DE4442417C1 - Toggle action mechanism for use with LV electrical power switch - Google Patents

Abstract

The invention concerns a lock for a power switch, the lock having a gate, two elbow levers connected to each other by a spindle, a spiral locking spring and a release arm which controls the tipping point and hence the release of the switch shaft.

Description

The invention relates to a switch lock for a Low voltage switchgear, especially one Circuit breaker or switch disconnector, with housing with a by means of a control panel for the purpose of input and Turn off movable pivoted in the housing Shifting gate, with two on one axis connected toggle levers that are pivotable against the Force action of a lock spring are stored, the pivotable end of the toggle lever axis Toggle lever on a shift shaft rotatably mounted in the housing, which is equipped with movable contact pieces is, and wherein the lock spring between the shift gate and Toggle lever axis is arranged.

Switch locks of the generic type are for example known from DE 42 27 213 A1. The content of DE 42 27 213 A1 is included in the present application.

DE 42 27 213 A1 is a reliable opening Switch lock described, the advantages in manufacturing has a corresponding construction. Especially form the shifting gate, the toggle lever and the lock spring a simple but effective tipping mechanism.  

It is in many cases with low voltage switchgear to strive for the switching characteristics by increasing the To improve contact force between the contact pieces. The stands in the way of the limited power supply of the key switch.

It has also been found that switch locks are more well known Construction, as known for example from DE 42 27 213 A1, the tipping point for switching on the key switch by the lock spring, under the force of which Knee levers are mounted on the support lever due to friction and manufacturing tolerances, even in unwanted areas. Scatters the tipping point towards " early ", it may happen that the spring preload of the Lock spring is not sufficient to use the selector shaft through the contacts. This in turn can faulty contacts in the switchgear itself and thus errors in the electrical behavior of the connected Systems. Because also depending on the position of the rocker arm of the key switch auxiliary devices, for example Auxiliary switches that are actuated make heavy scattering difficult the tipping point, d. H. the temporal and logical coordination the control points of the auxiliary facilities.

If a key switch is switched on slowly, it can occur that due to the friction, the shift shaft is not the dynamic energy that is required to generate the Close contacts completely. This also leads to errors in the electrical behavior of the system.

The invention has for its object a higher Allow contact force without making a stronger one Need lock spring.

This task is carried out in a generic switch lock solved in that a rotatable about a fixed axis under the force of a biasing spring Release lever is provided which by means of at least one Latching stop in the movement path of the selector shaft  intervenes and the release of the movement path by activation the release lever is done using the control panel, such that when switching on by means of the control panel the movement of the selector shaft to close the contacts first after the theoretical tipping point has been exceeded Lock spring is released.

According to the invention, a preloaded release lever is therefore used provided that with a latching surface - latching stop of the control shaft, which includes the contact apparatus - locks. This release lever is dependent on the Position of the control unit controlled, d. H. Approved, in such a way that the release only after exceeding the theoretical tipping point of the lock spring. According to the invention, it is therefore possible to To drive over the tipping point and only afterwards a so-called "controlled tipping point" to trigger the switching on of the Control shaft, d. H. the movement of the selector shaft to switch on of contacts to use. According to the invention Switching shaft latched beyond the theoretical tipping point and the release takes place only via the movement of the Control panel, d. H. with progressive movement of the Control panel using one with the movement of the control panel coupled stop bar, at the desired time and the position of the key switch releases the release lever and allows the contacts to be switched on via the control shaft.

As a control panel in the sense of the invention, for example Rocker arm of the switching device, if this as a toggle switch is formed, or the control handle of a rotary drive be used.

With the invention, switching problems of the selector shaft and contacts from starting too early, d. H. premature Triggering of the tilt point of the lock spring prevented. Thereby, that the triggering of the tipping point of the lock spring after theoretical tipping point, the Leverage ratios with regard to the lock spring  applied forces improved, and thus the Engagement forces when the shift shaft is released to the To be able to perform the switch-on movement.

Furthermore, the invention enables the tipping point to Switching on the control shaft by coordinating the paths stabilize the shift gate with the release lever, d. H. to narrow it down to a narrow tolerance so that it depends on it Functions such as auxiliary switches, undervoltage releases can be interpreted more reliably.

