DE761896C - Toggle switch with toggle mechanism - Google Patents

Description

Toggle switch with toggle lever drive The invention relates to a toggle switch with a toggle mechanism, the drive member of which is parallel to the in contact surfaces of the stationary contact pairs lying on the same plane after a dead Gear an intermediate contact element with toggle levers or equivalent parts, such as cams with rollers, takes with it and thereby overcomes a contact bridge support the switch-off spring in the switch-on position and the toggle lever od. The like. Overcoming pushes its suspension into its locked position. Switch of this type, also for and switching off the three conductors of the three-phase current are known. As a switch, uni z. B. to change the power supply to a three-phase motor in such a way that he its direction of rotation changes, the known switch design is unsuitable.

The particular advantages of this known switch are that the contacts meet at right angles to their surfaces and are independent when switched off the speed with which the drive element is actuated, quickly move away from each other at right angles to their faces.

It is also known to switch off switches by thermostats, z. B. Bimetallstreiien, especially to cause current overloads.

After the invention, the advantages of the known types of switches mentioned reached with changeover switches.

To make the invention easier to understand, the schematic ones are used first Fig. I and 2, which relate to a switch for switching on and off, but not for Relate toggling. All movements take place in the plane of the drawing.

Fig. I shows a three-phase switch in the open position. Fig. 2 in switched-on states. The base plate lc carries three groups of two connection contacts RII ', TI', SU. About this base plate lc three switching elements a, b and c: are provided. The actuating member a provided with a handle can be moved back and forth in the direction of the arrow parallel to the contact surface, that is to say also parallel to the plate lr. This actuator d takes an intermediate member b with dead gear k. The dead gear k results from the fact that the distance between the lugs 3 and .I from each other is greater by k than the diameter of the roller 5, which takes part in the movement of the link a. The intermediate member b carries on the underside rotatably mounted the toggle or rocker arms 6 and 7, which are rotatable about the axes 8 and 9 and are supported with the lower feet io and ii on the switching member e, which has depressions at these points. `If the handle 2 of the actuating member a is moved to the right, the roller 5 pushes the lug .4 and thus the intermediate member b also to the right until, after it has covered the distance in, it rests against the columns 12 and 13 . The pivot points 8 and 9 of the toggle levers 6 and 7 have described arcs around the base points io and ii. until the pivot points S and 9 have slightly exceeded the vertical position above the support points of the feet io and ii, as shown in Figure 2. Since this increases the distance between the intermediate element b and the switching element e. the switching element c with the connecting contacts e, e 'and e "is pressed onto the connection contacts of the plate lt , against the force of the relatively soft and not very strong spring base and; but is slightly larger than the distance between the connecting contacts e and the connecting contacts of the plate h .. As a result, the intermediate member b is raised against the initially almost tension-free springs f and f ', which are, however, stiff and strong, which results in that the connection contact pieces e, e ' and e "are pressed forcefully against the connection contact pieces. As a result, the three-phase motor, for example, has been switched on.

If the motor is to be switched off again, the handle 2 of the actuating member a is moved to the left from the position shown in Fig. 2, whereby the roller 5 also moves to the left until it reaches the lug 3 of the intermediate member b. In this way of the size k nothing changes when the current is switched on, but the connecting contact pieces e continue to rest against the connecting contact pieces of the plate h with the same force. But if the handle 2 is now moved a little further to the left, whereby the pivot points 8 and 9 of the toggle levers 6 and 7 exceed the extended position, the intermediate member b and the switching member c suddenly snap together into the position shown in Fig. whereby the contact pieces e are removed from the terminal contact pieces of the plate lt at high speed. This interrupts the current. This rapid power interruption occurs regardless of the speed at which the handle 2 of the actuator a is moved, because the dead gear of size k, which is present between the actuator a and the intermediate member b, such a sudden movement of the links b and c allowed, since the intermediate member b can move independently of the actuating member d relative to this by the distance k.

