DE1087213B - Electric toggle switch with pressure contacts for slow actuation - Google Patents

Description

GERMAN

Electric toggle switches are z. B. for Programmschal tauf gave by a rotating roller that is provided with variable stops, switched on or off. The switching process itself is on slowly steadily, so that, if no special aids were provided, so was the contact separation would go very slowly. There are therefore switches known in which with the program roller a tilting mechanism is controlled, which, pivoted over the dead center position, causes a sudden changeover causes in the other switching position. Such tilting devices usually consist of two levers, from one of which is loosely mounted on a cutting edge and the other on a fixed point. Between the free A bow spring is tensioned at the ends of both levers, which when the control lever is pivoted past the dead center position is, press both levers at an angle to each other. Usually the contacts are on both sides of the free lever mounted on the cutting edge so that, depending on the switching position, one or the other other contact is actuated. But it is also possible to attach a second directly to the control lever To articulate lever over which a helical spring is pulled, and this second lever so displaceable to be supported on the contact lever so that the tension force of the spring strives to support the bearing points of both levers away from each other. Such toggle lever devices have long been known in switch construction used in many ways.

The contact pressure now results depending on the direction of the force application and is usually only a fraction of the available spring force, since half of the spring force is against a fixed stop anyway is directed by the control lever, part of the force goes into the cutting edge bearing and only the rest is evaluated for the contact pressure.

Such switches also have the property that during the pivoting process of the control lever The contact pressure gradually decreases due to the change in force applied by the toggle spring, so that at the moment When the contacts are lifted, the risk of welding is very high.

It has therefore already been proposed to design the control lever so that it has appropriate Noses or stops forcibly pivot the contact lever in the course of its pivoting movement and thus the contacts tear off, so that a final weld is prevented. With the help of this In principle, it is achieved to double and even triple the number of possible circuits.

Due to the low contact pressure, however, these switches still show considerable contact resistance at the contact points that are Electric toggle switch

with pressure contacts
for slow actuation

Applicant:

LICENTIA Patent-Verwaltungs - G. m. B.H., Frankfurt / M., Theodor-Stern-Kai 1

Helmut Brand, Hamelin,
has been named as the inventor

could be avoided by increasing the contact pressure. A contact pressure increase can, however can only be achieved by reinforcing the toggle spring. A reinforcement of the toggle spring in turn means an amplification of the drive force to be used for the control of the program roller or the Control device, which results in a considerable increase in the cost of the entire system.

There are now also toggle switches with pressure contacts known in which the reaction force of the to generate the contact pressure serving toggle spring the contact pressure by a on the contact arm of the switch acting deflection increased in the end positions.

The known switches of this type are due to their structural design for the present purpose not readily suitable because they only provide a relatively small increase in contact pressure. So is for example in a switch with a spring snap member actuated by a toggle lever as Contact carrier a contact pressure spring supported on the rocker arm is provided, which over the rocker arm reacts with their reaction force on the contact carrier. The leverage ratios are with this one Switch relatively unfavorable, so that the contact pressure increase is only slight, especially as a result of resilient flanks of the contact carrier striped in the middle, a relaxation of the contact compression spring and thereby a further reduction in the contact pressure can occur.

In the case of another switch, the toggle spring acts on two levers, on the one hand on a common one Rotary levers are pivotably mounted and on the other hand by the spring against a lens-shaped, pivotable, contact lever provided with a contact lever

009 587/316

carrier to be printed. With this switch, the reaction force of the toggle spring is used for the contact pressure also used, but the contact lever is blocked by stops in its end positions, so that a substantial part of the spring force is lost here.

The invention has set itself the task of an electrical. Toggle switch with pressure contacts closed create that when applying the inherently advantageous known principle of the "deflection of the toggle spring reaction force on a contact carrier the disadvantages the known switch avoids and achieves a high contact pressure. According to the invention is on one tiltably mounted contact arm a lever arranged longitudinally displaceable, which carries the toggle spring and one end of which is articulated to the shift lever rotatable about a fixed shaft, to the stops so are attached that the deflected by the shift lever reaction force of the toggle spring over the stops with a force-amplifying translation to the free end of the contact arm on the contact side acts and thus increases the contact pressure exerted directly on the contact arm by the toggle spring.

Appropriately, as is known per se, the stops are arranged so that one is in the on position transfers the deflected reaction force of the toggle spring while after actuating the toggle lever and after the dead center position has been exceeded, the other forcibly opens the contact. In the other In the switching position, the function of the stops is reversed. The shift lever forms a non-equal arm Lever, on whose long lever arm the reaction force of the toggle spring acts and whose shorter one Lever arm acts on the switching element, so that the reaction force of the toggle spring corresponds to the lever ratio is reinforced.

The principle according to the invention can be used for a wide variety of switch constructions and will experience a different structural design in each case. So it is z. B. also possible with multi-pole Provide switches with two simple reversing levers, one lever having a compulsory contact opening causes and the other lever in the control lever end position the spring return pressure force to increase the contact pressure upgraded.

The representations according to FIGS. 1 to 4 show embodiments of the subject matter of the invention as construction examples and do not claim to exhaust all constructive possibilities.

In Fig. 1, a switching lever is shown at 1, at the free end of which the force of the program roller indicated by the arrow P engages and tries to move the control lever in the direction of the arrow. The fixed points marked 8 show the usual stop on the housing with such switches, through which the pivoting range of the control lever was previously limited. To understand the switch function described below, these fixed points 8 must be viewed as not available.

