EP2437354A1 - Low voltage switching device with a connection clamp assembly - Google Patents

Abstract

The switchgear has a support element upwardly extended in a terminal connection space (18) from height of an upper edge of a connecting leg (222) with a bearing surface (401) in a direction of a connecting bar (112), where the bearing surface is bent toward a leg (224). The contact surface forms a stopper for a tip of a free end (15) of a conductor (14), where the stopper is initiated when force works against clamping force of a clamping spring (12). The contact surface secures a leading compression joint of the free end against a clamping lead frame (10).

Description

The invention relates to a low-voltage switching device, such as a circuit breaker, a residual current circuit breaker, a circuit breaker, a contactor, or a. A motor protection switch, which has a plug-in clamping device arranged in a housing, wherein the plug-in clamping device has at least one terminal connection frame and a clamping spring element with a clamping leg, and wherein a terminal connection frame is formed by a first leg, which is conductively connected via a connecting leg with a Ableitschenkel, wherein a terminal connection space is provided between the three legs, and wherein between the first leg and the Ableitschenkel having a clamping portion, a connection bar, which leaves a passage for receiving a free end of a connecting conductor, and wherein at the connecting web, the clamping spring element is arranged so that a clamping force for conductive clamping connection of the end can be provided by the clamping leg on the received in the passage free end of the connecting conductor, according to the preamble of claim 1.

Installation switching devices such as circuit breakers, residual current circuit breakers or motor protection switches are known from the prior art: Such devices are approximately in the writings DE 10 2006 047 254 B3 . DE 10 2007 043 801 A1 and DE 10 2007 044 069 A1 disclosed.

A circuit breaker, for example, comprises within its housing at least one contact point with at least one fixed and one movable contact piece, via which a current path can be opened and closed from an input terminal to an output terminal. The contact point is generally operated by a switching mechanism with Verklinkungsstelle. A circuit breaker may further comprise tripping devices, such as a thermal trip or a magnetic trip, which act on the contact point or the derailleur when a short circuit or fault current occurs in the current path, so that the contact point is opened.

For connection with external connection conductors, screw-type terminal connections are used in addition to screw terminals in generic service switching devices. Clamping elements can be plug-in terminals or spring-loaded terminals. In principle, these can greatly simplify the connection of connection conductors, but today known installation switching devices with screwless terminal connections are still subject to use restrictions.

Screwless terminal connections are designed with a terminal connection frame in such a way that tool-free insertion and removal of connecting leads is possible. This is accomplished by having the plug-in terminals located in the device housing of insulating material within a frame having a spring element which presses against a conductor inserted through a housing opening, the conductor coming to rest on a conductor support connected to the current path of the device , The current, in particular an overcurrent or short-circuit current should not be dissipated via the spring element, which usually consists of spring steel and therefore has a low electrical conductivity, but should always flow over the terminal connection frame or over the conductor support, which therefore forms part of the frame is or is connected to it. The frame therefore forms in cooperation with the spring element, the contacting and holding device of the inserted portion of the conductor.

Under unfavorable circumstances, for example, by pulling or bending the conductor to the action of a force acting from the outside on the inserted conductor force can come, which can lead to an at least partial lifting of the conductor end of the conductor support of the frame. It then comes in this case to longer lasting or undesirable high current flow over the poorly conductive spring element, because the contact with the conductor support was interrupted. This can be the high-resistance spring element undesirably heat strong, which can lead to negative effects on the service switching device. The heating can in extreme cases lead to flame formation.

It is therefore an object of the present invention to provide a generic service switching device with a Steckklemmvorrichtung such that the safety of the device is considerably increased in terms of overheating in the event of lifting the conductor of the conductor support due to an external force on the conductor.

This object is achieved by a lnstallationsschaltgerät with the features of claim 1.

Further developments of the device are set forth in the subclaims.

An embodiment of a plug-in terminal installation switchgear according to the invention comprises at least one terminal connection frame in a housing, and a spring spring clamping element which therefore has a low electrical conductivity. The clamping spring element has at least one clamping leg. The terminal connection frame is in principle formed by three legs: a first leg is conductively connected via a connecting leg with a Ableitschenkel having a clamping portion, that between the three legs, a terminal connection space is formed. Between the first leg and the Ableitschenkel also extends a connecting web for the clamping spring element, which is designed so that it leaves a passage free, which may also be formed like a window in a flat connecting web. Through the passage, the free, stripped end for clamping determination of the intended connection conductor is feasible. It is now usually clamped in the passage by means of the arranged on the connecting web clamping spring element, since the clamping leg is oriented so that its spring or clamping force presses the connection conductor against the conductor support or clamping edge.

Now it is possible that from the outside a force is applied against the conductor, which acts against the clamping force of the clamping spring element and thus can cause the conductor no longer rests on the clamping edge. It can come to a lifting of the conductor end of the conductor support. The conductor end can move without encountering additional metallic supports. These additional requirements will be reached only with very strong twists or deformations of the conductor. In the intermediate position, the current flows from the conductor into the device only via the spring element, which as a rule is only poorly electrically conductive and heats up considerably. This warming can go so far that it comes to the formation of flames and fire danger exists.

This is advantageously counteracted by the inventive installation switching device, respectively by the design of the Steckklemmvorrichtung by a support element is formed by a height of an upper edge of the connecting leg with a tilted in the direction of the first long leg contact surface upwardly projecting in the terminal connection space. The contact surface, which is formed by the support element, thereby creates a stop for the tip of the free end of the conductor. This is advantageously achieved that the conductor can not avoid further by the stop formed and is stabilized when the conductor is lifted by external force, such as awkward arrangement in the cabinet or by attaching a cable tie, from the conductor support or clamping edge and the contact loses. While in non-inventive embodiments, the conductor then presses on the clamping spring with the above disadvantageous consequence of heating, which can happen because the conductor end is not completely fixed in conventional Steckklemmkonstruktionen, according to the invention prevents the unwanted incorrect positioning by the support and it is by the Supporting element, which extends from the base of the terminal upwards, counteracted the lifting of the conductor at the clamping edge.

