WO2017125226A1 - Trigger mechanism for an electrical switching device, and adjustment method - Google Patents

Abstract

A trigger mechanism for an electrical switching device comprises a drivable trigger element (6). The first trigger element (6) is provided with a reset means (11) which extends between a first counter bearing (12, 12a, 12b, 12c, 12d) and a second counter bearing (16). The first counter bearing (12, 12a, 12b, 12c, 12d) has an adjustable stop end (14). To adjust the adjustable stop end (14), a spacer element (26) can be inserted into a joint gap.

Description

description

Tripping device for an electrical switching device and Einsteil experienced

The invention relates to a triggering device for an electrical switching device, comprising a drivable Auslöseele ^¬ ment, which is associated with a stored on a first abutment return means.

Such a triggering device is known for example from the utility model DE 29715900 Ul. There, a tripping ^¬ seeinrichtung is described, which has a drivable triggering element. A return means of the trigger element is mounted on an abutment. In order to set the response times of the local triggering device, it is provided to attach a balancing piece to the triggering element and thus to influence its inertia. Accordingly, in the known triggering device be ^¬ mass pieces by varying the balance-a variation of the position of the balancing mass pieces used, the response of the triggering device adjustable.

On the one hand there is the possibility to set a response time of the triggering device, on the other hand, a matching of response times of different triggering devices is relatively complex. In addition, it is feared, despite leveling compound pieces especially in length ^¬ rem operation and expected it wear or contamination of the triggering device changing the response time. Accordingly, it is an object of the invention to allow a simpler setting of the response time of a triggering device and thereby to improve the long-term performance of the triggering device. According to the invention, the object is achieved in a triggering device of the type mentioned above in that the first Ge ^¬ genlager has an adjustable stop. A triggering device may be used to control triggering of a drive device. A drive means, for example, to used a movement causing ^¬. For example, a drive device can be assigned to an electrical switching device in order to control a relative movement of switching contact pieces of a switching path of the

Switching device cause. Preferably, the drive device, an energy storage, such as a mechanical energy storage such as a spring, z. B. a hydraulic spring, a coil spring, a coil spring, a pneumatic spring or otherwise suitable energy storage device. In the energy storage, the energy necessary for one or more movements can be dispensed vomit ^¬ chert. For this purpose, the energy store is initially aufzula ^¬ the. In order to enable a targeted release of the cached energy from the energy storage, a

Tripping device can be used. Feature of a triggering device is that a larger, in particular significantly greater amount of drive energy released or triggered ^¬ who can as a necessary for the release or triggering control energy. For example, a triggering device can act on a transmission which, for example, in a state of instability, latches a charged energy store. For example, a spring may be tensioned and be prevented by means of a toggle lever arrangement spontaneous relaxation of the memory spring. The trigger device can actuate a latch (z. B. toggle) and cause a Release Certificates ^¬ or be a relaxation of the spring. For this purpose, the triggering device may have a triggering element, which

is drivable to perform a mechanical action or force on a pawl. The triggering element can be movable, for example, in the manner of a linear drive. Thus, the triggering element, for example, as the core of a Immersion coil trained drive winding act to cause a linear motion during energization of the plunger coil. A return means may be provided to move the trigger element back to a neutral position. The tripping element may be secured on the return means in a Neutralpositi ^¬ on, so that an unintended actuation of the lock (z. B. actuating a pawl) is excluded the energy store. When using an electrical energy storage, such as a capacitor, a battery, a battery or the like that can

Trigger element, for example, act on a switch assembly ^¬ and thus cause an electrical triggering of Energiespei ^¬ chers. In addition to a back up of the trigger element in a neutral position on the return means the return adjustment means can also ensure that the trigger element is moved back to a neutral position after a successful operation of the release element, for example after a Öff ^¬ nen a lock. For example, may be ^pre-¬ see that the return means is tensioned with a actuation of the trigger element and the introduced during clamping in the restoring element energy a rear parts of the trigger element supported / effected. The return means can for example, forces in a first counter-bearing ^¬ initiate, or be supported from / to a first counter bearing. The anvil can, for example, a bearing surface aufwei ^¬ sen, at which the restoring means is applied and against which the return means repels.

