DE678490C - Cam roller switch with quick switching - Google Patents

Description

Cam roller switch with high-speed switching switch cam and cam switching tools for the construction of Nockenfahrsch; aging, - whose contacts are to be operated in high-speed switching are known. The quick switching has been achieved by latching the movably and resiliently connected to the Nockenhehel contact carrier, namely by releasing the latch after the switching spring had been brought to the required tension. The out-of-round disks or the cam levers themselves have been supported with play in their bearings in order to achieve a snap action after the cam roller has run down from the cam. The known high-speed cam switches generally require more accommodation space than slow-switching cam switches, have the same performance and also result in increased wear and tear when the parts are loosely stored as described. It is also known to equip quick-action cam switches with toggle springs and to disassemble the shift lever into two parts, the ends of which are connected by said toggle spring. The arrangement of the individual parts with respect to one another is extremely unfavorable here, since they are essentially spatially one behind the other and as a result the entire switch takes up a lot of space for its accommodation.

The invention, which seeks to avoid these disadvantages and also the Use of existing parts in stock is largely possible, consists in that the toggle spring and the downward spring pressure cam lever parts that they connects, between the d @ et cam disk and the one that is as close as possible to it Blow coil so; arranged are that they are essentially perpendicular Direction to the connection line between the axis centers of the cam disk and the Blow coil lie. With this arrangement of the individual cam switch parts can Auxiliary squat can be provided with which an inevitable circuit is brought about if the toggle spring does not affect the possibly burned-in contacts able to open.

The arrangement according to the invention requires, measured in the lateral direction, almost no more accommodation space than cam switches without quick-action. Measured in the axis direction of the travel switch; just take the same space one, which is also necessary with regard to the fact that it is installed in an existing driving switch must be installed in place of slow, operating gearshifts.

Exemplary embodiments are shown in the drawing. Fig.i shows a cam switch device designed according to the invention and FIG. 2 a further embodiment one of these.

In Fig. I i mean the non-round disc, 2 the cam lever, whose role 3 sits on one of its lever armies. On the other arm of this lever namely at the extreme end q., a spring 5 is suspended, the other. End attached to the lever arm 6a of the shift lever 6 carrying the movable contact 7 is. The IN-cam lever 2 is supported in the fixed bearing 8, which is screwed 9 and a counterpart i o clamped on two continuous supports i i and i2 is. With a spring 13 is designated, which presses the roller 3 on .die cam disk i. The contact lever 6 is supported in the pivot point i q: and the associated bearing is also fastened to continuous beams 15 and 16 by clamping. At just such, but not with, the brackets shown are the holding parts for the Fixed contact 17 attached and also the spark extinguishing plates 18 sowlle the quenching coil r 9 and those not shown with fire extinguishing boxes or walls.

The - Fig. I - shows the switch in the closed position. Is moved in the illustrated position of the parts the Kurvenscheihe i in the arrow direction, so slides the cam roller 3 from the cam down and the Nockenhebel2 is moved so far by the spring 1 3 in the clockwise direction, until its lower end q. assumes the position shown in dashed lines. The lower end of the spring 5 has exceeded the central line to be thought between the end 6 of the contact lever and its pivot point and causes the contact lever to move counterclockwise until the movable contact 7 assumes the open position shown in broken lines. The outer switching position is limited by stops 2o. On the helm 6a of the contact lever there is a projection'2 i against which the auxiliary cam 22 of the cam disk i abuts when the contacts 7 and 17 are welded and the spring 5 is not strong enough to break the contacts. A forced switching in the sense of breaking the contacts is then brought about by the auxiliary cam 22.

The arrangement according to Fig; 2 differs from that according to Fig. I in that the cam lever 2 is one-armed; because the cam roller 3 and the suspension point g for the spring 5 are located on the same lever arm: a change compared to Fig. i is also present, as the opening of the contacts 7 and. 17 takes place when the roller 3 runs up the cam of the non-circular disk i purchase. If the non-round disc is rotated in the direction of the arrow in the arrangement according to Fig. 2, the cam lever 2 is brought into the dashed days; whereupon the already described quick switching by the spring 5 takes place. In the event of the contacts burning on, the lever end [of the cam lever 2] acts on a stop 23 of the contact lever 6 and forces the latter to move in the sense of breaking the contacts. With the arrangement according to this figure, a special auxiliary cam for the forced switching is therefore unnecessary. The spring 13, which presses the cam roller against the non-circular disk i: has a different position in the arrangement according to Fig. 2, as can be readily seen, and is designed here as a tension spring i.

In the case of both exemplary embodiments according to FIGS. I and 2, the arrangement is such that the toggle spring 5 has its greatest bias when the contacts are closed. Likewise, the spring 13 according to Fig. I is arranged so that it emits its greatest force when the Kon7 Tagten closed. This arrangement of the switching springs has the particular advantage that the contact pressure benefits from an increased spring force.

The described mode of operation of the springs is achieved, according to the exemplary embodiments according to FIG. Moving the bearing 8 in the direction shown causes the spring 5 to have greater tension in the high-closed position of the contacts shown than in the case of open contacts, in which the lever end 4 is in the position shown in dashed lines. In this respect, the arrangement according to Fig. 2 does not differ from that according to Fig. I, only the spring 1 3 is tensioned when the contacts are closed in the arrangement according to Fig. I, with the cam switch w: ch Fig. 2: 1 ' in contrast to something relaxed. It is of course more important for the contact pressure that the spring 5 receives a stronger preload when the contacts are closed.

In exceptional cases, it will be useful to move the contact lever 6 into the to verklihken both. outer limit positions and to trigger the pawls when the cam lever: el each completed its movement and the spring 5 has adjusted so far that it when the latch is triggered, the contact lever 6 turns over.

Claims (3)

PATTERN CLAIM: i. Cam roller switches with quick switching that is achieved by a toggle spring connecting the cam lever with the contact lever, characterized in that the toggle spring (5) and the ends connected by them of the cam lever (2) under spring pressure (i3) and contact lever (6) between the cam disk (i) and the blowing coil (i 9) moved close to it in one approximately perpendicular direction to the line connecting the axis centers of the cam disk (i) and the blowing coil (i 9) lie. 2. Cam roller switch according to claim i, characterized in that on the cam disks (i) directly on the contact lever (6) acting auxiliary cams (22) are provided with which a forced switching is effected when the by means of the cam lever (5) under spring pressure ( 13) adjusted toggle spring (5, Fig. I) is unable to open the welded contacts (7 and 17). 3. Cam roller switch according to claim i, characterized in that the by the cam (i) against Seder pressure (t 3) adjusted No, ckexiheb, el (2, Fig. 2) with welded contacts (7 and 17) or when the toggle spring breaks (5 ) acts directly on a stop (23) of the contact lever (6).