The invention enables switching on by switching the transfer of the tipping point over the theoretical tipping point out backwards, d. H. the safe switching on of the contacts takes place later. In this way, the certainty that in particular leading auxiliary switches are switched on have to be switched before reaching the tipping point, because there is more time to switch on the auxiliary switches Available.

The invention therefore saves time by laying of the tipping point to the rear, which is both positive for the safe switching of auxiliary switches as well Undervoltage releases.

In the off position it has with for certain applications a leading auxiliary switch coupled Undervoltage release no voltage when switching on again the auxiliary switch is switched on first Undervoltage release receives voltage and then it becomes the mechanical lock released so that the Undervoltage release can switch. Since the Undervoltage release with armature and magnetic field must work there is enough time when the voltage is at Undervoltage release is present to build up a magnetic field until the contacts by means of the switching shaft of the key switch are closed to unlock the switch. Through the Moving the tipping point of the key switch to the rear  won so much time, with certainty that a Undervoltage release can build up a magnetic field and with Can unlock security.

Advantageous embodiments of the invention are the characteristic features of the subclaims.

In particular, it is provided that the release lever rotates around the fixed axis around which the support lever is pivotally mounted is arranged in the switch lock. Shifting gate, Support lever, release lever have approximately U-shaped shape and are thus easy to arrange and move against each other. The toggle also forms in the essentially connecting through the two levers Axis a U-shape, which included that of the shift gate Space can be used and is movable.

The latching surface between the release lever and selector shaft, which is the premature movement of the shift shaft and closing the Prevent contacts when switching on is preferred on a cam formed on the selector shaft by means of a radial direction protruding at least one stop lug trained with the at least one latching stop of the release lever cooperates.

For releasing the tipping point when the shifting gate moves In particular, it is provided that as a control panel Rocker arm holder serving rocker arm, the one with the shift gate is firmly connected, a stop bar is formed, which at Reach the desired release position for the movement the selector shaft to close the contacts on the Release lever strikes and takes this, which the Latch between release lever and selector shaft is released and the selector shaft will close the contacts with certainty can.

The invention is described below using an exemplary embodiment in the drawing explained in more detail. Show it  

Fig. 1 perspective view of the switching mechanism with lever holder is lifted,

Fig. 2 shows a schematic side view of the switch lock of Fig. 1 in the switched-on state

Fig. 3 schematic side view of the switching mechanism of FIG. 1 in the off state without a ratchet lever means,

Fig. 4 right side view B of Fig. 3,

Fig. 5 right side view A of Fig. 2,

FIGS. 6a-d are schematic illustration of the operation of the switching mechanism in the different switching positions of Off, theoretical tilting point, real and tilting point A,

Fig. 7a-c representation of the release lever in three views.

In Fig. 1, the switch lock 1 is shown as it is used as part of a circuit breaker in a mold housing, not shown. The switch lock is shown without the switching shaft carrying the movable contacts. The switch lock 1 consists of the two side lock plates 21 with which it is fixed in the mold housing, not shown. Furthermore, the switching mechanism 1 includes the switching link 11 , which is U-shaped and is pivotally mounted with the two U-legs in a bearing 27 of the lock plate 21 , and two toggle levers 19 , which are firmly connected to one another by means of the toggle lever axis 13 , which are helical Lock spring 12 and the latching device with pawl lever 23 , pawl spring 24 and pawl 25 and the release lever 16 with biasing spring 17 , see FIGS. 2 and 3, for the release of the control shaft, not shown.

As can be seen from FIGS. 1 to 5, the switching link 11 is essentially U-shaped with the two lateral legs 11 c and 11 b, which are pivotably mounted in the recess 27 of the lock plates 1 in the direction of arrow P1. Where the two limbs 11 c, 11 b connecting web of the shift gate 11 is formed above the 11 a rocker arm.