An equipment of the anvil with an adjustable stop makes it possible to vary the position of the stop or a contact surface of the stop and thereby adjust the type of initiation or the point of initiation of forces in the anvil. For example, the Gegenla ^¬ ger or the adjustable stop of the thrust bearing can be moved. Thus, for example, the transmission behavior of the return means can be influenced. For example, the restoring means can be subjected to a bias voltage. so that there is a minimum storage of energy in the return means. The return means can be imparted by an adjustment of the stop of the abutment a stiffer or softer characteristic. As a result, it is possible, while maintaining the return means or the triggering element to change or set the return behavior or the response of the triggering device. The first abutment can be made stationary or movable. An adjustment of the stop of the first counter-bearing can be made independently of a movability of the first counter-bearing. Next can through a

Adjustment of the stop the free mobility of the triggering ^¬ direction to be changed. An electrical switching device may have relative to each other bewegba ^¬ re switching contact pieces, wherein a relative movement of the switching contact pieces can be mutually caused by a drive means. By means of a triggering device, the drive device can be put into operation. Ie. a movement can be coupled from the drive device starting on the relatively movable Schaltkontaktstü ^¬ bridge. As electrical switching device are suitable, for example, circuit breakers, disconnectors, earthing switches or other switching devices which relative to each other have movable switch contact pieces. In particular, on circuit breakers, the switching contact pieces comparatively ^¬ must be moved quickly relative to each other to control switching arcs, the triggering device according to the invention can be arranged.

The electrical switching device may preferably be a fluid-insulated electrical switching device, ie for electrically insulating the switching contact piece or other phase conductors is an electrically insulating fluid used in gas or liquid form. Preferably, the electrically insulating fluid can be arranged within a housing, preferably within an encapsulating housing, in order to prevent an undesired Volatile to prevent the electrically insulating fluid. The use of an encapsulating allows ^¬ over it from, the electrically insulating fluid under pressure to set ^¬ zen, so that the insulating properties of the electrically insulating state fluid are additionally reinforced. Accordingly, the capsule housing may be designed in the manner of a hermetically ge ^¬ closed pressure vessel. Suitable electrically insulating fluids are, for example, fluorine-containing compounds such as sulfur hexafluoride, fluoroketones or fluoronitriles. Furthermore, however, nitrogen, carbon dioxide, purified atmospheric air kom ^¬ men etc. can be used.

A further advantageous embodiment may provide that the first abutment is connected to a second abutment via the return means.

The return means may connect a first abutment with a second abutment each other. The return means can be clamped between the counter bearings, for example, so that a release of the return means from the counter bearings is prevented. For example, the counter-bearing ^¬ an axial movability of the return means can begren ^¬ zen. Accordingly, the counter-bearing in the axial direction can abstandet sawn from one another, wherein a Relativbe ^¬ movement of the return means preferably can ^¬ SUC gene in the axial direction. By using an adjustable stop, the free path between the first and the second abutment can be made variable. For example, such a variable bias can be impressed on a return means.

A further advantageous embodiment may provide that the two abutments are mounted movable relative to each other. A movable mounting of the abutment relative to one another makes it possible, in addition to the adjustment possibility on the first abutment, to effect a tensioning or loading or relaxing or relieving the restoring means by a relative movement of the abutment. Accordingly, a movement, which is necessary for setting the stop on the first abutment, preferably be superimposed by a movement of the first and the second abutment relative to each other. Preferably, the movement for adjusting the stop on the first abutment can be made in alignment, in particular coaxially to the relative movement between the first and second abutment. It can be provided that both abutments are designed to be movable. However, it can also be provided that only the first or the second counter-bearing are movable, wherein the other counter-bearing is arranged fixed ^¬ . An equipment of the first abutment with a ^¬ stellbarem stop can be provided both on a fixedly positioned abutment and on a movably mounted abutment. In addition, it can also be provided, regardless of the configuration of the first and second thrust bearing in addition to equipping the first thrust bearing with an adjustable stop and equip the second thrust bearing with an adjustable stop. As a result, the adjustment option is additionally increased.