The invention consists primarily in the fact that the switch is designed as a changeover switch (Fig. 3 and .4) in such a way that when changing over, the intermediate member b of the switching mechanism, after it has only been taken along by the drive member a after a backlash k, first the toggle levers 6, 7 or the like triggers from their end position, so that the opening and toggle suspension g, g ' brings the contact bridge carrier c with the contact bridges e, e', e " into the open position, upon further movement of the drive member a by means of the toggle lever 6, 7 takes the contact bridge carrier c between two stops parallel to the contact surfaces by a piece i into the new position and then executes the second switching in the manner corresponding to the first switching on and off.

In Figs. 3 and 4, the switch is shown in the same way shown as a toggle switch. Such a training as a changeover switch is possible if the toggle levers 6 and 7 as twin toggle levers with the feet io, iö and i i, i i 'are formed and the actuator c is given the option will move around the stretch egg parallel to the contact surfaces, whereby this distance i is as large as the connection contacts e from the position in which these are the center contacts of the three contact groups with the neighboring contacts on the connect one side, must be moved to the middle contacts with the neighboring contacts the other side to connect. Otherwise, the operation of the switch is complete corresponding to that of the switch shown in Figs. Fig. 3 shows the switch in the off state. Now- the handle 2- off the position shown in Fig. 3 is moved further to the left, -so @ takes place Activation in the same way; as described above in fig. i and - 2 - became. If it is now to be switched off, the handle 2 and thus the role 5 are initially moved so far to the right that the roller 5 on the lug q. to the Plant is coming. If the handle z is then moved a little further to the right, so exceeds. the knee lever the extended position, which has the consequence that the intermediate link b and the switching element c suddenly under the influence of the springs f and g each other approach and thus cause the switch-off. Should now be used for the other direction of rotation are switched on, the handle 2 is first to the distance i to the right moved, whereby the contact blocks e, e 'and e "are moved so far that the middle connection contacts of the three groups of the plate h with the other neighboring contacts be connected when the switching element c by the fact that the handle 2 is now is moved further to the right, in the manner described earlier on the contact plate h is depressed. With this switch-on, the switch-off takes place in the way already described above.

If the three groups of contact pieces of the connection contact plate h are not in a row, as shown in Fig. 3 and 4, but are arranged on a circle around an axis, the straight movement of the links ca, b and c is replaced by a rotation around this axis. Such an embodiment is shown in Figs. 5 to 8, and another in Figs. 9 to 12. In these illustrations, for the sake of better understanding, largely the same designations as in the examples in Figs. I to q have been chosen for corresponding parts.

When executing according to the Ahb. 5 to 8 is with the. Terminal contact plate h the axis 14 is firmly connected. To them are the actuator a, which is a handle forms, the intermediate member b and the switching member c rotatable. The actuator a has the above-described dead gear in the circumferential direction, which is thereby achieved is that driving pins 15 and 15 ', one of which is sufficient, in arc-shaped Engage elongated holes 16 and 16 'of the intermediate member b.

If the handle, ie the actuating member a, which Fig. 6 shows in plan view, is rotated clockwise, then it reaches the position which Ahb. 8 shows. The driver pins 15 and 15 'take the intermediate member b with them by also moving this about the axis i.1. turn. As a result, the three double-sided toggle levers 17, 17 'and 17 ″, of which only the toggle levers 17 are shown in the side views for the sake of clarity in the side views, from the universal joints 18, 18' , i8 "of the three arms of the intermediate link b are taken along, since these universal joints act on the pins ig, ij, ig", which are firmly connected to the toggle levers 17, 17 ', 17 ". As a result, the toggle levers are tilted up rotating around the pins 2o until the pins 18, 18 ', 18 "have slightly exceeded the extended position of the toggle levers. This position is shown in Figs. 7 and B. Furthermore, the toggle lever cannot rotate around the pin 2o, because a vertical pin 21, which is attached to the intermediate member b and engages in an arcuate slot in the switching member c, has arrived at the end of this slot Fig. I his q. has been described, pressed down on the contacts of the connection contact plate h against the force of the spring g, and the connection contacts e, e ', e " are pressed onto the connection contacts of the plate h with the force of the spring f, which compresses slightly the power turned on.