The U-shaped support lever 22 is arranged within the shifting link 11 and is pivotably supported with two lateral legs against the force of the lock spring 12 on two bearing rivets 29 attached to the inside of the lock plates 21 , which form a stationary axis 29 for pivoting the support lever 22 . The support lever 22 is moved by the shift gate from the triggered to the off position. The two same toggle levers 19 are firmly connected at one end to the toggle lever axis 13 and are kept at a distance. The lock spring engages in the middle of the toggle lever axis 13 , see bearing point 12 b, and with its other end, see bearing point 12 a, in the upper region of the shifting gate 11 . Against the force of the lock spring 12 , the toggle levers 19 are supported in the support lever 22 in the region of the bearing point 18 formed by a recess. In this way, the shifting gate 11 , the support lever 22 , the toggle lever 19 and the lock spring 12 form a simple effective toggle mechanism. In the overstretched state of the toggle mechanism, that is to say with the greatest expansion of the lock spring 12 in an intermediate position between the switched-off and the switched-on state of the switch lock 1 - theoretical tilt point - the points of contact of the toggle levers of the bearing points 18 of the support lever are in one plane with the points of application of the lock spring 12 on the shifting link 11 or the toggle lever axis 13 . The toggle levers 19, which are held at a distance by the toggle lever axis 13 , are guided laterally by a guide cam 33 formed on each of the lateral legs of the supporting lever 22 .

The pawl 25 is pivotally mounted laterally in the lock plates 21 . The pawl lever 23 is also pivotally mounted with lateral projections in recesses 26 in the lock plates 21 . The helical pawl spring 24 is suspended between pawl 25 and pawl lever 23 under slight tension.

The support lever 22 has in the middle an arm 22 a projecting from the U-shaped area, on which a locking surface 221 is formed, which is in operative connection with the latching device when the switch lock 1 is switched off and on. The latching device is described by way of example in DE 42 27 213 A1.

The switching shaft, not shown, which carries the contact arms with the movable contact pieces, is rotatably mounted on the housing of the circuit breaker and is guided through the bearing points 28 of the lock plates 21 .

The release lever 16 with a shape as shown in FIGS. 7a-c is also rotatably mounted on the bearing rivets forming the fixed axis 29 , which are attached to the inside of the lock plates 21 . The release lever 16 is also under slight bias of the bias spring 17 , which has, for example, the second abutment on the housing. On the side facing away from the biasing spring 17 , ie the side facing the selector shaft, the release lever 16 has the latching stops 161 .

The control panel of the shifting gate, namely the rocker arm 11 a is firmly connected to a rocker arm holder 10 . The rocker arm holder 10 has on its underside a stop web 10 a, with which it comes into operative connection with the release lever, ie with the stop projection 162 , in a certain position of the pivoting movement P1 of the switching link 11 .

The axis X of the lock spring 12 , determined by its bearing points 12 a, 12 b on the shift link or the toggle lever axis 13 changes its position depending on the position of the rocker arm 11 a, ie the position of the shift link.

The toggle lever axis 13 is guided in a bearing 30 which is formed on the selector shaft, not shown. This is a bearing track, ie the toggle lever axis 30 is mounted in a variable position and it moves with the movement of the shifting link in the curved track, as can also be seen from a comparison of FIGS. 2 and 3.

In FIGS. 7a-c is the release lever, as it is used in the example shown in Figs. 1 to 5 lock illustrated. The release lever 16 also has an essentially U-shaped shape with lateral legs 164 which, via a connecting web 162 which at the same time forms the stop web for establishing the operative connection with the stop web of the operating part, ie rocker arm holder.

In the side legs 164 of the release lever 16 , bores 160 are formed for placement on the bearing rivets 29 , that is to say the stationary axis 29 . On the longitudinal sides of the legs 164 , which point in the direction of the switching shaft when inserted into the switching lock or in the direction of the latching device, latching surfaces 161 are formed which abut and engage with corresponding locking surfaces or stop lugs which are formed on the switching shaft Lock the movement of the selector shaft.

In Figs. 6a-6d of the operating sequence of the switching mechanism is illustrated schematically with release lever and the contact system, said parts including the latching device support lever in question have been omitted from the consideration.