A further advantageous embodiment can provide that the return means has an elastically deformable portion. A return means with elastic portion is example ^¬ a spring. A spring can be constructed in various ways. It may, for example, a gas spring, ei ^¬ ne mechanical spring, a tension spring, a compression spring, a diaphragm spring, etc. act. Preferably, the spring action or elasticity of the return means should be such be rich ^¬ tet, that this at a relative mobility of the first and second thrust bearing in alignment in the direction of Relativbewe- effect acts. It can thereby be provided that the return means can reverse a relative movement of the two counter bearings to one another, for example. During a movement of the triggering element, the elastically deformable section can be placed under tension or under additional tension and relaxed or partially relaxed during a return movement. A further advantageous embodiment may provide that the adjustable stop is supported on a movable base element of the first abutment.

A movable stop can be positioned relative to a base element of the first counter bearing. The So ^¬ ckelelement is the part of an abutment, which receives forces that are introduced into the counter bearing, and forwards to a support element. The support member may for example be stationary, so that the first abutment is made stationary. However, the support member may also be formed be ^¬ wegbar, so that the first counter bearing is Beweg ^¬ bar. As a supporting element, for example, serve a drivable triggering element of the triggering device. In this case, the first counter bearing is movable together with the drivable release element, wherein additionally the adjustable An ^¬ impact is movable relative to the base element. The base ^¬ element is relatively stationary also positioned to a movable support member. Thus, the base element can store stationary relative to the trigger element and additionally a movement of the adjustable stop relative to the base element and thus be made relative to the drivable trigger element. The subdivision of the first abutment in a base element and a stop further has the advantage that in a simple manner various adjustment of the adjustable abutment of the first abutment ^{vorgenom ¬} men can be. A restoring element can be set, for example, un ^¬ ter voltage, or at a relaxing a Returning means, a driving force to the first Ge ^¬ genlager to achieve a relative movement, in particular between a first abutment and a second abutment are caused.

A further advantageous embodiment may provide that the adjustable stop is adjusted by introducing a Distanzele ^¬ Mentes. A spacer makes it possible to keep a distance to überbrü ^¬ CKEN or the adjustable stop in a defined position. A spacer element is thus a possibility ^¬ adjust the stop on the first abutment. The spacer element can be in or on the first abutment on or attached, whereby the adjustable stop of the first abutment is adjustable. The spacer element can itself form the stop, but it can also be provided ^¬ see that the spacer element only a Beabstan- tion of an adjustable stop, for example, to a base element causes. The spacer can be constructed ver ^{¬ like} manner, for example, by means of a spacer element wedging, screwing or driving apart by means of threads or the like can be made. It can also be provided that verschiedenar- tig-sized base elements which are interchanged from ^¬, are used to adjust a stop. The stop can be formed by the base element itself. The spacer element can be secured by a force originating from a return element.

An advantageous embodiment may provide that the spacer element is inserted into a joint gap.

