DE598120C - Electric pull switch - Google Patents

Description

To electrical rotary switch inserts with right and left gear unchanged also for To be able to use pull switches, it is necessary between the pull lever and the switch shaft provide an effective only in the sense of the clockwise driver device to the Reduction of the pull lever not to be transferred to the switch axis and thus to the ratchet wheel. Such unidirectional clutches

ίο with electric pull switches are known. It has been proposed between the pull lever or the guide sleeve connected to it and the switch axis is made of earthenware or other insulating material To arrange the sleeve, which is provided with ratchet teeth and in corresponding projections of the Pull lever sleeve engages.

The stroke of the pull lever, which should generally not be more than 90 °, is

• 20 in the previously known designs depending on the switching angle of rotation of the switch axis; so it corresponds to the angle of rotation of the hand toggle when the switch insert is more common Hand switch is used. Rotary switches are now known in which the switching path of the toggle is much greater than 90 °; for example, for rotary switches with an eccentric lock, the angle of rotation is between the rest position of the toggle and the release position in which the locking mechanism is solved, about 120 ° to 140 °, a deflection angle, which is much too big for pull levers for reasons of ease of use. It prepares therefore difficulties so far, such rotary switch inserts with a large switching angle unchanged can also be used for pull switches.

In order to eliminate these disadvantages, it is proposed according to the invention, one with the Provide switch axis non-rotatably connected locking disk, which axis the switch when reaching the notch position in this or approximately in this contrary to the effect the switching spring holds. In the rest position of the individual parts (after the pulling lift has decreased) then the switching spring still has a certain bias; it has in a way already started the tensioning of the switching spring for the next circuit, so that the Pull lever no longer needs to go back by the full deflection angle of the switch axis, but can get the most appropriate turning angle of 90 °. This holding on the switch axis when the switch spring is tensioned when using the switch insert Completely harmless in pull switches, as the switch is only turned clockwise will. Not about the number of individual parts

To multiply, it is advantageous to have the driver device necessary for right and left gear switches to be used at the same time as a locking disk to hold back the switch shaft.

The drawing explains the idea of the invention and shows in Fig. Ι in the representations A to E, the movement processes in a switch with eccentric lock in the characteristic positions. In Fig. 2, the latching of the switch axis in the notch position according to the invention is illustrated in a schematic representation, while Fig. 3 shows an embodiment and Fig. 4 a plan view of the pull lever capsule with the latching projections provided in the bottom surface to recognize the latching in the notch position permit.

In the representations A to E of Fig. 1, the mode of operation of a rotary switch with an eccentric lock is illustrated. A normal rotary switch with a manually operated switch handle i is chosen as an example. A round disk is firmly drawn onto the axis c, the center of which is arranged eccentrically to the center of the axis. The eccentric ring m lies around the eccentric k and is guided by means of a tooth-like cam fi into a slot in the guide disk 0, which is firmly connected to the switching wheel. The eccentric ring m comes to rest against detent projections δ of the detent disk α .

In the starting position according to illustration A of Fig. 1, the switch handle i is, for example, in a horizontal position; the eccentric ring m is driven with its stop piece under the action of the eccentric k between two detent projections b of the detent disk α . When the switch handle is turned up to approximately 50 °, the eccentric ring? W first rolls on the cam b, the switching wheel remains locked, the rapid spring located inside is tensioned (illustration B). Only after this position has been exceeded does the eccentric ring m gradually slide off the cam b , with the disengaged position being reached after the switch handle has been rotated through an angle α of approximately 120 ° (illustration C). Under the action of the now strongly tensioned rapid spring, the switching wheel together with the guide washer 0 is now thrown away in the direction of the arrow. During this rotary movement, the eccentric ring m rolls at the same time on the eccentric k , is pressed outwards and safely comes to a stop in the next detent projection (illustration D). The switching movement, the working angle of which is 90 ° in the exemplary embodiment, is thus ended, the switch handle i, the working path of which has an angle α = ~ i20 °, returns to a position of rest at right angles to the starting position under the action of the rapid spring (illustration E).

For the operation of normal, manually operated rotary switches, the additional amount of travel of the switch handle of about 30 ° compared to the travel of the switching wheel is irrelevant. However, the situation is different when using such switches as pull switches, in which, for the reasons mentioned at the beginning, the working path of the pull lever should not be more than 90 °. According to the invention, a special release latch on the pull switch device ensures that the switch axis of the normal rotary switch device receives a bias of about 30 ° from the outset when it is assembled with the pull switch device, corresponding to the excess travel of the switch handle.

In Fig. 2, a locking disk% is non-rotatably connected to the switch axis c ; it is pushed, for example, with a square recess over the switch axis, which is rectangular in cross-section. On its outer circumference, 8g has the locking disk% notch projections q, in which the rotatably mounted locking bolt f engages under the action of a spring β. The locking disk% has four such locking lugs q corresponding to the number of rest positions of the switch, which are offset from one another by 90 °. The locking washer% with its detent projections q is set back by 30 ° compared to the four notch positions; it therefore holds the switch axis c in a position which is offset by 30 ° (angle /?) compared to that according to Fig. 1, so that the entire travel γ is only 90 °. The position CD of the switch axis c corresponds to the disengagement position of the previous circuit, from which the axis c could not retreat due to the blocking f, q. If the switch axis is now rotated again by the angle ß (90 °) by the pull lever, the switch axis reaches the next release position AB, it is locked in this immediately, the switching wheel jumps to the next position, the pull lever goes alone to its starting position back, also by the angle of rotation of 90 °.

In the embodiment according to FIGS. 3 and 4, the pull switch device is accommodated in a known manner in a surrounding housing d which is fastened to the switch cap by bolts g.

Corresponding to the locking disk% of the arrangement of Fig. 2, the embodiment according to Figs. 3 and 4 has a driver device designed as a sleeve η , which is provided with a ring gear q corresponding to the detent projections q of the locking disk% according to Fig. 2. In this ring gear q engage in the bottom of the

Housing d provided locking springs u (corresponding to the locking lever f of the arrangement according to Fig. 2). On the sleeve η , a second toothed ring h is also provided, offset by about 30 ° with respect to the toothed ring q, which, as in known designs, serves to move the pull lever, not shown, by means of a spring device or the like in one direction of rotation to couple the sleeve n and thus also with the switch axis c. When the pull lever decreases, it or its driver device slides under the projections of the ring gear h . In the embodiment according to Figs. 3 and 4, too, the switch axis is blocked against retreating when the tensioning fog recedes by the blocking parts q, u in the notch position, as shown in the arrangement according to Fig. 2, with simultaneous biasing of the switching spring .

Claims (2)

Patent claims: 1.Electric pull switch with a rotary switch insert for right-hand and left-hand gear, in which the normal angle of rotation of the rotary handle is more than 90 ° (e.g. rotary switch with eccentric lock), characterized by a locking disc (s) connected to the switch axis (c) so that it cannot rotate which the switch axis (c) for achieving the Ausklinkstellung. ^ - ß) of the locking mechanism in this or approximately holds this against the action of the shift spring. 2. Electrical pull switch according to claim ι with a pull lever and the Driving device coupling the switch axis in one direction, characterized in that that the driver device (w) at the same time as a locking disk for the switch axis (c) is formed (Fig. 2). 1 sheet of drawings