FIG. 6a shows the off position of the switch latch. The contact apparatus with the switching shaft 20 , the contact arms 71 , which support the movable contact pieces 70 and the stationary contact pieces 80 are shown. Two protruding cams 15 are formed on the selector shaft 20 , each of which is formed with a cam slot 14 , which forms the cam track for the toggle lever axis 13 guided therein. On one side of the circumference of the cams, the projecting stop lug 151 is formed, which comes into operative connection with the latching stops 161 of the release lever 16 . In the shown off position according to FIG. 6 a, the release lever 16 is not in operative contact with the selector shaft 20 under the pretension of the pretension spring 17 . The control panel, the rocker arm 11 a is now moved to turn on the contacts in the direction of arrow P2. Fig. 6b shows the position upon reaching the theoretical pivot point of the lock spring 12. In this position, the release lever 16 comes into operative connection with the selector shaft 20 in that the latching stop 161 abuts the stop lug 151 of the selector shaft and thus blocks movement of the selector shaft in the direction of arrow P3.

Fig. 6c now shows that when the shift gate 11 is moved further by the control panel 11 a, 10 in the direction of arrow P2 the theoretical tipping point according to Fig. 6b is exceeded and after a predetermined way according to the dimensioning of the release lever 16 and the stop lug 151 the release lever 16 releases from the catch with the stop lug 151 of the control shaft 20 and migrates in the direction of the arrow P. The emigration of the release lever 16 in the direction of arrow P is effected in that the stop bar 10 a on the underside of the rocker arm holder 10 of the operating part meets the stop bar 162 of the release lever 16 when the shifting gate 11 moves in the direction of arrow P2 and takes it along, thereby releasing the stop nose 151 at the other end of the release lever 16 in the area of the web 161 . After the release of the control shaft 20 , ie after the operative connection between the release lever 16 and the stop lug 151 has been released , the control shaft 20 can suddenly move in the direction of the arrow P3, see FIG. 6, under the action of the lock spring 12 and the contacts 70 , 80 close, with an increased contact pressure.

A comparison of FIGS. 6b and 6c shows that there is a difference between the theoretical tipping point and the controlled tipping point (position with respect to the axes X of the lock spring 12 ) and the difference in the distance between these two tipping point positions includes the shifting of the tipping point to the rear, as a result of which Security of switching the lock is increased. At the same time, by moving the tipping point to the rear through the locking by means of the release lever 16 at the time of the theoretical tipping point, sufficiently high forces always act on the contacts to close them with certainty, so that a safe switch-on position according to FIG. 6d is reached becomes.

Claims (4)

1.Switch lock for a low-voltage switching device, in particular a circuit breaker or a load break switch, with housing with a switching link pivotably mounted in the housing by means of an operating part for switching on and off, with two toggle levers connected to one another via an axis, which can be pivoted counter to the force of one Lock spring are mounted, the pivotable end of the toggle lever comprising the toggle lever is articulated to a rotatably mounted switching shaft in the housing, which is equipped with movable contact pieces, and wherein the lock spring is arranged between the switching link and toggle lever axis, characterized in that a Fixed axis ( 29 ) rotatable release lever ( 16 ) under the force of a biasing spring ( 17 ) is provided, which engages in the movement path of the selector shaft ( 20 ) by means of at least one latching stop ( 161 ) and the release of the movement ba hn by activating the release lever ( 16 ) by means of the control unit ( 11 a), such that when the switch-on process by means of the control unit ( 11 a) the movement of the control shaft ( 20 ) to close the contacts ( 70, 80 ) only after exceeding the theoretical Tilt point of the lock spring ( 12 ) is released. 2. Switch lock according to claim 1, characterized in that the release lever ( 16 ) rotatable about the fixed axis ( 29 ) around which a through the switching link ( 11 ) removable and with its free end ( 221 ) with a latching device ( 22 , 23rd , 24 ) cooperating support lever ( 22 ) is pivotally mounted, is arranged. 3. Switch lock according to one of claims 1 or 2, characterized in that on at least one on the switching shaft ( 20 ) molded cam ( 15 ) in the radial direction above a stop lug ( 151 ) is formed, which with the latching stop ( 161 ) of the release lever ( 16 ) interacts. 4. Switch lock according to one of claims 1 to 3, characterized in that the rocker arm ( 11 a) of the shift gate ( 11 ) with a rocker arm holder ( 10 ) is fixedly connected, which has a projecting stop web ( 10 a) on its underside, the when the desired release position of the movement path of the selector shaft ( 20 ) for closing the contacts ( 70 , 80 ) strikes the release lever ( 16 ) and takes it with it, whereby the latching between the release lever ( 16 ) and the selector shaft ( 20 ) is released.