Inserting a spacer element into a joint gap ER- it enables to USAGE structurally simple spacer elements ^¬, wherein the the joining gap confining elements ^¬ example, a base member and an adjustable stop square can be designed litativ quality than the spacing element itself. A joint gap can for example also Zvi ^¬ rule be located a reset means and the first end support. The spacer element can thus be inserted into the joint gap. The spacer may, for example, also have the adjustable stop. The stop can be a ^¬ adjustable, for example by replacing the spacer element. The spacer element can be brought a ^¬ into the joint gap and keep the joint gap limiting elements in a defined position relative to each other. For example, the joint gap can be first widened to then introduce the spacer. For example, the spacer element can be secured in the joint gap by the return means in its position in the joint gap. A frictional securing of the spacer element in the joint gap can be provided. Preferably, the adhesion can be caused by the return means. Furthermore, the spacer element can also be held in a form-fitting manner within the joint gap.

A further advantageous embodiment may provide that the spacing element is substantially transverse to the direction of effected by the restoring means restoring force is ^¬ introduced.

The return means can, for example, develop a force effect in an axial direction. The axis may extend between the first and the second abutment. Now, if the spacer element is introduced substantially transversely to the effective direction, so can in a simple manner

Force fit to act on the spacer element and as a backup of the same are made to the first abutment.

A further advantageous embodiment may provide that the spacer element is self-locking. A fuse may for example be seen easily by means of spring force ^¬ to prevent removal of the spacer from the first counter bearing. For example, the spacer element may be associated with a spring force generating securing element, which counteracts a moving out or a release of the spacer element from the first abutment. It can be provided that the spacer element itself is designed as a resilient spacer element. In ^¬ example, the spacer element can be designed in the manner of an elastic see clasp or splint, which (r) is inserted into ei ^¬ nen joint gap and widens the joint gap due to its physical extent. In this case, the spacer element may for example be formed as a spreading spring, wherein a spreading follows ER- for example, on the trigger element and further comprises a backup of the spacer element on ers ^¬ th counter bearing is possible.

A further embodiment may provide that the spacer element is arranged on the first abutment between a base element and the adjustable stop.

The first abutment may have a base element, on which a stop is supported and beab ^¬ tandet relative to this. The stop, for example, can be pressed against the base element in a spring-loaded manner, whereby a joint gap is formed between the base element and the stationary stop. This joint gap is suitable for ^{receiving a spacer} element. For example, the joint gap can be widened before insertion of the spacer element, in order then to be able to receive the spacer element. The spacer element may preferably be designed in the manner of a resiliently deformable during a mounting clip or clamp, so that disassembly of the first abutment is not necessary and secure storage of the spacer element is possible. An elastic deformability should be provided substantially in a transverse direction to the spacing of adjustable stop and base element. Preferred should be in Direction of spacing a rigid version of the spacer element present.

The spacer element may be formed, for example, in the manner of a spring-elastic clip, depending on the dimension of the elastic clip can be provided a more or less large distancing of base element and ortsveränderlichem stop. The spacer element can beispielswei ^¬ se be designed in the manner of a leaf spring, wherein a blade width (determined spacing of stop and base ^¬ element) is the distancing behavior of the spacer element be ^¬ true.

Another object of the invention is to provide a Einstellver- drive for adjusting a response of a Auslö ^¬ seeinrichtung for an electrical switching device, is mounted at a first end support comprising a drivable trigger member and a return means wel ^¬ ches provide. Known adjustment methods prove to be complex and time-consuming.

The task is to enable a simplified setting of a tripping ^¬ device. According to the invention this is achieved in a setting method of the above type in that in a joint gap of the first abutment, a spacer element is used.

The use of a spacer element and insertion of the same into a joint gap makes it possible to widen the joint gap or to vary the width of the joint gap.

By using different spacer elements of the joint gap may have different dimensions. This makes it possible to produce a triggering device in a basic configuration and to adjust the response behavior of the triggering device merely by means of simple spacer elements. A further advantageous embodiment can provide that is driven apart by the spacer element of the joint gap.

A driving apart of the joint gap by means of the spacer element allows a power transmission via the spacer element by the apart-driven joint gap. Thus, the first abutment is equipped with an adjustable stop, wherein a response is adjusted by biasing or adjusting the resilience of the return means.

