DE718696C - Jump lock for rotary switch - Google Patents

Description

Jump lock for rotary switch The invention relates to jump lock for rotary switches with a locking bolt for its release radially or approximately is shifted radially to the switch axis and thereby triggered, and wants the strong Stresses on the locking bolt in the previously known jump mechanisms with radial Avoid triggering the bolt.

According to the invention, the triggering and blocking of the contact roller takes place at the desired moment in only one or each direction of rotation in that at least each a rotatable gear with at least one large tooth acting as a cam or an eccentric gear wheel fixedly connected to a disc carrying the cam is mounted on the contact roller, engages in a toothed ring fixed to the base, when tensioning the quick-action spring by resting the cam on the switch axis or one on this fixed cam disc together with the shift drum against rotation is blocked, released by the axis or cam when the spring is tensioned is, = then, taking along the shift drum, rolls on the toothed ring and in the new switch position back on the axis or cam to the locked position is brought. This arrangement reduces the mechanical stress on the jump lock considerably reduced compared to the previously known switches; because, although the angular velocity of the triggered shift drum has the usual size, the locking parts have a relatively low speed.

The invention is described below with reference to the figures, illustrating a number of embodiments, for example. It shows Fig. I is a plan view of a rotary switch with jump lock for clockwise rotation, Fig. 2 shows a switch with two ratchet wheels, which can be rotated in both directions is releasable; Fig. 3 to 7 show the mutual position of the locking members in different Moments during the switching process and Fig. 8 a modified locking device. The switch base i (Fig. I) is provided with fixed knobs: 2, which are marked with a contact q mounted on a contact roller 3. cooperate. The contact roller is connected to the axis of rotation 5 of the switch by a spring 6 which, upon rotation the axis in one direction, in the example clockwise, the contact roller strives to take along in this direction. However, the entrainment is initially carried out by a on the roller eccentrically and rotatably attached locking member in the form of a gear 7 prevents engaging in a toothed ring 9. The 7 "wheel is a cam-like one Projection 8 and is mounted on the roller that the cam 8 by the smooth The scope of the disk attached to the axis 5 is locked. This disc points a recess i i, which is dimensioned and arranged so that the cam 8 at a certain rotational position of the axis 5 engages in it, with further rotation of the axis but leaves it again. Then the disk io can no longer lock the wheel 7., and the roller is turned in the direction of rotation by the spring arranged between it and the axle the axis moves. The ratchet 7 rotates about its axis on the roller as a result of engagement in the toothed ring 9, and the cam 8 temporarily engages in a corresponding one Space 12 in the ring-9. If the ratchet wheel has made one turn, it will also turn the contact roller stopped by the fact that the cam 8 again on the disk io meets. In the embodiment shown in the example with a ratio i: 4 between The ratchet wheel and toothed ring guide the contact roller with one rotation of the ratchet wheel Quarter turn off. Another angle of rotation of the 1.7-contact roller is achieved by choosing a different gear ratio between wheel and ring. You can use the wheel 7 also provided with two or more cams 8. With a translation i: 3 between Ratchet wheel and toothed ring and two diametrically opposite cams is z. B. the angle of rotation of the roller every time 6o °. The ring 9 must of course with the corresponding number of gaps 12, in the last example with six gaps will.

Under certain circumstances it can be useful to give the roller different angles of rotation for two successive releases. Then the two cams are not offset by 180 °, but at a different angle. With the ratio of 1: 3 and 12o ° distance between the two cams assumed in the last example, the rotational movement of the roller can be do ° and 80 ° with two successive releases. This allows you to z. B. make the interruption distance greater than the distance between the contacts in the rest position. In order to obtain a correct position of the toothed ring in relation to the roller and to the ratchet wheels, it is provided with a disc which serves as a cover for the roller and the ratchet wheels arranged on it. The switch axis passes through a hole in the middle of the disk. of the toothed ring.

The arrangement according to FIG. I allows rotation only in one direction. In order to enable triggering in both directions, according to FIGS. 2 to 7 two ratchet wheels are used, one with clockwise rotation, the other with Turning to the left works.

The switch here also consists of your base i, the shift drum 3, the axis 5, and also a release disk 13 instead of the disk io (Fig. I) with a recess ii, the ratchet wheel 7 with tooth 8, your toothed ring 9, etc. In addition a second ratchet wheel 14 is also mounted with a cam 15 on the shift drum. that it prevents left rotation of the roller until the cam 15 has come into engagement with the recess ii of the disc. The spring 16, which is finely connected to the disk 13 and the axle 5, seeks to carry the contact roller with it in every direction of rotation of the axle.

