DE699137C - One-hand switch to be installed in a cable harness for controlling electric motors - Google Patents

Description

One-hand switch to be built into a cable harness to control Electric motors For controlling electric motors, especially hoist electric motors on two directions of rotation and standstill are already to be built into a cable harness One-hand switch known, which two by a rotatable and in a zero position Groups supported by spring force, expediently resilient contact arms and have as many associated groups of fixed mating contacts.

The known type of this switch is shown in the accompanying FIG An oblique view explained. On a rotatably mounted insulating piece J are by means of two The two contact groups Al, A2 and B1, B2 are attached to pairs of leaf springs. That Insulating piece J is rotatably mounted on a suitable switch housing. The contacts Al, A2 face the fixed mating contacts a1, a2, as do the contacts B1, B2. the fixed mating contacts bl, b2. By turning the insulating piece J in the either the contact closure of the contact group finds one or the other direction Al, A2 finite the mating contacts c, a2 or the contact closure of contact group B1, B2 with the mating contacts b1, b2 instead. _ In one switch position, the rotation of the motor in one direction of rotation and in the other switch position in the other direction of rotation causes. In the middle position of the insulating piece J, which is shown in FIG all circuits interrupted. In this middle position is in a known manner the insulating piece held by spring force. ° This spring force must be used during manufacture one or the other switch position of Hand to be overcome. The drive of the insulating piece J takes place, expediently by push buttons, which are shown in Fig. i are not drawn.

As can be seen from Fig. I, all movable and stationary contacts are on the same side of the axis of rotation of the isolator J, and approximately in a single plane. This arrangement requires a considerable thickness and width of the switch housing; which is undesirable for reasons of convenience for push-button switches. With a distance zv between the movable and stationary contacts and a distance h between the two movable contact groups, a total distance v of the stationary contact groups results, which distance corresponds to the sum of TI -i- 2 w: This total distance, which determines the housing dimensions, can be a given switching capacity should not be below a certain level, because the distance uj as the minimum distance must guarantee the necessary security against flashovers, arcs and leakage currents. In contrast, the invention is based on the object of reducing the thickness of the switch housing hanging on a cable harness in order to make the switch more manageable, so that one hand is certainly sufficient to operate it, while the other hand is then available for other purposes is what is important for hoists.

This problem is solved in that the two groups around the same or two axes lying next to each other .rotary contact arms and the associated Mating contacts in the longitudinal direction of the housing on opposite sides of the axis of rotation -or axes of rotation are arranged offset from one another at an obtuse or straight angle are. The pivotable arrangement of a contact lever in the longitudinal axis of the housing, on a rotatable part is already known per se; but this is what it is to litz switches for such consumers; where the possibility of switching two different directions of rotation and standstill are out of the question. As a result this known switch does not have two groups of contact arms and just as many associated groups of fixed mating contacts, but only one Contact lever. This known switch consists of the present invention underlying task. not at all. When realizing the idea of the invention this results, for example, in an arrangement as shown in FIG. 2. Here is the attachment of the. live leaf spring on the rotatably mounted Maintain insulating piece T. On the other hand, the two groups of are rotatable Contact arms Ai, A2 or Bi, B2 on the opposite sides of the axis of rotation .The insulating piece J arranged and also the associated groups of fixed mating contacts a, a2 and bl, b2. This allows while maintaining the same minimum distance w between the rotatable contacts and the mating contacts achieve that the Thickness of the housing is much smaller. However, performed when switched on one contact group by rotating the insulating piece J the other movable contact group a backward idle stroke, which in turn takes up space. This idle stroke leaves Avoid yourself by arranging fixed stops S; meanwhile caused pressing the respective free contact arms against the associated stop S a Reduction of the contact pressure of the switched on movable contacts on the associated Mating contacts.

For these reasons, it is preferable to choose the embodiment shown, for example, in FIGS. 3 to 5 in axial section and two different cross sections along lines 1-I and II-II. In this case, a common insulating piece is avoided; each contact group Al, A2 and B1, B2 has its own, independent hub-Ha or -w. TI b, each of which can be rotated about its own axis Z a or: Z b and which receive its rotary movement through an eccentrically articulated, axially displaceable push button Ka or IL b . It does not matter whether the hub for all contact arms of a group is made of an insulating piece, or whether it is, as assumed in the exemplary embodiment, divided into a current-carrying disk for each individual contact spring, the insulation being through the axis and on the same seated spacer rings. So that only one of the two contact groups can be switched on at a time; Both contact groups are locked against each other. In Fig. 3, the locking consists in that the disk-shaped hubs H a and H b have circular arc-shaped cutouts L a and L b, in such a way that one hub disk is rotated against the other. can, but a simultaneous mutual rotation of the two hub disks is excluded. Of course, any other type of mechanical or electrical locking could also be used. The contact groups Al, A2 and Bi, B2 are each held in the zero position shown in FIG. 3 by a return spring R a and R b. The force of the return spring must upon actuation of the switch by the Drück- - be overcome buttons Ka or Kb. The return springs are intended as coil springs in the example shown. But they can just as well be designed as leaf springs or in some other way. Stroinzufüllrung to the resilient arenas of the contact groups Al, A2 and Bi, B2 is done by springs F a, F b, which slide on the curved ends of the movable contact groups, namely the spring F a on the contact arms -A, B1 and the spring F b on the contact arms A2, B2. The circuit itself is otherwise exactly the same as with the known switches of this type; ie in the zero position (Fig.3) all circuits are open; When the contact group Al, A2 is applied to the mating contacts a1, a2, the circuit of the electric motor to be controlled is closed in the sense of one direction of rotation, when the contacts B1, B2 are applied to the fixed mating contacts hl, b2 in the direction of the opposite direction of rotation. The connecting cables themselves are inserted through the tapered neck M of the housing G which encloses the parts. The whole switch is then attached to the wiring harness in a manner known per se.

The arrangement according to the invention proves to be particularly advantageous for switches that directly control the motor circuit because it is in this In the case of the known execution as a result of the to be controlled Switching capacity to reduce disproportionately large thickness of the switch housing.

Claims (3)

PATENT CLAIMS: -z. One-hand switch to be installed in a cable harness For controlling electric motors, especially lifting gear electric motors, in two directions of rotation and standstill, with two through one rotatable and in a zero position through Spring force held part supported groups, expediently resilient contact arms and as many associated groups of fixed mating contacts, characterized in that that the two groups can rotate about the same or two adjacent axes Contact arms (Al, A2, Bi, B2) and the associated mating contacts (a1, a2, bi, b2) in the longitudinal direction; of the housing on opposite sides. the axis of rotation or Axes of rotation (Za, Zb) offset to one another at an obtuse or straight angle are arranged. 2. One-hand switch according to claim r, characterized in that each group of contact arms (Al, A2, B1, B2) attached to a rotatable part is, which has a separate drive, expediently push-button drive. 3. Einli.andschalter according to Claim.2, characterized; that the contact arms (fA, A2, B1, B2) of each group by rotatably mounted hub (Ha, Hb) overall load-bearing, where DER associated pushbutton (Ka, Kb) is a.ngelenkt eccentric. d .. one-hand switch after. Claim 2 and 3, characterized in that the rotatable supports of the two groups of contact arms (A1, A2, B1, B2) are locked against each other in such a way that only one of them can be moved from the zero position to the working position. 5. One-hand switch according to claim d., Characterized in that; that the carrier hubs (Ha, Hb) have circular arc-shaped recesses (La, L .b) which allow the rotation of one hub against the other, but not the simultaneous rotation of both hubs (Ha, Hb) .