DE102006047074A1 - Switch rotary drive - Google Patents

Abstract

The invention relates to a rotary switch actuator with an actuating element for transmitting switching forces in a mechanically coupled switch, wherein the actuating element has a rotary bearing, which allows a rotational pivotal movement of the actuating element relative to a mechanically coupled to the actuating element base member, and wherein the switch rotary drive has at least one spring whose spring force acts on the actuating element in an angular range corresponding to the switch position AN, in the direction of an angular position of the actuating element which corresponds to the switch position OFF, and which is designed such that its spring force in spring actuation directly on a molded element on the base member and on the actuating element attacks. It is envisaged that exclusively in the angular range of the actuating element (10), which corresponds to the switching state AN (40), the spring force acts on the mold element on the base member (20) and on the actuating element (10).

Description

The The invention relates to a rotary switch actuator with an actuating element for the transmission of shifting forces in a mechanically coupled switch.

rotary switch become common to open and closing used electrical contacts. For this purpose, has a rotary switch a manually operated Shift lever on which actuates a gearbox when pivoting, whereby at the output of a movement of a contact element for opening or Shut down an electrical circuit is realized.

there There are essentially two requirements for the rotary drive of a Rotary switch, namely that on the one hand, it clearly indicates when the switch is itself triggered (tripped) and on the other a clear indication of one continues existing current flow in the switch with welded contacts and manual switch-off of the switch realized.

In the latter function should after manual rotation of the shift lever in the switch position OFF the display of the rotary switch again automatic jump to the display position AN, thus clearly for the operator It can be seen that current continues to flow through the switch. at most of the usual rotary switches embodiments but are the frictional forces the relatively moving components or his rotary drive so big and the switching force applied by the switch itself during the switching process so small that the rotary actuator of the rotary switch in self-timer only then jumps by itself in the OFF-switching area and only then one clear Trippanzeige realized when the force in the switch by a strong from the ON state to the OFF state acting spring is supported in the rotary drive. This from the ON state in Direction OFF switching state acting spring force acts however an automatic Jump back the rotary drive or the display on the rotary drive at welded Contacts from OFF display state to ON display state and decreases thus the security for the switch actuating Operator.

From the document EP 1 210 719 B1 is a circuit breaker with release mechanism with biased detent element is known, which has a relatively complicated release mechanism. In this circuit breaker, the trigger is connected to a torsion spring. The function of the trigger is the inhibition of a locking device. Upon release of the inhibition of the locking device by the trigger this pivots out of its previous position and allows an automatic change of the switching states of the switch. For this purpose, it is pivoted against the spring force of the torsion spring upon actuation of the trigger, so that it releases the locking device. This release switches the switch from the on state to the off state. The spring thus causes a force which is used in the unlocking of the switch. The spring force is thus not used to move the actuator. The resultant structural design of the circuit breaker is relatively complicated and therefore expensive.

The document EP 03 421 33 B1 describes a switching mechanism for a small circuit breaker with Isolierstoffgehäuse and a fixed and a movable contact, and a mechanism having, inter alia, a release lever, a return spring and a contact lever. The switching mechanism further comprises a pivotable actuating element, on which acts a provided with a compression spring and a contact piece transmission element. The compression spring causes a moment on the actuating element in a direction of rotation which corresponds to the direction of the circuit of the switching mechanism in the switching state AN.

The document DE 101 52 425 A1 discloses a circuit breaker in which a switching mechanism, which is coupled via a gear mechanism with a rotary switch knob, a shift lever which is arranged rotatably in the vertical direction. Further, the circuit breaker comprises a spring between a housing plate and the vertically slidable shift lever, wherein the spring applies only a force on the shift lever for effecting a permanent contact of the shift lever on a rocker arm. The translational movement of the shift lever is generated by the sliding to each other inclined surfaces on the shift lever and an actuator. The spring is thus not arranged on the actual actuating element, such as the handle or on the gear transmission. This complicates the entire structural design of the switch in this embodiment.

From the document WO 01/69634 A2 is a switching mechanism with an actuating lever and a gear for closing or opening contacts known which has two springs, wherein in the TRIPPED state, the first spring moves the actuating lever in the direction OFF and wherein arranged on a gear member of the switching mechanism designed as a torsion spring second spring is that also has a power A moment is exerted on the operating lever in the switching state ON in the direction of the switching state OFF, so that it moves in self-tripping in the direction of the switch state OFF. This switching mechanism is also relatively complicated and therefore costly to manufacture.