A further advantageous embodiment can provide that before joining the spacer element of the joint gap is gewei ^¬ tet.

A widening of the joint gap can for example be made by means of ei ^¬ nes tool. So z. B. a wedge are used to widen the joint gap, wherein in the so-widened joint gap, the spacer element can be set almost force ^{¬ a} . After the insertion of the spacer element, the width of the joint gap can be traced back to who ^¬ . The joint gap assumes a selectable dimension depending on the selected spacer element.

In the following, an embodiment of the invention is sche ^¬ matically shown in a drawing and described in more detail below. It shows the

1 shows a section through a triggering device with a first abutment in a first variant, Figure 2 is a perspective view of the tripping device known from Figure 1 with a first abutment in a second variant, the a perspective view of the known from the Figure 1 triggering device with a first abutment in a third variant, which is a perspective view of the Auslöseeinrich ^¬ device as known from Figure 1 with a first abutment in a fourth variant, the device as a perspective view of a Auslöseeinrich known from Figure 1 with a first abutment in a fifth variant, the known from the Figure 1 triggering device with the first abutment of the first variant in per vesive view along with spacer element, which is known from Figure 6 representation of a triggering device with the first abutment in first variant with inserted spacer element, the

FIG. 8 shows the spacer element known from FIG

 unobstructed state in frontal view and the

FIG. 9 shows the spacer element known from FIG

installed state in frontal view. The triggering device shown in FIG. 1 has a main body 1. The main body 1 is substantially cuboid (see also Figures 2-6), wherein the base body 1 is completely penetrated by a first end face 2 to a second end face 3 of a recess 4. In the present case, the recess 4 has a substantially circular cross-section. At the first end face 2, the mouth opening of the recess 4 in a collar 5 is attached. assigns. The collar 5 is formed substantially hollow cylindrical and arranged centrally in the first end face 2. The collar 5 acts as Wegbegrenzer for a recess 4 penetrating drivable trigger element 6. The drivable release element 6 is substantially complementary to the shape

Cross-section of the recess 4 is formed, so that the Auslö ^¬ seelement 6, the recess 4 passing through along a main ^¬ axis 7 is displaceable. Within the body 1, a drive winding 8 is mechanically protected by the base ^¬ body 1 is arranged. The drive winding 8 is presently designed in the form of a plunger coil, the windings of the recess 4 are aligned encompassing. For energizing the drive winding 8 connection lines 9 are connected to a connector 10 which is fixed to the base body 10. About the connector 10, the drive coil 8 can be acted upon by an electric current. The drive winding 8 acts in the present case as a plunger coil, wherein the triggering element 6 acts as a plunger of the plunger coil. In order to effect an easy control of the release ^¬ element 6 and an effective driving thereof by the drive winding to obtain 8, the trigger element 6 is partially det of an electrically insulating material and partly of a ferromagnetic material gebil- so that a pull-in the ferro-magnetic portion and thus the triggering element 6 can be made in the drive winding 8 in. The ferromagnetic part of the triggering element 6 is thereby pulled into the drive winding 8, whereby a movement of the triggering element 6 in the direction of the main axis 7 within the recess 4 is achieved. The electrically insulating portion serves We ^¬ sentlichen a guide of the release element 6, as well as a transmission of a driving force to a latch. In order to bring about a return of a pulled into the drive coil 8 triggering element 6, a return means 11 is used in the form of a helical spring. The return means 11 has a substantially hollow-cylindrical envelope contour, which surrounds the trigger element 6, wherein the cross section of the envelope contour is dimensioned such that the return means 11 surrounds the collar 5 and, on the one hand, bears against the first end face 2. On the other hand, the opposite end of the return means 11 bears against a first abutment 12. The first counter-bearing 12 is shown in Figure 1 in a first variant. The first abutment 12 is formed by a first disc 13 and a second disc 14. A bolt ^¬ head 15 supports the first abutment 12. The bolt head 15, for example, be screwed ^¬ a front side in the trigger element 6 ^¬ . Thus, the free mobility of the axially displaceable on the trigger element itself is arranged