The contact lever 3 is mounted in a knife-edge bearing 10, on which the movable ones on both sides. contacts 4 are attached. Between the. Blade bearing 10 and the movable contacts 4 of the contact lever the toggle lever 11 is articulated displaceably via a slot; this lever 11 in turn forms with the.shifter.l a knee joint. The spring 2 strives to the bearing points on the contact lever 3 and To remove shift levers 1 from one another, d. H. to pivot the levers at an angle to each other.

If the switching lever 1 is now pivoted in the direction of the arrow about the fixed bearing point 5 by the control force P , the knee joint of levers 1 and 11 is stretched under tension of the spring 2. The force component of the spring 2 acting on the lever 3 in the contact closing direction becomes smaller and smaller until it reaches the value 0 in the dead center position of the toggle lever and slowly increases again when pivoting further beyond the dead center position. This increasing force component has now

ίο the task of pivoting the contact lever 3 and separating the contacts. At this moment the contact pressure is zero and the risk of welding is greatest. If welding now occurs, the force component of the spring 2, which becomes larger and acts in the contact separation direction, is no longer able to separate the contacts. The switch and with it the whole system would fail. In order to prevent this, the stops are attached to the crossbar 12, which is arranged cross-shaped to the lever 1 and which, in the course of its pivoting movement forced by the control device, lies against the lever 1 in a manner known per se and thereby separates the contacts from one another. The force component of the spring 11, which has increased in the meantime, ends the switching process. In this end position, the stop 6 rests again in a manner known per se on the contact lever 3, so that the pivot angle of the control lever 1 is limited and the back pressure component of the spring 2, which is directed into the housing via the stops 8 in known switches, results in an increase in contact pressure between the Contacts 4 and Ta causes. The same also applies to the switching position according to FIG. 1, only that the other end position is drawn there and the stop 6 α acts on the lever 3, so that the contact pressure between the contacts 4 and 7 is increased. The stops 6 and 6 a have either the task of forced separation or the increase in contact pressure, depending on the switching position.

What was said about FIG. 1 essentially applies to FIG. 2, only the shift lever is in this construction 1 separated from the pivot lever 9 and at the force application point of the spring 2, d. H. on the knee joint, slidably pivotally connected to this. While in the representation of FIG. 1, a force component the spring 2 presses the contact lever 3 into the blade bearing 10, this force component acts in the illustration of FIG. 2 in the opposite direction, so that a hanging Blade bearing is provided.

The construction according to FIG. 3 shows a switch according to the invention when using a V-shaped two-armed contact carrier 3, which is to alternately produce a current connection with the contact 7 or Ta . In this construction, too, the back pressure force of the spring 2, which is indicated by an arrow in known switches so far in the housing, is passed through the lugs 6b corresponding to the stops 6 according to FIG. 1 to the contacts in the contact closure direction. Furthermore, as can be seen from the switching position shown in dashed lines, the lugs 6 b also have the task of achieving a forced contact opening in the event of contact welding.

4 a to 4 c show the construction example of a multi-pole switch according to the invention. Here's the shift lever 1 with its stops 6 by the two pivot levers la and replaced 1.6, have now separate functions. In the

Representation according to FIG. 4 a, the spring return pressure force is passed via the pivot lever 1 b in the contact closing direction to the contact slide 13 and thus the contact pressure between the movable contacts 4 and the fixed contacts 7 is increased. According to Fig. 4b, a forced contact opening is also achieved via the pivot lever.

4c shows only a plan view of a switch arrangement according to FIGS. 4 a and 4 b.

Claims (6)

Claims: 10 1. Electric toggle switch with pressure contacts, in which the reaction force of the particular to generate the contact pressure serving toggle spring in the end positions the contact ^ 15 pressure increased via a deflection device that acts on the contact arm, characterized in that that a lever (11) is attached to the tiltable contact arm (3) so that it can be moved longitudinally. is arranged, which carries the toggle spring (2) and the ao with one end on which around a fixed shaft (5) rotatable switching lever (1) is articulated, on which stops (6 or 6 a) are attached so, that the reaction force of the toggle spring (2) deflected by the switching lever (1) over the stops (6 or 6 a) with a force-amplifying translation on the free end on the contact side of the contact arm (3) acts and so that exerted by the toggle spring (2) directly on the contact arm (3) Contact pressure increased. 2. Toggle switch according to claim 1, characterized in that the stops (6, 6 a) are arranged are that the one stop in the switched-on position, the deflected reaction force of the Toggle spring transmits while after actuating the shift lever (1) and after exceeding the dead center position the other stop forcibly opens the contact, and the function of the stops is reversed in the other switch position. 3. Toggle switch according to claim 1 and 2, characterized in that the switching lever (1) has a non-equal arm Forms a lever on whose long lever arm the reaction force of the toggle spring acts and whose short lever arm acts on the switching element (3), so that the reaction force of the Tilt spring is reinforced according to the lever ratio. 4. Toggle switch according to claim 1 to 3, characterized in that the switching lever (1) on the Attacks (6 or 6 a) is also extended and that a program switch drum or another mechanical control acts in a known manner on this extension. 5. Toggle switch according to claim 1 and 2, characterized in that the stops (6, 6 a) on a further unequal arm lever (9) are arranged in its slot-shaped cutout the articulation point of the toggle system (1, 11) is slidably arranged. 6. Toggle switch according to claim 1, characterized in that the switching lever (1) is T-shaped or cross-shaped and two stops (6b) are arranged on its crossbar, which act alternately on the V-shaped switching element (3) and thereby a Increase the contact pressure or force the contacts to open. Considered publications:
German Patent Nos. 420765, 491798;
Swiss Patent No. 181631;
British Patent No. 660,338. Legacy Patents Considered:
German Patent No. 1 001 741. 1 sheet of drawings ©, 009 587/316 8.60