Of the Invention is based on the object, a rotary drive for a Rotary switch available to put in a simple constructive design in switch states, in which the switch itself tripped has and welded Contacts can clearly realize the correct display.

The The object is achieved by the features mentioned in claim 1. advantageous Embodiments are in the dependent claims and the independent claim 15th listed.

It is a rotary switch actuator with an actuator for transmission of switching forces provided in a mechanically coupled switch, wherein the actuating element is a Drehlagerung having a rotary pivoting movement of the actuating element relative to a mechanically coupled to the actuator Basic component allows. The switch rotary drive also has at least one spring on whose spring force on the actuator in an angular range, which corresponds to the switch position AN, in the direction of an angular position of the actuating element acts, which corresponds to the switch OFF position. The spring is here configured such that its spring force when spring action directly engages a mold element on the base member and the actuator. The position and the design of the spring or the position of the Actuator and of the mold element on the base component is designed such that exclusively in the angular range of the actuating element, which corresponds to the switching state AN, the spring force on the mold element on the base member and on the actuator acts.

Of the operated by the switch rotary actuator switch can be an electrical Be a switch. Due to the inventive design of the switch rotary drive with regard to the position and mode of action of the spring, that the pivoting range of the actuating element in the switch area AUS is not Federkraftbeaufschlagt, that is, that the Rotary movement of the actuating element takes place in this angular range as in a freewheel. With others Words, the spring force only acts simultaneously on the actuator and on the mold element on the base member in the direction of switching state OFF, when the switch is in the switching state ON or when the actuator has taken such an angular position, the switch position AN corresponds. When fixing the spring in one of the two components actuator or in the form of element on the base member, the spring can be biased in this component be arranged. Thus, the spring acts with a constant force on the component to which it is attached. A spring force effect on the actuator and the mold element on the base member but only occurs simultaneously on when the actuator is in an angular position corresponding to the switching state ON of the switch equivalent. This means that an initiation or removal of the Force of the spring, either on the actuator or on the base member is attached, then takes place on the other of these two components, when the actuator is in an angular position, the switching between the switching states ON and OFF corresponds. When switching the switch from the ON state in the state OFF takes place the removal of the spring force and when switching the switch from the OFF state to the switching state AN, the introduction of the spring force in the actuator takes place or in the mold element on the base component. That with the switch rotary drive according to the invention co-operating base component is either an integral part the switch rotary drive, such as a rib or boundary wall in the rotary drive housing or in addition mounted component.

By the restriction the spring action on the angular range of the actuating element, the between the switching states ON and TRIPPED (transition between switching state ON and OFF), the self-triggering of the Switch allows a clean TRIPPED display. But at the same time also the correct display of closed switch contacts of a Schalters whose contacts were welded, for example due to overload, possible, since after manual rotation of the actuator from the ON state in the OFF-switching state, the spring in the OFF-switching state no clamping force against the actuator applies, so that due to the internal elasticity of the actuator and the mechanical transmission elements coupled to it for actuating the Switch and due to one of the switch mechanism when switching itself applied force these gear members back into an angular position jump back, which corresponds to the ON-switching state of the switch and thereby the Take with you, so that for An operator can see that there is still voltage at the switch is applied.

The direct attack of the spring force on the actuating element and the base component results in an advantageously simple structural design of the switch rotary drive according to the invention.

In an advantageous embodiment of the switch rotary drive according to the invention is further provided that this one with the actuator mechanically linked indicator for indicating the switch states ON, TRIPPED and OFF. When this display device is arranged the function of the rotary switch drive according to the invention based on the display states AUS, TRIPPED and AN to describe that only the Swivel range of the actuator in the display area between the display states AN and TRIPPED spring-loaded is, or that the actuating element in this pivoting range is spring-loaded. That means that an introduction or Removal of the force of the spring, either on the actuator or attached to the base member, to the other one of these Components in display state between TRIPPED and OFF. So For example, when the spring on the base member or is attached to a mold element on the base member, the spring force only then in the actuator initiated when the display from the display state OFF in the display state AN passes.

In an alternative embodiment of the switch rotary drive with integrated Display device can be provided that the actuating element itself serves as a display device. In this case clarified only the angular position of the actuator, the switching states ON, OFF and TRIPPED.

