DE817929C - Snap switch drive - Google Patents

Description

Most of the switches currently used in electrical engineering are Rotary switch. With these switches, the contacts are on a contact roller or built on a contact cylinder. The switch according to the invention is also a roller switch, the roller of which, however, is hollow, that is to say has the shape of a cylinder, inside the drive is located. Contrary to the known rotary switches, the drive takes place by means of a lever. The advantage of the switch is that it can be pulled through or pressure can be switched. This makes it a normal switch and pull switch can be used for high mounting, in this case the vertical switch cables come in elimination, and no different types of switches are necessary as before. The switch can be described as a snap-action switch, as it is always snaps back into the starting position. It is designed as a momentary switch and can be produced for all possible circuits.

The structure of the snap switch is as follows: A cylindrical rotating body i, which is provided with contact teeth 2 on the outside and a ring gear 3 on the inside, rotates in the recessed circular grooves .I of two flat plates 5. By pressing on the outer lever 6 is the inner cross lever 7, which is in a tooth gap of the inner Gear rim 3 of the cylinder i engages, moved so far that the cylinder i to the Length of an outer contact tooth 2 is rotated. Snap at this twist the outer contact springs 8, which during rotation on the outer contact teeth 2 grind and hold the rotating body. During the switch-on process the inner cross lever 7 slides over an inclined plane 9 and is after completion the rotation excavated from the tooth gap. As the surfaces of the teeth of the inner The ring gear 3 and the sliding surface of the inner lever 7 are mutually beveled, the inner transverse lever 7 does not fall back into the tooth gap on the way back, but slides onto the tooth (Fig. IV) and snaps into the next tooth gap. the Return movement of the two drive levers 6 and 7 takes place through the pressure of a spring io on the inner cross lever 7, which was tensioned during the switch-on process. After reversing the two levers 6 and 7, the circuit is ended and the switch back on standby.

The outer lever 6 can also be accessed by a push button i i an inclined surface 12 acts on the inner lever 7, be replaced (Fig. V).

Claims (2)

PATENT CLAIMS: i. Snap-action switch, identified by a from Switch handle, located inside the contact cylinder, on the switch housing mounted lever (7), which is in a ring gear (3) of the contact cylinder, the latter co-rotating, engages and when moving forward on one of the switch housing arranged inclined plane (9), through which he slides after covering a tooth pitch is lifted out of the respective tooth gap by the pressure of a spring (io), which is tensioned during the forward movement, over the inclined plane (9) and the to snap the previous tooth into the next tooth gap. 2. Switch according to claim i, characterized in that the sliding surfaces of the lever (7) and the teeth of the Sprocket are mutually beveled to allow the further rotation of the sprocket To facilitate tooth to tooth.