EP1054421A2 - Switch - Google Patents

Abstract

A knee lever (28) is supported in a first switch position with both its ends between a contact bridge (24) and an actuating mechanism (12). A knee link (38) is made to impinge by a tension spring (42) and guided on a 90 degrees offset connecting link p (36) in such a way that the knee lever buckles from the first to a second switch position on moving the actuating mechanism, stretches diagonally with the tension spring and presses the contact bridge into a second switch position.

Description

The invention relates to a switch with a relative to at least one fixed Contact between a first and a second switching position movable Contact bridge over a knee joint lever with an actuator connected is.

The object of the invention is to provide a switch of this type, which is independent of the speed at which the actuator is moved one enables quick switching from one switch position to the other.

This object is achieved in that the knee joint lever in the first switching position in a substantially extended position with his supports both ends between the contact bridge and the actuator and that the knee joint is acted upon by a tension spring and on an angled one Path is guided such that the knee joint lever during movement of the actuator first buckles from the first into the second switching position and, after the knee joint crossed a vertex of its orbit has suddenly brought back into a more stretched position by the tension spring and pushes the contact bridge into the second switch position.

When switching from the first to the second switching position in the first phase of movement of the actuator essentially only the tension spring tensioned. The guide for the knee joint prevents that the force of the actuator to a significant extent on the contact bridge is transmitted and premature movement of the contact bridge caused. Towards the end of this first phase of movement, the tension spring forms one Energy storage, which is the drive energy for the actual switching process delivers.

Only when the knee joint crosses the apex of its angled path has, the leg of the knee joint lever, which is assigned to the contact bridge is shift such that the switching bridge in the second switching position is pressed. This movement is driven by the tension spring, which the Knee joint lever stretches again, and is therefore largely independent of the Movement of the actuator.

The construction according to the invention has the advantage that only a small number moving components is required and that the tension spring only for a short time is cocked during the switching process, while in both switching positions is largely relaxed. In this way, fatigue of the Avoid tension spring.

Advantageous refinements of the invention result from the subclaims.

The first switching position preferably corresponds to the closed position of the Switch, so that a rapid movement through the sudden movement of the knee joint Open the switch and thus sparking the contacts can be reduced.

In the second switching position, the one assigned to the actuating member is supported End of the knee lever preferably in a housing-fixed rest. If, as is common practice, the contact bridge resiliently in the closed position is biased, is therefore the actuator from the to the contact bridge acting force relieved.

In a particularly preferred embodiment, the knee joint is on one closed, approximately triangular path, so that it is direct Return paths from the second switch position to the first switch position can. This return movement can be triggered simply by the fact that End of the knee joint lever through the actuator from the housing Rest is lifted out. The force acting on the contact bridge then becomes transmitted to the actuator by the almost extended knee joint lever and returns it to the first switch position. The tension spring can be arranged so that it still supports this reset process. On this way - largely independent of the movement of the actuator - enables a quick switchover movement in both directions.

The following is an embodiment of the invention with reference to the drawing explained in more detail.

Figur 1

einen zum Teil schematisierten Schnitt durch den Schalter; und

Figuren 2 bis 6

verkleinerte Darstellungen des Schalters analog zu Figur 1, für unterschiedliche Phasen des Umschaltvorgangs.

Show it:

Figure 1

a partially schematic section through the switch; and

Figures 2 to 6

reduced representations of the switch analogous to Figure 1, for different phases of the switching process.

The switch shown in Figure 1 has a housing 10 made of electrically insulating Material in a known manner for attachment to a not shown Clamping rail is formed and in which an actuator 12 is rotatable is stored. The actuator is formed by a drum 14 which with a peripheral segment outside the housing 10 and there is a radial projecting arm 16, which allows the actuator of Hand operated.

Two fixed contacts 18, 20 are arranged symmetrically in the housing 10 and each connected to a terminal 22. The opposite inner ends of contacts 18, 20 are shown in FIG Position that corresponds to the closed position of the switch by a Contact bridge 24 electrically connected to each other. By one on the housing supported compression spring 26, the contact bridge 24 is elastic against the fixed Contacts 18, 20 biased.