The between actuator and form element arranged on the base member spring may be different Embodiments and thereby have different modes of operation. Thus, the spring used a torsion spring, a tension spring or also be a compression spring.

at execution the spring as a torsion spring is provided that the mold element is configured on the base member such that the spring force in according to the invention can be initiated in this. When using a compression spring is the molding element on the base member accordingly a stop, in the force applied by the compression spring compressive forces can be introduced.

at Use of a tension spring between the actuating element and the form element On the base member is advantageously an eyelet on the molding element on the base member mounted in which the tension spring can be mounted. This eyelet can an additional one be arranged on the base member or just an opening in the Base component.

In alternative embodiments, it is provided that the spring either is attached to the fastener or the base member. In the Fixing the spring on the actuator engages the spring when swiveling the actuator from the switching state OFF in the switching state AN to a form element on the base member and is thus stretched, so that its force in the direction of the switching state OFF back. In similar Way, the spring acts in the attachment to the base member, namely that In this case, it acts on a form element on the actuating element and is also strained, so that their power in this case in the switching state OFF back.

at Fixing the spring on the actuator is provided that on the actuating element for Limitation of spring action on the switching state AN at least one passage opening for passage and Motion limitation of a leg of the torsion spring arranged is. When mounting the spring on the base member is provided that to limit the spring action on the switching state AN a spring limit on the base member is arranged, on which a leg of the torsion spring in the switching state OFF for limiting movement.

With this spring travel limiting devices such as the passage opening for a Spring leg in the actuator and the Federwegbegrenzer on the base member is achieved that the movement of the actuator in the switching state OFF freewheeling, as indicated by the Federwegbegrenzungseinrichtungen an extension of the spring and thus the spring force introduction over the demarcated area is prevented.

In Advantageously, it is provided that the spring in the built-in Condition is biased. That means that they are included, for example Attachment to the base component firmly between two stops on the base component is locked or in another embodiment in which they on the actuating element is attached, with their ends or thighs through openings on the actuator so passed, that even in the switching state OFF a constant spring force on the actuator acts.

In an advantageous embodiment, it is provided that the mold element is connected to the base member as a stop for the introduction of spring force in the switching state AN and the freewheeling limitation with the base member by means of a detachable connection. With this configuration it is possible that, for example, according to the spring used and the friction forces prevailing in the switch and the switching force applied by the switch during the switching process, the stop at different positions Ones are arranged on the base member and thus the transition from the freewheel of the actuating element to spring-loaded run in the switch state AN can be realized in different angular positions.

In another cheap Embodiment is provided that the pivot bearing on the actuating element is configured such that upon rotation of the actuating element such high friction forces occur during self-timer the switch is a spring-driven pivoting of the actuating element from the display state AN via prevent the TRIPPED area from being in the OFF display state. This means, that the spring force in proportion not to the ruling in the rotary switch drive friction forces is so big that at a self-timer (TRIPPED) of the switch a jumping or so far Pivoting of the actuating element from the switching state ON to the switching state OFF, the Display TRIPPED skipped becomes. The spring force only goes so far that when self-triggering the Display TRIPPED appears and further rotation of the actuator in the display position OFF counteract the friction forces prevailing in the rotary switch drive.

According to the invention is the Further provided that the rotary drive with door coupling is used. This means that the rotary switch drive according to the invention in the back of a cabinet and the display element with Display of the switching state on the outside of a door, such as Example of a cabinet door, is mounted and both functional units through the door mechanically coupled.

The The invention will be described with reference to the accompanying drawings. It show here

1 a rotary drive with a torsion spring attached to the base member;

2 a rotary drive with a torsion spring attached to the actuator and

3 a rotary drive with a tension spring attached to the base member.

In each of the three figures, there is one basic component each 20 shown on the above a pivot bearing 11 an actuator 10 is rotatably arranged. A display device for displaying the respective switch state is in the 1 to 3 not shown for reasons of clarity. However, it is apparent from the figures that certain switch states certain angular positions of the actuating element 10 relative to the base component 20 correspond. So is the actuator 10 in the 1 to 3 in the switch position OFF 60 or in the ad area OFF 61 , During a rotary movement of the actuating element 10 counterclockwise about the axis of rotation of the pivot bearing 11 happens the actuator 10 the ad area TRIPPED 51 , In a further pivoting of the actuating element 10 counterclockwise enters the actuator 10 in the switch position ON 40 or in the display area AN 41 ,