When handling the switch, the axis is in the desired position Rotated direction. Initially, the roller is locked: if the spring 16 is tensioned, reaches z. B. the cam 15 in the recess i i, as in the .ersten example the reel spun. The ratchet 7 runs on your toothed ring and rotates afterwards to the right. It would brake the roller through the cam 8 before it was triggered and prevent them by the disc 13 from taking their starting position. To do this avoid, there are recesses 17 on the disc which the cams pass by permit. The various parts can therefore return to their original position, see above that the switch is ready to be triggered again in any direction is.

The course of the triggering is followed on the basis of FIGS. 3 to 7. at In this embodiment, the disk 18 has received a training that differs from which differs according to Fig. A in that a recess i9 for the wheel 7 and a second recess 2o for the wheel 1q. is provided and that the recesses 17 at the points where no blocking effect should occur, into a slightly different one Position.

Fig. 3 'shows the initial or rest position of the switch. This one Not shown spring (16, Fig. 2) here only has the effect that they the parts holds in the center position shown. The shift drum itself is controlled by the cams 8 and 15 of the two wheels 7 and 1.4 locked. If you turn the axis 5 with the disk 18 clockwise, the spring (not shown) is initially tensioned, there the cam 8 of the wheel 7, the contact roller -first locks. Got by turning of the axis the recess i9 in the area of the cam 8, it now begins in the from Fig. q. evident way the shift drum by the meanwhile biased Spring to rotate. The interacting contact surfaces must be so wide that that the circuit is not yet interrupted. But if the cam 8 is off comes out of the recess, the roller is free and now by the spring driven quickly in the direction of rotation of the axis. She goes through the location of the Fig. 5, in which the cam enters de recess of the toothed ring, and further by the position of FIG. 6, in which the cam 15 of the second wheel 14 at the one Recess 17 slides past. The movement comes in a position according to Fig. 7 to a standstill when the interruption or tripping is complete. The cams sit again both on a circular part of the locking disc, and the roller is blocked again in both directions. The friction between the shift drum and the switch base must be so big that the roller cannot go back after it has been triggered, because otherwise it will not be blocked by cam 15. The one attached between the parts Spring must be so strong that it can overcome friction under all circumstances able.

In the embodiment according to FIG. 8, a gear wheel belongs to the locking device 2i, which is in engagement with a toothed ring a2. The small wheel 2i is with a one Cam 24 bearing disc 23 firmly connected. It is mounted on the shift drum as in the previously discussed exemplary embodiments. The one with the switch axis 26 connected locking disk 25 has a recess 27 for the cam part 2q .. In the ring gear 22, the gaps for the cam are omitted here, since the disk 23 is in one different level than the ring. Otherwise, the mode of operation of the arrangement the same as in the above-described arrangements, the invention allows even more Execution options too. For example, the ratchet wheel with one in the axial direction extending eccentric pin provided by the release disc is blocked when turned in a certain direction and only when triggered engages in a recess in the disc and is thereby unlocked. At this Execution, the radius of the release disc is so large that this the ratchet wheel partially covered.

In order to achieve sufficient mechanical strength the axles of the small ratchet wheels are conveniently stored in a metal disc that forms the cover for the shift drum made of insulating material, in which Inside the tension spring is arranged.

Claims (2)

PATENT CLAIMS: i. Snap lock for rotary switches with radial triggering of the switching drum, characterized in that for triggering in one or each direction of rotation at least one flexible toothed wheel (7) with at least one large tooth (8) acting as a cam or one firmly connected to a disc carrying the iNTocken Gear wheel is eccentrically mounted on the contact roller (3), engages in a toothed ring (9) fixed on the base, when the quick-action spring is tensioned, the cam rests on the switch axis or a cam disc (To) on this fixed cam disc (To) is locked against rotation together with the switching roller , is released from the axle or cam when the spring is tensioned, then, with the shift drum being carried along, it rolls on the toothed ring and in the new switching position is brought back into the locking position on the axle or cam. 2. Jump lock according to claim i, characterized in that the diameter of the wheel (7) as compared to that of the fixed path (g) is chosen that it is for a desired partial rotation of the shift drum makes a full turn between two release lungs.