If the handle a is turned counterclockwise, so he first puts back the dead gear opposite the intermediate link b. He will then if it goes a little further, it takes the intermediate link b with it and thereby brings it after a very short distance, the knee lever over the extended position. As soon as that happen is, the intermediate link snaps around a piece under the influence of the springs, and the toggle levers 17, 17 ', 17 "move into the position shown in Figs. 5 and 6, as a result of which the contacts are quickly separated and the current is switched off.

If the handle to switch on the connected motor for the opposite direction of rotation, still. if further turned counterclockwise, the handle a, the intermediate member b and the switching member c all rotate together at the axis z4 to change with respect to the switching element c until the switching element c has rotated so far that the connecting contacts e are above the middle and the opposite axis contact as in the first case is prevented from doing so in the connection contact plate lt, which protrudes into an arcuate slot in link C. When the handle a is turned further, everything takes place accordingly, only to the other side, as described above 17, I7 '. 17 " about axes 23, 23', 23".

The axes = o and 23 are in small roles that are in recesses of switching element c. When tilting the knee gable 17, these roles remain in peace. Only the axes turn in these rollers.

Instead of turning off the switch by means of the handle a, he can if the motor switched on by the switch is overloaded also by a thermostat, which, for example, consists of a bimetallic strip, is switched off.

If a bimetallic strip 25, 2; ', 25 "heated by the current is switched on in each of the power supply lines to the middle contacts R, S, T of the three contact groups, the switch can be influenced in this way by means of the stronger heating of the bimetallic strip that occurs when the motor is overloaded This can be done, for example, in such a way that the free end of the bimetallic strip, which curves up when heated, presses under the nose -2- of the tilted toggle lever: 17 (Fig. 7) Toggle lever 17 is moved beyond the extended position and then snaps back into the position shown in Fig. 5, which switches off the switch. This occurs when only one of the bimetallic strips is heated too much, i.e. only one of the three phases of the drelistroin is overloaded.

The bimetal strip is most easily heated by the electric current in such a way that the current flows through it itself. In order to be able to relocate the supply and discharge of the current to the clamping point of the bimetallic strip, it is split from the clamping side in a manner dividing the width up to the vicinity of the free end, so that the current vc.n to the clamping point free end and must flow back from liier to the clamping point. Fig. 13 shows such a strip. If the resistance is not yet sufficiently large, the bimetallic strip can be inserted several times from the clamping side in a way that divides the width up to the vicinity of the free end and between such gaps from the free end near the one! clamping parts are split open (Fig. i4). The clamping of the bimetallic strips subdivided in this way must take place between insulating material.

So that with a changeover switch, as shown in Figs. 5 to 8, the same bimetallic strip attached to the contact plate can cause the switch to be switched off, regardless of the direction of rotation for which the switch is switched on, the nose 24 of the toggle lever 17 must be switched on, which the Fig. 7 shows, come to the same place as the opposite nose of the adjacent toggle lever 17 'when switching on for the opposite direction of rotation. The switch shown in Figures 5 to 8 is designed in this way.

In order not to make the illustrations too confusing, the bimetal strips are 25, 25 'and 25 "only shown in the top view according to Fig. 8, but in Fig. 5 to 7 omitted.