Im in 1 shown switch rotary drive is a torsion spring 30 on the base component 20 in the area of the pivot bearing 11 arranged as a force-applying element. A shorter leg of the torsion spring 30 rests on the form element 21 on the base component 20 from. I'm in the 1 shown switching state of the switch rotary drive is the longer leg of the torsion spring 30 on a suspension travel limiter 22 at. Thus, the torsion spring 30 between the molding element 21 on the base component 20 and the spring travel limiter 22 biased and the actuator 10 can move in the area of the switch position OFF freewheel. In a pivoting movement of the actuating element 10 counterclockwise in the switch position ON 40 comes a stop 12 of the actuating element 10 for engagement with the longer leg of the torsion spring 30 and presses against this against the spring force. Thus, the torsion spring causes 30 in the switch state ON 40 a constant force on the actuator 10 about its stop 12 , When the switch is triggered automatically, for example in the event of an overload, this is caused by the torsion spring 30 applied force after cancellation of the forces caused by contact closure in the switch a pivoting back of the actuating element 10 clockwise from the display area AN 41 or from the switch position AN 40 out. Through in the pivot bearing 11 prevailing frictional forces is prevented in the self-triggered switch state, a rotational movement of the actuating element 10 far into the display area OFF 61 or in the switch position 60 takes place, since the frictional forces in relation to the kinetic energy generated by the spring of the actuating element 10 in motion in the display area AT 41 are sufficiently large, a further movement of the actuating element 10 in the ad area OFF 61 in which there is no spring force on the actuator 10 acts to prevent. Furthermore, it can be seen that, for example, with welded switch contacts and with manual rotation of the actuating element 10 from the switch position ON 40 or from the display area AN 41 in the switch position OFF 60 or in the ad area OFF 61 the actuator 10 due to its elasticity and the elasticity of Ge coupled to it transmission elements for transmitting the rotational movement of the actuating element 10 on the switch (not shown), the actuator 10 from the switch position OFF or from the display area OFF 61 pivoted back to at least the angular position at which the stop 12 on the longer leg of the torsion spring 30 is applied. This ensures that when welded contacts of the switch and rotation of the actuating element 10 from the ad area AN 41 in the ad area OFF 61 the ad is not in the ad area 61 stops and informs the operator that the switch is not turned off, but that the indicator is at least TRIPPED in the range 51 springs back, and thus gives the operator the information that, contrary to its operation of the actuating element 10 in the switch position OFF 60 the switch is not in the off state. Depending on the choice of the spring constant of the torsion spring 30 the switch rotary drive according to the invention can be adjusted such that in welded contacts due to the elasticity of the actuating element 10 and attached to him transmission transmission members, the actuator 10 a certain amount of angle over the display area TRIPPED 51 out counterclockwise into the display area AN 41 is pivoted because with little deformation of a spring even small forces applied by the spring against the actuator 10 Act.

A setting against the actuator 10 acting force can be realized by the bias setting.

An alternative embodiment to the in 1 shown embodiment of the invention is in 2 shown. In this embodiment, a torsion spring 30 on the actuator 10 attached. Both legs of the torsion spring 30 are in openings in the actuator 10 introduced or passed through it, wherein at least the longer leg of the torsion spring 30 over the circumference of the actuating element 10 protrudes. In a pivoting movement of the actuating element 10 counterclockwise from the display area OFF 61 out into the ad area 41 becomes the leg of the torsion spring 30 to the mold element 21 on the base component 20 introduced, so that the leg on the mold element 21 on the base component 20 rests and a constant force between the mold element 21 on the base component 20 and the actuator 10 clockwise. The function or mode of operation of in 2 illustrated embodiment is like that of the embodiment in 1 described. The bias of the torsion spring 30 is determined by the arrangement of the openings in the actuator 10 reached, through which the legs of the torsion spring 30 be plugged.

In 3 is an embodiment of the switch rotary drive according to the invention with a tension spring 31 shown. The tension spring 31 is on the one hand on one of the base component 20 arranged cones 23 attached or hung. On the actuator 10 arranged driver 13 runs during the pivoting movement of the actuating element 10 in a train eyelet 32 the tension spring 31 , In the area of the switch position OFF 60 the driver is running 13 free in the train eyelet 32 , When reaching the transition between the switch position OFF 60 and the switch position ON 40 or at the transition between the display area OFF 61 and the ad area AN 41 reaches the driver 13 the end of the train eyelet 32 and thus causes in a further pivoting counterclockwise of the actuating element 10 an extension of the tension spring 31 and thus a force between the base member or its pin 23 and the actuator 10 or its driver 13 towards the switch position OFF 60 acts. This embodiment also ensures that, when the switch is triggered automatically, a TRIPPED indication is made in the display device of the rotary drive and that during the welding of the contacts due to the elasticity of the actuating element 10 and coupled to him gear members, the actuator 10 and accordingly the display device coupled to it is not in the switch position OFF 60 stops, but at least in the ad area TRIPPED 51 springs back or softer embodiment of the tension spring 31 across the ad area TRIPPED 51 out into the display area AN 41 turns back.