The drum 14 and the contact bridge 24 are through a knee joint lever 28 connected with each other. In the state shown in Figure 1, the knee joint lever 28 an almost stretched position, and he supports himself with a shorter one Leg 30 off the contact bridge while its slightly longer another Leg 32 with the free end on a radially projecting shoulder 34 the drum 14 rests. The housing 10 forms a guide link 36, the a closed, approximately triangular path for the knee joint 38 of the knee joint lever Are defined. In addition, the guide link 36 forms a straight line Guide 40 for the free end of the leg 30 of the knee joint lever.

A tension spring 42 designed as a tension spring acts on the knee joint 38, which is anchored at its other end to the housing 10. The knee joint 38 lies in a corner of the guide link 36. The knee joint lever is in this position 28 slightly angled. The tension spring 42 on the knee joint The force exerted also has a my upward component, so that the leg 32 of the knee joint lever is slightly stretched against the shoulder 34 becomes. Compared to the contact bridge 24, the knee joint lever can therefore have a certain degree Have play so that the contact pressure exerted by the compression spring 26 is not affected.

In the vicinity of the axis of rotation of the drum 14 is through the housing 10 in one a guide contour with an axially offset plane relative to the drum Rest 44 formed for the free end of the leg 32 of the knee joint lever. Farther a guide 46 is formed on the housing 10, the free end of the leg 32 always holds in the vicinity of the drum 14. An outer perimeter section the drum 14 forms a resilient tongue with a locking cam 48, which interacts with a housing-fixed cam 50 and the actuator 12 locked in the position shown in the figure.

When the switch is to be opened, the arm 16 turns counterclockwise in Figure 1 pivoted so that the locking cam 48 over the cam 50th slides away. The shoulder 34 presses on the leg 32 of the knee joint lever, so that the knee joint 38 slants downward toward the bottom of the upper, almost horizontal section of the guide link 36 becomes. The guide link prevents the lower leg 30 of the knee joint lever, the contact bridge 24 from the contacts 18 and 20 takes off. Instead, the knee joint lever 28 kinks against the force of the Tension spring 42 and the knee joint 38 moves in the upper section the guide link to the right, as can be seen in Figure 2. The knee joint 38 thus approaches a vertex 52 which is the right corner of the guide link 36 forms.

FIG. 3 shows the state in which the knee joint 38 has this apex 52 slides away. At this moment, the leadership backdrop sets that of the actuator 12 no force exerted on the leg 32 of the knee joint lever Resistance more. The tension spring 42 is stretched to the maximum, and at the knee joint 38 there is a resultant force which the knee joint in the Section of the guide link 36 pulls downward from the apex 52 runs. It is only from this moment that the knee joint lever also exercises a downward force on the contact bridge 24.

Due to the high force of the tension spring 42, the knee joint 38 moves very quickly through the lower portion of the guide link 36 so that the The knee joint lever is suddenly stretched again. The lower end of the knee joint lever moves in the straight guide 40 down and moves the contact bridge 24 very quickly away from the fixed contacts, so that the electrical contact is interrupted in the shortest possible time. This quick break of contact occurs even when the arm 16 of the actuator only moved very slowly or held in the position shown in FIG becomes.

While the knee joint 38 is moving from the position shown in FIG. 3 into the position 4 moves, the leg 32 is increasingly based on one Eccentric surface 54 of the drum 14, which adjoins the shoulder 34. At the same time, this end of the knee lever is also supported on the on the housing trained guide contour. which forms the latch 44 and which partially with the eccentric surface 54 is congruent.

The force of the tension spring 42 is divided into two components, the longitudinal direction of the two legs of the knee lever act. The more the Knee joint lever stretches, the greater the force component, that of the force the compression spring 26 counteracts. The tension spring 42 therefore pulls the knee joint lever in a fully extended position in which, as shown in Figure 4, the knee joint 38 in a latch 56 at the lower corner of the guide link 36 lies.

Meanwhile, the switching element 12 has been moved to the end position, which the corresponds to the open position of the switch. Here is the free end of the leg 32 of the knee joint lever through the shoulder 34 of the drum into the fixed Rast 44 has been pushed. The restoring force of the compression spring 26 is therefore now caught on the elongated knee joint lever and the catch 44 on the housing 10, without substantially burdening the actuator 12. Also the Tension spring 42 is largely relaxed again in this state, so that signs of fatigue be minimized if the switch is in for a long time the switch-off position remains.