Slices 13, 14 limited. The first abutment 12 has a stop, which is formed here by the second disc 14, and a base element, formed by the first Schei ^¬ be 13 and the bolt head 15, on. The trigger element 6 serves as a movable support member for the first abutment 12. A second abutment 16 is gege ^¬ ben through the first end face 2. Between the first abutment 12 and second abutment 16, the return means 11. The return extends ^¬ adjustment means 11 connects the two counter bearings 12, 16th

In order to effect a compression of the (biased) return means 11, a further limiting element 17 is arranged at the end of the triggering element 6, which protrudes on the second end face 3 of the main body 1. The further limiting element 17 provides a pre-compression of the return means 11 by drying the displaceability of the trigger ^¬ element 6 in the direction of the major axis 7 at the Mündungsöff- the recess 4 is defined in the first end page 2. Accordingly, the return means 11 is supported between the first abutment 12 and second abutment 16, and is pre-compressed and stabilized (secures) the Auslöseele ^¬ element 6 in a neutral position, as shown in FIG. 1

By way of example, the release mechanism in FIG. 1 is assigned a latch 18 by means of which a drive unit is engaged. direction 19 can be controlled. The drive device 19 has an energy store 20 in the form of a drive spring, which can bring about a movement of a drive rod 21. The drive rod 21 in turn is connected to a movable switching contact piece 22, which bridges a stationary contact ^¬ pair 23 in the on state, as shown in the figure 1. The movable switching contact piece 22 or the stationary contact pair 23 is for example part of a circuit breaker, a circuit breaker, a grounding switch or other electrical switching device, which has relatively movable switching contact pieces. FIG. 1 shows the switch-on state. The memory spring 20 is tensioned and stores energy wel ^¬ che for driving, that is, supply of the moving contact piece 22 serves the electrical switching device for causing Ausschaltbewe-. In order to effect a release of the stored energy in the Speicherfe ^¬ 20, a pawl lever 24 is to pivot, which in turn engages in a case 25 on the drive rod 21.

FIG. 1 shows the switch-on state of an electrical switching device. The accumulator spring 20 of the drive device 19 is tensioned. The latch lever 24 is blocked in a ge ^¬ stressed accumulator spring 20, the case 25 and prevents relaxation of the loaded spring 20. In the figure 1 the switching state of the electrical switching device is presented. To trigger a switching movement, the drive winding 8 is now to be energized, whereby the drivable Auslöseele ^¬ element 6 and its ferromagnetic section is drawn into the drive winding 8 and in the direction of the pawl lever 24 moves © is. The trigger element 6 actuates the latch lever 24, wherein this pivots ©. As a result of the swiveling, the latch lever 24 releases the latch 25 and the latch 25 together with the drive rod 21 is moved by the now no longer blocked storage spring 20 ®. About the

Drive rod 21, the movement of the memory spring 20 is transmitted to the movable switching contact piece 22. The electrical see current path of the electrical switching device is interrupted in consequence.

In the figure 1 is highly schematic an electrical

Switching device and a triggering of a switching movement in an electrical switching device shown. As described above, the electrical switching device may have various types Ausgestal ^¬ lines. Thus, the electrical switching device in ^¬ example, have a plurality of switching poles, which can trigger a switching movement synchronized with each other. For example, it can be provided that the switching contact pieces of ^different switching poles, for example, have to trigger each other at the same time or in a certain time staggering. Furthermore, 18 different forces can be used by the. To trigger a variety of embodiments of Verklinkungen

Be applied triggering device. Accordingly, it is advantageous to watch an adjustment possibility of the triggering device before ^¬ . In the present case, the first counter-bearing 12 is moved with a movement of the triggering element 6 with this. The first counter ^¬ bearing 12 is equipped with an adjustable stop 14. Alternatively or in addition, can also be provided, for example, that the second counter bearing 16 or the further limiting element 17, which can act as a counter bearing also comprises an adjustable stop so that when ^¬ a bias of the return means 11 may be varied play. Depending on the bias of the return means 11 may be provided a faster or slower response of the triggering device.