Figs. 9 to 12 show a switch in which the intermediate member b has instead of the toggle levers 17, i7 ', 17 "rollers 26, 26', 26" which roll up on the humps 27 when the intermediate member b rotates, between which they rest in the switched-off state, as shown in Fig. 9 and 1o. As soon as the roller centers have slightly exceeded the highest point, the switch is switched on. Furthermore, the intermediate member b cannot rotate with respect to the switching member c, since it is prevented from doing so by a stop. This stop can also consist of a small angle lever 28 , the pivot point of which is mounted on the switching element c is approximately aligned with the point of contact between roller 26 and hump 27 in the highest roller position. The stop can be set precisely by means of the screw 29, which is located on the angle lever 28. The free end 3o of the lever 28 rests on the bent-up end of the bimetallic strip 25 or provided with a button 3 r of the bimetal strip. As soon as this, heated by the electric current, curves up, the roller 26 is pushed over the highest point of the hump 27. The other roles also perform the same movement, since they are all coupled to one another by the intermediate member b. As soon as the rollers have passed the highest points of the humps, they are switched off quickly.

In all exemplary embodiments, it is advisable to suspend the connecting contact pieces e, e ', e " on the switching element c, as shown in FIGS. 3 and 4, so that slight inclinations are possible so that they lie firmly on both contact pieces of the base plate.

Instead of the bimetallic strips, the gear parts when heated too high of the switch directly out of the locked position, this can also indirectly done by the fact that the bimetallic strips during heating by notching release a spring force acting on the stop, so that the stop pushes the toggle lever raises, which thereby goes into the switch-off position. `

Claims (7)

PATENT CLAIMS: i. Changeover switch with toggle mechanism, the drive member of which is parallel to the in the same plane contact surfaces of the stationary contact pairs after a dead gear an intermediate switching element with toggle levers or equivalent. Parts, such as cams, take along with rollers and thereby take a contact bridge carrier into the switched-on position and the toggle lever or the like, overcoming the opening spring. pushes while overcoming its suspension into its blocking position, characterized in that the switch is designed as a changeover switch (Fig. 3 and 4) such that when switching the intermediate member (b) of the switching mechanism after it has been driven by the drive member (a) only after a Backlash (h) has been carried along, first the toggle levers (6, 7) or the like. Releases from their end position, so that the switch-off and toggle lever suspension (g, g ') the contact bridge carrier (c) with the contact bridges (e, e ', e') in ,, the, switch-off position, with further movement of the drive member (a) by means of the toggle levers (6, 7) the contact bridge carrier (c) between two stops parallel to the contact surfaces by a bit (i) into the new one Takes position and then executes the second switching in the manner corresponding to the first switching on and off. 2. Changeover switch according to claim i, characterized in that the pressure, with which the contacts are pressed, by special, expedient with the force Springs (f) starting at zero is caused. 3. Changeover switch according to claim i, characterized in that all three switching elements (a, b and c) the contact blocks and the three toggle levers or double toggle levers are arranged around an axis so that the parallel movements about this axis and the switching movements by means of a back and forth rotatable handle can be performed. Toggle switch according to claim 3, characterized in that for the switch-off and toggle suspension and helical springs surrounding the axis of rotation are provided for contact pressure are. 5. changeover switch for three-phase current according to claim i, characterized in that in each of the three phases a bimetallic rod is switched on, the overload of the Phase is strongly heated and deformed by the current and a stop on the the toggle lever is supported, immediately lifts, whereby the toggle lever is in the off position goes. 6. Changeover switch according to claim 3 for three-phase motors, characterized in that that the toggle levers lie in the switched-on state against stops that are at both switch positions of bi-metal strips that are electrically heated in the same way for the purpose of switching off in the event of a current overload are influenced in such a way that the bimetallic strip releases a spring force acting on the stop when heated by notching, so that the stop raises the toggle lever, which then goes into the switch-off position. 7. Changeover switch according to claim 3, characterized in that the contact blocks of the switching element can perform a slight pendulum movement around their central position so that they are firmly attached to both contact pieces of the base plate. B. changeover switch for three-phase current according to claim 5, characterized in that the bimetal strips, in order to be able to act for both switching positions, are switched into the connecting lines of the middle of the three contact blocks of each of the three groups. To distinguish the subject matter of the invention from the state of the art, the following publications were taken into account in the granting procedure: German patents No. 478 397, 597 445, 706 894; U.S. Patent No. 797,065.