When the switch is to be turned on again, the arm 16 is removed from the in the position shown in Figure 4 pivoted back into the opposite end position. In the initial phase of this swiveling movement, the free end runs of the leg 32 of the knee joint lever on the eccentric surface 54 and will thereby lifted out of the catch 44, as shown in FIG. 5. The contact bridge 24 during this movement phase against the force of the compression spring 26 pushed even further away from the fixed contacts.

However, when the state shown in Figure 4 is reached, the free end can of the leg 32 slide along the eccentric surface 54 that leads to the switch 34 forms an obtuse angle with the leg 32. The entire knee joint lever therefore moves due to the force of the compression spring 26 by a force component of the tension spring 42 is still supported in its entirety upwards, so that the contact bridge 24 is again the fixed contacts approximates. The knee joint 38 passes through the left, ascending Branch of the guide link 36. The leg 32 swings slightly to the left until its free end again in the corner between the eccentric surface 54 and the Shoulder 34 lies. From this moment on, which is illustrated in FIG the actuator 12 by the force of the compression spring 26 and the tension spring 42 returned to the end position according to FIG. 1, and the switching bridge 24 moves quickly against the fixed contacts so that the electrical contact is suddenly restored. During this process, the Knee joint lever back into the position shown in Figure 1.

When the actuator reaches its end position, the locking cam 48 slides over the housing-fixed cam 50 so that the drum 14 automatically in locks into their final position. This will remove the knee joint lever 28 from the shoulder 34 relieved so that the knee joint 38 reliably held its position in the upper Branch of the guide link 36 takes. This ensures that the knee joint is in the upper branch again when the switch is actuated again the guide link moved to the side and not in the almost vertical Branch of the guide link is pushed back.

Claims (9)

Switch with a contact bridge (24) which can be moved relative to at least one fixed contact (18, 20) between a first and a second switching position and which is connected to an actuating member (12) via a knee joint lever (28), characterized in that the knee joint lever ( 28) is supported in the first switching position in a substantially extended position with its two ends between the contact bridge (24) and the actuating member (12) and that the knee joint (38) is acted upon by a tension spring (42) and on an angled path (guide link 36) is guided such that when the actuating member (12) moves from the first to the second switching position, the knee joint lever first buckles and, after the knee joint (38) has passed a vertex (52) of its path, through the tension spring (42) is suddenly brought back into a more extended position and thereby presses the contact bridge (24) into the second switching position. Switch according to Claim 1, characterized in that the first switch position is the switch-on position and that in this position the contact bridge (24) is resiliently biased against the fixed contact (s) (18, 20). Switch according to claim 1 or 2, characterized in that the angled path (36) is part of a closed path on which the knee joint (38) can return directly from the position corresponding to the second switching position to the position corresponding to the first switching position. Switch according to Claim 3, characterized in that the tension spring (42) is arranged in such a way that the force exerted by it on the knee joint (38) has a component which pretensions the knee joint in the direction of the position corresponding to the first switching position. Switch according to one of the preceding claims, characterized in that the knee joint lever (28) assumes an extended position in the second switching position. Switch according to claims 3 and 5, characterized in that the knee joint lever (28) is supported in the second switching position with its end opposite the contact bridge (24) on the housing (10) of the switch. Switch according to Claim 6, characterized in that one end of the knee joint lever (28) in the second switching position lies in a latch (44) fixed to the housing and in that the actuating member (12) is designed to move the knee joint lever during the movement from the second switching position into the Lift the first switch position out of the catch (44) and then let it return in the direction of the first switch position. Switch according to claim 7, characterized in that the actuating member (12) has a rotatable drum (14) which has a radially projecting shoulder (34) for supporting the knee joint lever (28) in the first switching position and an eccentric surface adjoining this shoulder ( 54) for lifting the knee joint lever out of the catch (44). Switch according to claim 7 or 8, characterized in that the actuating member (12) can be locked in the end position corresponding to the first switching position.

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