10

actuator

11

pivot bearing

12

attack

13

takeaway

20

basic component

21

forming element on the base component

22

Bump

23

spigot

30

torsion spring

31

mainspring

32

Train eyelet

40

switch position AT

41

display area AT

51

display area TRIPPED

60

switch position OUT

61

display area OUT

Claims (17)

Switch rotary drive with an actuating element for transmitting switching forces in a mechanically coupled switch, wherein the actuating element has a rotary bearing, which allows a rotational pivotal movement of the actuating element relative to a mechanically coupled to the actuating element base member, and wherein the switch rotary drive at least one spring ( 30 . 31 ), whose spring force acts on the actuating element in an angular range corresponding to the switch position AN, in the direction of an angular position of the actuating element, which corresponds to the switch position OFF, and which is designed such that its spring force at spring actuation directly to a mold element on the base member and acts on the actuating element, characterized in that only in the angular range of the actuating element ( 10 ), which corresponds to the switching state AN ( 40 ), the spring force on the shaped element ( 21 ) on the base component ( 20 ) and on the actuating element ( 10 ) acts. Switch rotary drive according to claim 1, characterized in that the switch rotary drive further comprises a with the actuating element ( 10 ) mechanically connected display device for displaying the switch states AN ( 41 ), TRIPPED ( 51 ) and from ( 61 ) having. Switch rotary drive according to claim 1, characterized in that the actuating element ( 10 ) itself serves as a display device. Switch rotary drive according to one of the preceding claims, characterized in that the spring is a torsion spring ( 30 ). Switch rotary drive according to one of claims 1 to 3, characterized in that the spring is a tension spring ( 31 ). Switch rotary drive according to one of claims 1 to 3, characterized in that the spring is a compression spring. Switch rotary drive according to claim 4, characterized in that the shaped element ( 21 ) on the base component ( 20 ) an attack ( 12 ), which is for abutment of a spring leg of the torsion spring ( 30 ) serves. Switch rotary drive according to claim 6, characterized in that the shaped element ( 21 ) on the base component ( 20 ) an attack ( 12 ), which serves to bear the pressure side of the compression spring. Switch rotary drive according to claim 5, characterized in that the shaped element ( 21 ) on the base component ( 20 ) an eyelet ( 32 ) for attaching the tension spring ( 31 ). Switch rotary drive according to one of the preceding claims, characterized in that the spring ( 30 . 31 ) on the actuating element ( 10 ) is attached. Switch rotary drive according to claims 1 to 4, 7 and 10, characterized in that for limiting the spring actuation to the switching state AN ( 40 ) at least one passage opening for the passage and movement limitation of a leg of the torsion spring ( 30 ) on the actuating element ( 10 ) is arranged. Switch rotary drive according to one of claims 1 to 9, characterized in that the spring ( 30 . 31 ) on the base component ( 20 ) is attached. Switch rotary drive according to claims 1 to 4, 7 and 12, characterized in that for limiting the spring actuation to the switching state AN ( 40 ) a spring travel limiter ( 22 ) on the base component ( 20 ) is arranged, on which a leg of the torsion spring ( 30 ) in the switching state OFF ( 60 ) is applied to the movement limit. Switch rotary drive according to one of the preceding claims, characterized in that the spring ( 30 . 31 ) is biased in the installed state. Switch rotary drive according to one of the preceding claims, characterized in that the shaped element ( 21 ) on the base component ( 20 ) for spring force introduction with the base component ( 20 ) is connected by means of a detachable connection. Switch rotary drive according to one of claims 2 to 15, characterized in that the pivot bearing ( 11 ) on the actuating element ( 10 ) is configured such that upon rotation of the actuating element ( 10 ) such high friction forces occur, the self-triggering a spring-driven pivoting of the actuating element ( 10 ) from the display state AN ( 41 ) over the TRIPPED area ( 51 ) in the display state OFF ( 61 ) prevent. Use of the rotary switch drive after one the claims 1 to 16, characterized in that the rotary drive as a front rotary drive with door coupling is used.