DE874805C - Electric switch with ratchet wheel rotated by a push button - Google Patents

Description

Electric switch with turned by a push button Ratchet wheel Electrical installation switch with a push button in rotation offset ratchet wheel are known and are used on larger control panels or because of the simpler possibility of implementation compared to conventional push-button switches of cross, series connections and the like. For converting the straight back and forth movement of the push button in a rotation of the ratchet wheel is in known designs a Fixed sleeve with steep thread groove used, i: n the one the push button with the Rotary sleeve coupling ratchet axle with pin protruding. To reduce the friction in the To avoid thread grooves, rollers have been placed on the coupling pin. At the However, when the switch button is depressed, an additional partial force acts in the axial direction on the control wheel so that it is not possible to use any rotary switch switch inserts to be provided with a push-button control if necessary, a these inserts when switching not subjected to pressure by means of the twist grip, so such forces are not absorbed either need to become. It is therefore with push-button controlled rotary switches has been common up to now; to connect the switchgear firmly to the switch base, while it is already known for other types of switches, the locking parts as closed To encapsulate aggregate and as part for see on the To fasten the switch base.

The invention relates to electrical switches with a push button rotated ratchet wheel and with one the axis of rotation of the latter with the Push-button coupling rotary sleeve, which with rollers rotatably mounted on it in a steep thread groove of the non-rotatably mounted push button, which is designed as a sleeve intervenes. The invention proposes the rotary sleeve .in a to the running surface of the in the high-helix thread: ut running pair of rollers with concentric cylinder surface to provide another pair of rollers, which rolls on a stationary abutment. In such a case, not only is the friction, as in both known designs reduced in the steep thread grooves, rather all. when switching occurring compressive forces kept away from the ratchet axle and the locking parts. You can now retrospectively provide any rotary switch insert with push-button control, also those inserts, such as. B. with eccentric switches, with effects in are very sensitive in the axial direction. You can have all roles on a common, store the rotating sleeve penetrating axis and as an abutment for the inner pair of rollers utilize a guide sleeve surrounding the rotating sleeve. The one to carry the roles The axis serving is thereby a little longer than with the known arrangements, but does this with the subject matter of the invention according to the support on the stationary Abutments do nothing. The guide sleeve is a part that many Rotary switches are already present: is, so that there is a Can avoid multiplication of the items. It is particularly recommended; the whole Push-button switching device as a coherent unit on a support bracket attach. Then it is possible. This switching device as with other types of switches assemble as part for yourself, review and, as needed, with any Bring switch inserts in connection. As a result of the complete pressure discharge the switch axis and .des locking mechanism is also with switch inserts that do not have any Have protection against axial displacement of the rear derailleur parts, a failure of the Locking, jamming of moving parts etc. not to be feared. The invention offers therefore also an option to expand the range of application of conventional rotary switch inserts.

The drawing can be an example of execution Recognize the subject matter of the invention, only to clarify the idea of the invention required push button switchgear parts are shown, the associated rotary switch is only hinted at. Fig. Z shows a longitudinal section, Fig. 2 shows a cross section according to line A-B of Fig. r.

On a support bracket a, guide bolts b for the switching pushbutton c are attached, which is approximately sleeve-like and is provided with steep grooves d on its inner wall. Within a sleeve e, which is also attached to the support bracket a, a rotary sleeve f is mounted, which is provided approximately with a square recess and is pushed onto the free end of the switch axis g by means of this. The rotating sleeve f merges at its upper end into a pin la which is enclosed by a return coil spring i for the push button c. On a pin j penetrating the rotary sleeve f , two rollers are rotatably mounted on two opposite sides, namely .the rollers k on the one hand, the rollers m on the other. As can be seen in Fig. 2, these roles lie in two mutually concentric planes. The outer rollers m engage in the steep groove d of the push button c, while the inner rollers k rest on the end face of the guide sleeve e. Because the rollers k lead on the end face of the guide sleeve e, the rotating sleeve f is secured against falling out at the same time. The outward movement of the push button c under the action of the return spring i is limited by a sleeve-like cap n which is also attached to the support bracket a . The push button c penetrates a hole o in the switch cover p in the usual manner. The support bracket ca is attached to the indicated base r of a rotary switch. The latter can be designed so that a shift drum is set in rotation immediately by turning the axis g, but a special locking mechanism, for example an eccentric locking mechanism, can be provided between the switching axis and the indexing wheel. In the latter case, it is advisable to design the rotary sleeve f in two parts, in a manner known per se, in such a way that the second part, which is directly coupled to the axis g, is only carried in one direction of rotation, so that when the pushbutton i goes back, that happens The ratchet wheel that has been brought into a new switching position is not shifted back again. As Fig. R shows, "the entire push-button switch device represents a self-contained unit which can be attached to any rotary switch by means of the support bracket a. The mode of operation of the push-button rotary switch according to the invention is as follows: When you press button c, the rollers m guided in the groove d, thereby driving the rotating sleeve f clockwise or in the opposite direction via the axis j and rotating the axis g of the switch. The inner rollers k run on the end face of the guide sleeve e and absorb the axially directed force component so completely that none of the moving parts of the switchgear is subject to additional pressure Is this therefore immediate r connected to the ratchet wheel, the ratchet wheel rotates both when button c is pressed and when it is released; so only a temporary switching on and off. If, on the other hand, the rotary sleeve f is equipped in two parts with an interposed coupling in the manner already mentioned, this part of the rotary sleeve f and thus the axis g remains when the push button c is withdrawn. It is also possible to provide a one-way clutch between the axis g and the ratchet wheel, so that in this case too, switching only takes place when the button c is pressed or when it is released.

By using the rollers m the friction between the at the switching of interacting parts is significantly reduced by the rollers k, especially the axis g of the rotary switch, is relieved of pressure, so that the switching device according to the invention can also be used with such rotary switches in connection with which no precaution against immovable storage the axis g is taken. There are also any provided in switch r Switching devices are not influenced by pressing button c and their mode of operation not disabled.

It is irrelevant for the invention which angle of rotation for the ratchet wheel of the rotary switch moves the push-button switching device. It only depends on the design of the groove d in the push button c. Rotation angles of up to 9o ° and more can be generated, as it is on the other hand possible to give the ratchet wheel only a rotation of 45 ° or less. The guide sleeve e does not have to serve as an abutment for the inner rollers k ; it can be another stationary Abstützi.l if only care is taken that the axial pressure force component is kept away from the axis g of the rotary switch.

Claims (1)

PATENT CLAIMS: i. Electrical switch with through. a push button in rotation shifting wheel and the axis of rotation of the latter with the push button coupling the rotary sleeve, which engages with rollers rotatably mounted on it in a steep thread groove of the non-rotatably mounted push button designed as a sleeve, characterized in that the rotary sleeve (f) in a the cylinder surface, concentric to the running surface of the roller pair (m) running in the steep thread groove, is provided with a further roller pair (k), which rolls on a stationary abutment (e). z. Electrical switch according to claim i, characterized in that all rollers (k, m) are mounted on a common axis (j) passing through the rotating sleeve (f) and that a rotating sleeve (f ) surrounding guide sleeve (e) is used. 3 .. Electrical switch according to claim i and 2, characterized in that the entire push button switch device is fastened as a coherent unit on a support bracket (a). References: French Patent No. 69'7 204; Swiss patent specification No. 18o i72.