Other ways of forming a first abutment 12 with adjustable stop are shown in Figures 2 to 5.

The triggering device shown in Figure 2 corresponds in principle to the sectional view of Figure 1. Merely the first thrust bearing 12a is ^¬ leads in a second variant. Here, the use of a one-piece disk is proposed as a spacer element 26, wherein interchangeability of the disk is proposed for setting the first stop. The bolt head 15 serves as a base element, where ^¬ with the spacer element 26 in a joining gap between

Sockelement and return means 11 is inserted.

In the figure 3, a first counter bearing is shown in a third variation, 12b with an enlarged axial extent of the spacer element 26 in the direction of the major axis is vorgese ^¬ hen here compared to the second variant of the first thrust bearing 12a. 7 In the figure 4 a fourth variant of a first Gegenla ^¬ gers 12c is shown. Here now a further enlarged extension of the spacer element 26 is selected in the direction of the main axis 7. By exchanging the various spacer elements 26 of the second, third and fourth variants, a pre-compression and thus the response of the return means 11 can be changed. For this purpose, only the bolt head 15 is to be loosened, wherein the respective spacer element 26 is removed and exchanged against another spacer element 26. Characterized a first abutment 12a, 12b, 12c is formed, which has ei ^¬ NEN adjustable stop.

In the figure 5 is shown that an equipment of the trigger element is provided with an outer threaded ^¬ de 6 is provided for setting an arrival shock of the first anvil 12d in a fifth variant, so as to position a first nut and a second nut axially displaceable by means of rotation , As a result, the first counter-bearing 12b is equipped in the fifth variant with an axially displaceable stop which is supported on the base element, wherein stop and base element secure each other in their position on the external thread and are axially adjustable on the trigger element. This is an adjustable stop on the first abutment 12 b formed in the fifth variant. FIG. 6 shows a perspective view of the trigger device known from FIG. 1, the first counter-bearing 12 in the first variant, as shown in section in FIG. 1, being shown in perspective here. FIG. 6 also shows a spacer element 26. The spacer element 26 is presently designed in the form of a bow spring, which is formed from a strip material. Optionally ^¬ example may vary in the direction of the main axis 7 26, the band thickness and the extension of the spacer element. An end view of the spacer element 26 in an unobstructed and verbautem state Darge ^¬ represents in FIGS. 8 and 9 In order to adjust the adjustable stop of the first abutment 12 in the first variant, the first Schei ^¬ be and the second disc 13, 14 at its joint gap vonei ^¬ nander to remove. This can be removed, for example, by means of a tool. Such a tool can be ^¬ example, a wedge. In the extended joint gap between the first and the second disc 13, 14 is now transversely to the direction of the main axis 7, the spacer 26 einführ ^¬ bar. The spacer 26 limits a reduction of the joint gap between the first disc 13 and the second

