DE1119959B - Knob drive for actuating electrical pushbutton switches - Google Patents

Description

Knob drive for actuating electrical pushbutton switches The invention refers to a knob drive as an attachment for actuating electrical pushbutton switches, in particular command switch, with a preferably rosette-shaped support that accommodates the drive Housing and a spring-loaded actuating plunger guided in the housing, which over Guide parts with the drive-determining curve segments of the toggle in engagement stands.

The invention is based on the object of creating a knob drive, which can be easily assembled using positively locking parts and the housing already designed for other command and display devices or rosettes can be used without changing them. According to the invention, the asked Task with a toggle drive of the type described by using a inserted into the housing, the toggle positively and rotatably holding the sleeve solved.

An exemplary embodiment of the invention is explained with reference to the drawing.

In Fig. 1 , a complete toggle drive is shown partially in section. A rosette-shaped head 2 is integrally formed on a hollow cylinder-shaped housing 1 at one end and a flange 3 at the other end. Opposing lugs 4 are formed on the flange 3 , the purpose of which will be described below. In the interior of the housing 1 , an annular groove 5 is formed for the form-fitting fastening of the drive parts. Housing 1 or rosettes of this type are also used, for example, to insert push-button switches and illuminated rosettes.

In order to be able to use such a rosette also for toggle switches, a sleeve 6 is fastened positively in the housing 1 with the interposition of an elastic ring 7. In Fig. 2 and 3 , the sleeve 6 is shown in plan and plan. The sleeve 6 has a bead-shaped head 8 and preferably has two mutually opposite U-shaped recesses 9 at the level of the annular groove 5 of the guide body. The tongues 10 formed here are bent outward so that when the sleeve 6 is inserted into the guide body 1 , the elastic sealing ring 7 is compressed into the annular groove 5 of the guide body 1 (FIG. 1). In order to prevent the sleeve 6 from rotating with respect to the guide body 1 , the sleeve has two fingers 11 at the lower end, which are spread apart in a recess 12 of the guide body.

13 with a hollow-cylindrical operating plunger is designated, which is deposited in the center so that a shoulder 14 ringfönnige reached, comes, which serves as an abutment for a return spring 15 °.

The other end of the spring 15 is supported against the flange 3 formed on the rosette. The actuation plunger 13 is fastened in the sleeve 6 or in the rosette 1 with the aid of bayonet lock-like recesses 17 in the actuation plunger and the aforementioned radially projecting lugs 4 on the flange 3 of the rosette. From Fig. 4, which shows a view of the actuating plunger, the shape of the bayonet lock can be seen. The actuating plunger 13 is inserted from above simultaneously with the spring 15 and a seal ring 18 in the rosette 1, in such a way that the guide lugs of the bayonet lock 4 engage in the not visible in FIG. 1, recess 19. By compressing the spring 15 and at the same time rotating the plunger 13 , the nose 4 is lifted into the recess 17 via the tongue 20 on the plunger 13. After the actuating plunger 13 has been released , it is raised under the action of the spring 15 , namely until the nose 4 has reached the bottom of the recess 17 (FIG. 1). The plunger 13 is thus held in the rosette 1 in a form-fitting manner.

In Fig. 6 is a view of the shift lever 22 is shown. On the drive side, this has a cylindrical part 23, the diameter of which is equal to the opening width of the sleeve or the outer diameter of the actuating plunger 13 . Lugs 24 are formed on both sides of the part 23 , the axial distance of which from the disk-shaped part 25 of the toggle 22 is somewhat greater than the sheet metal thickness of the sleeve 6 . A hollow cylinder-shaped part 26 adjoins the part 23 , the diameter of which is approximately equal to the inner diameter of the actuating plunger 13 . On the end face of the part 26 two opposing recesses 27 are provided, in each of the edges of which a curve is embossed.

In Fig. 7 a development of the curves is shown. The curves have inclined flanks 28 which open into notches 29 and 30, respectively. In the interior of the upper cylindrical part of the plunger 13, molded guide lugs 31 (FIGS. 4 and 5) cooperate with the curved pieces. The switching handle is inserted in the following way: The actuating plunger previously inserted into the rosette 1 is pulled all the way down, overcoming the force of the spring 15 , and the switching toggle 22 with the lugs 24 is inserted into the sleeve 6 from above. For this purpose, 6 recesses 32 (Fig. 3) are provided on the upper bead of the sleeve. Thereafter, the switching toggle 22 is rotated until the guide lugs 31 on the actuating plunger 13 snap into the notches 30 of the recesses 27 of the cam piece 26.

During the switch-on movement, the lugs 31 slide from the notches 30 over the straight flanks 28 with compression of the spring 15 into the notches 29 and are held there. Here, the actuating plunger 13 executes an axial movement. By appropriately shaping the curve pieces 28 , the switch can be given a specific switch-on characteristic.

Claims (1)

PATENTAL CLAIMS: 1. Knob drive as an attachment for actuating electrical pushbutton switches, in particular command switches, with a preferably rosette-shaped housing receiving the drive and a spring-loaded actuating plunger guided in the housing, which engages via guide parts with the curve segments of the toggle that determine the propulsion, characterized by the use a sleeve (6) inserted into the housing (1) and holding the toggle (22) in a form-fitting and rotatable manner. 2. Drive according to claim 1, characterized in that the range of rotation of the toggle (22) with respect to the sleeve (6) is limited by the engagement of the guide parts (31) in the cam segments (27). 3. Drive according to claim 1 and 2, characterized in that the sleeve (6) forrnschlüssimit the help of a locking device, for. B. locking springs (10), is held in the housing (1) . 4. Drive according to claim 3, characterized by detent springs (10) worked out of the sleeve (6) , which place themselves in a self-locking manner in a ring with (5) of the housing. 5. Drive according to claim 1 to 4, characterized in that at the handle-side end of the sleeve (6) an annular bead (8) is formed, which on the one hand as an abutment for the latching device (5, 10) and on the other hand for the rotatable attachment, o des Switch toggle (22) is used. 6. Drive according to spoke 5, characterized in that between the rosette (1) and the annular bead (8) a ring "shaped seal (7) made of elastic material is introduced. 7. Drive according to claim 1 to 6, characterized in that for insertion of the switch knob (22) in the sleeve (6) this has recesses (32) on the annular bead for receiving noses (24) molded onto the switch knob. 8. Drive according to claims 1 to 7, characterized in that by into the curve segments ( 28) of the switch toggle (22), detents (29, 30), the individual switch positions are secured .