DE2328289C3 - Rotary switch with a detent mechanism - Google Patents

Description

30th

The invention is based on the object of providing a rotary switch according to the preamble of claim 1 to train that with a few parts torsion-proof construction of the locking mechanism in terms of manufacturing simple locking contour and with a high degree of variation in the number of locking positions is made possible.

This task is solved by training according to the characterizing part of claim 1

Advantageous embodiments of the invention can be found in the subclaims.

An embodiment of the invention is shown in the drawing. It shows

F i g. 1 shows a longitudinal section through a latching device according to the invention for an electrical rotary switch,

F i g. 2 a plan view of this latching device from above with the housing cover removed, F i g. 3 is a plan view of the latch from below.

According to FIG. 1, the latching holder 10 shown consists of a latching housing 20 as a latching member and an im so essential cylindrically shaped part 30 as a holding member. The in F i g. 1 shown housing cover 40 is used only for protection against mechanical contamination of the contacts and is with the invention in no functional connection. (This housing cover has been removed in FIG. 2 for a better overview). The locking housing, which is also designed as a cylindrically shaped part, carries on its inner one Outer surface a two-part locking contour formed by locking cams 21 and locking grooves 22, which in a plane w> π = 30 and n = 15 locking grooves 22 in the other plane. According to the specified indexing division in The holding member 30 also contains two planes, which are resiliently pressed against the latching housing 20 in two planes Parts that act as movable, resiliently mounted locking balls' ■ "> 31, 32 and 33, 34 are formed. These locking balls when the shaft 50, which is connected in a motion-locking manner to the holding element 30, is actuated, snap into successive ones Locking grooves 22 so that certain switching positions of the shaft can be set.

In the case of the FIG. Embodiment shown in Figure 2, each second locking groove 22 of the detent housing 20 up to ^r half of its length with a filling 23 to form a two-part catch contour with a 30s and 15s-locking pitch. In this context it should be emphasized that another two-part or a multi-part latching contour corresponding to the one shown in FIG. 2 can be implemented in a simple manner.

To form a multi-part latching contour, it is necessary that the holding member 30 at least one of the Number of locking divisions corresponding number of locking balls 31,32,33,34 contains along the locking grooves 22 are arranged in different planes adapted to the position of the fillings 23. To achieve a uniform torque, however, are at least two diametrically in each of the different planes opposing locking balls 31, 32 and 33, 34 are provided. The locking balls 31, 32 and 33, 34 are expediently resiliently mounted in radially directed bores 35, 36 or 37, 38 of the holding member 30. the in Fig. 2 further bores 39 shown are irrelevant for the 15-wire 30-wire indexing division that can be seen they are assigned to a different snap-in contour with a 13 or 26 snap pitch. The realization this latching division can be done in that another latching housing with a corresponding two-part Snap-in contour or a single snap-in housing with a corresponding four-part snap-in contour is used. In in any case, however, only a single holding member 30 is required, which is in terms of storage in turn brings special advantages. The choice of a snap-in housing with two-part or four-part The latching contour, however, depends on the available installation space height.

The rotors, stators and their contact parts can be arranged in the usual way. from However, it is particularly advantageous if the holding member 30 and the one carrying the movable contact parts Rotor 60 are combined into a structural unit, since then only a single component has to be kept in stock. The same applies if the latching housing 20 and the stator 70 carrying the stationary contact parts (FIG. 3) are combined into one structural unit.

The from the Fi g. 1 to 3 visible components can consist of a conventional material. Preferably However, the structural units: latching housing 20 - stator 70, holding member 30 - rotor 60 and finally the Housing cover 40 made as zinc die-cast parts. As shown in FIG. 1 can be seen on the snap-in housing 20 at the same time, spacer bolts 24 are cast on to accommodate further switching levels. The rest position according to However, the invention is not only suitable for rotary switches, but can always be used when it comes to set switching positions of an actuating shaft of a device, the Locking position is to be connected to the device to be operated. The rotation of the actuating shaft can also be within an angular range of less than 360 ° be limited by z. B. on the holding member 30, a stop pin 80 or 90 is provided with a Stop of the stator 70 cooperates.

Claims (1)

Patent claims: 1. Rotary switch with a detent mechanism in which detent positions in the axial direction in two planes are arranged, in each of which spring-loaded locking members engage in locking contours, thereby characterized in that the locking mechanism consists of a cylinder which is on its inside with axial Grooves (22) is provided, each of which is 2nd or 3. · · · or every jr-th is filled in halfway along the length of the cylinder, so that two Latching contours are formed with different numbers of latching positions and that one in the cylinder The rotor (60) is arranged in different angular positions and in two corresponding to the latching contours Has planes radial holes for receiving springs and locking elements 2. Rotary switch according to claim 1, characterized in that the not over the whole Length-extending grooves (22) are evenly distributed over the circumference of the cylinder. 3. Rotary switch according to claim 2, characterized in that every second groove (22) is filled is and the rotor (60) in each plane at least two approximately diametrically opposed bores (35 to 39) has