-rotatable, axially displaceable insulating body is coupled to the carries the contact bridges, characterized in that that for the suspension of the contact bridges (12, 12 ', 12 ", 12'") the insulating body (11) consists of an elastic material. 2. Electrical rotary switch according to claim 1, characterized in that the contact bridges (12, 12 ', 12 ", 12'") are bent lugs which at the free ends of into the insulating body (11) jammed slats. 3. Electrical rotary switch according to claim 2, characterized in that the contacts (13, 13 ') are designed as tongues and from the direction of the central axis towards the insulating body (11) diverge somewhat.