This reduces the free path length between the first abutment 12 in the first variant and the second abutment 16 (cf., FIG. 7), as a result of which the restoring element 11 is prestressed. If necessary, the axial dimension of the spacer element 26 can be varied, whereby the bias of the return means 11 is variable. Advantageous in the use of a spacer element 26 made of a spring-elastic ^¬ material, for example in bow shape, a ver ^¬ simple introduction of the spacer element 26 under spreading of the strap ends in a touchdown on the trigger element 6 and an automatic securing due to the spring forces of the shape of the spacer element 26th on the trigger element 6. In FIG. 7, the spacer element 26 is inserted into the joint gap between the first disk 13 and the second disk 14. In addition to a use of a resilient spacer element 26 and other spacers can find Ver ^¬ turn. Thus, for example, U-shaped Pro ^¬ file can be used, which can be used on the trigger element 6 in a joint gap of the first abutment 12. FIG. 8 shows the spacer element 26, as known from FIGS. 6 and 7, in the uninstalled state. The free ends of the bow-shaped spacer element 26 are elastically pressed against one another resiliently ge ^¬, wherein the strap opening is minimized. FIG. 9 shows the installed state of the spacer element 26 as known from FIG. The free ends of the bracket of the spacer element 26 are now spread apart due to the transverse ^¬ extension of the trigger element 6, so that a spring-loaded seating of the spacer element 26 is present on the trigger element 6. In addition, the shape ^¬ tion of the bracket is chosen such that a complementary shape seat is given on the trigger element 6. Advantage of the configuration of a first abutment 12 in the first variant is that disassembly of the first abutment 12 need not be made for an adjustment of an adjustable stop. If necessary, various types of spacer ^elements 26 can be clamped in the joint gap between the second disk 14 acting as an adjustable stop and the first disk 13 or the bolt head 15 serving as the base element. Thus, a pre-assembly of tripping devices take place and, if necessary, an insertion of various spacers 26 take place. Only a wedging of a joint gap between the adjustable stop and the base element is necessary in order to position a spacer element 26.

Claims

claims

1. triggering device for an electrical switching device, pointing to ^¬ a drivable release element (6), which is assigned to a first abutment (12, 12a, 12b, 12c, 12d) restoring means (11),

The first abutment (12, 12a, 12b, 12c, 12d) is, for example, one of the first abutments

having adjustable stop (14).

2. triggering device according to claim 1,

characterized in that the first abutment (12, 12a, 12b, 12c, 12d) with a two ^¬ th counter bearing (16) via the return means (11) is connected.

3. triggering device according to claim 1 or claim 2, d a d u r c h e c e n e z e c h e n e, t a s s the two abutments (12, 12 a, 12 b, 12 c, 12 d, 16) are movably mounted relative to each other.

4. triggering device according to one of claims 1 to 3, d a d u r c h e k e n e z e n e c e s e, that s the restoring means (11) has an elastically deformable portion.

5. Triggering device according to one of claims 1 to 4, d a d u r c h e c e n e c e s e s, the s anis the adjustable stop (13) on a movable base element (13) of the first abutment (12, 12 a, 12 b, 12 c, 12 d) is supported.

6. triggering device according to claim 1 to claim 5,

characterized in that the adjustable stop (13) by inserting a Dis ^¬ dance element (26) is set.

7. triggering device according to claim 6,

The spacer element (26) is used in a joint gap.

8. Tripping device according to one of claims 6 or 7, d a d u r c h e c e n e c e n e s, the d a s s the spacer element (26) substantially transversely to the direction of action of the restoring means (11) effected restoring force is introduced.

9. Tripping device according to one of claims 6 to 8, d a d u r c h e k e n e c e s e s, e e s the spacer element (26) is self-locking.

10. triggering device according to claim 6 to claim 9, characterized in that the spacer element (26) on the first abutment (12, 12a, 12b, 12c, 12d) between a base element (13, 15) and the adjustable stop (14) is arranged ,

11. A setting method for setting a response of a triggering device for an electrical switching device comprising a drivable triggering element (6) and a return means (11) which is mounted on a first counter-bearing (12, 12a, 12b, 12c, 12d),

d a d u r c h g e k e n e z e i n h, d a s s in a joint gap of the first abutment (12, 12 a, 12 b, 12 c,

12d) a spacer element (26) is used.

12. Setting method for adjustment according to claim 11, characterized in that by the spacer element (26) of the joint gap is driven apart ge ^¬ .

13. A adjustment method according to one of claims 11 or 12,

characterized in that before insertion of the spacer element (26) of the joint gap is widened.