In particularly advantageous embodiments of the invention, the support element is made of a material with a good conductivity, which should be anyhow better than the conductivity of the clamping spring, and it is connected to the frame. In this case, not only a stop and thereby a fixing aid for the conductor element is formed by the support element, but it is additionally created a secure second contact point in addition to the clamping surface forming the conductor support. As a result, a low-resistance clamping of the conductor is achieved and a heating, which can lead to the formation of flame, prevented.

By an inventively suitably positioned slope on the terminal base, which presses the conductor end against the conductor support, thus, even with external force a lifting of the conductor from the conductor support can be prevented. If this fixation of the conductor end made of metallic highly conductive material, for example as part of the frame, so that a secure second contact point is formed next to the conductor support. As a result, a low-impedance clamping of the conductor is achieved and prevented from forming flames.

For the formation of the support element, various advantageous embodiments are possible. An embodiment of the support element may provide that this is formed as a diagonally extending in the direction of the long leg directly from the upper edge of the connecting leg in the terminal space extending web.

The configuration with the oblique web is particularly advantageous because the slope forms a stop for conductors of different diameters, so that the Steckklemmvorrichtung can be used for different conductor thicknesses versatile.

The web made according to this embodiment extends as a kind of truncated element of the connecting leg upwards. It could be soldered in the event that the clamping frame material is metal. If the clamping frame is designed as a stamped and bent part, the web can be punched in the manufacture of the clamping frame with and bent up to oblique. The production is then particularly simple.

Alternatively, such an obliquely upwardly extending web can also be formed by forming the connecting leg from two or more parallel sections, at an appropriate position one of the sections being upwardly bent, bent or otherwise formed.

In yet another embodiment, the support member may be formed by a portion of the connecting leg of the terminal connection frame that bulges into the terminal connection space and is similar to a well-shaped dent that may extend across the entire width of the terminal connection frame. At least, however, the concavity must be provided at the position at which an inserted conductor could come into structural contact when lifted from the clamping edge. The concavity can in turn very cheaply produced in the course of stamping during the production of the terminal connection frame become.

A still further embodiment provides that the support element is formed on an inner side of the housing itself as a non-conductive elevation, which projects into the terminal space and extends quasi into the frame plane.

Reference to the drawings, in which an embodiment of the invention is shown, the invention and further advantageous refinements and improvements of the invention will be explained and described in detail.

Fig. 1

eine Seitenansicht in den Klemmenaufnahmeraum eines Installationsschaltgeräts nach dem Stand der Technik,

Fig. 2

eine Seitenansicht in den Klemmenaufnahmeraum eines erfindungsgemäßen Installationsschaltgeräts mit einem als Steg ausgebildeten Abstützelement in der Steckklemmvorrichtung,

Fig. 3

eine Seitenansicht in den Klemmenaufnahmeraum eines erfindungsgemäßen Installationsschaltgeräts mit einem als Steg ausgebildeten Abstützelement in der Steckklemmvorrichtung,

Fig. 4

eine Seitenansicht in den Klemmenaufnahmeraum eines erfindungsgemäßen Installationsschaltgeräts mit einem durch die Gehäusewandung ausgebildeten Abstützelement,

Fig. 5

eine Seitenansicht in den Klemmenaufnahmeraum eines erfindungsgemäßen Installationsschaltgeräts mit Steckklemmvorrichtung mit einem als Wölbung durch den Klemmrahmen ausgebildeten Abstützelement.

Show it:

Fig. 1

a side view into the terminal receiving space of a service switching device according to the prior art,

Fig. 2

a side view into the terminal receiving space of a service switching device according to the invention with a web-formed support member in the Steckklemmvorrichtung,

Fig. 3

a side view into the terminal receiving space of a service switching device according to the invention with a web-formed support member in the Steckklemmvorrichtung,

Fig. 4

a side view into the terminal receiving space of a service switching device according to the invention with a formed by the housing wall support member,

Fig. 5

a side view into the terminal receiving space of a service switching device according to the invention with plug-in device with a formed as a curvature by the clamping frame support member.

Fig. 1 shows a partial sectional view of the Klemmanschlussrahmenraumes 18 of a service switching device with a Steckklemmvorrichtung according to the prior art. The plug-in terminal device shown there comprises an insulating material housing 3 of the shell type. In such an embodiment, the housing 3 is composed of two housing half-shells, which are assembled along a circumferential joint line and interconnected in the assembled state, for example by riveting, but also by screwing, gluing, welding, etc. The joint line runs in a plane parallel to the flat or flat sides of the Housing. Such housing generic installation switching devices are usually made of plastic injection molded parts, which lends itself to the aforementioned construction.

However, the invention is not limited to installation switching devices with shell-type housings. Rather, it can also be used in service switching devices with other types of housings, for example in casings of the socket type.

Fig. 1 Now shows a side view into the terminal receiving space of a service switching device with a Steckklemmvorrichtung according to the prior art, the housing 3 present - not shown figuratively - consists of two flat side panels, respectively shell halves, which except for a front terminal cover 22 through which the conductor 14 with its free end 15 is inserted into the housing, circumferentially having a joint line. The narrow side of the housing is divided into a rear narrow side 4 further away from the viewer and a front narrow side 5 closer to the observer. The downwardly pointing section of the housing usually has fastening elements and therefore forms the attachment side 6.

In Fig. 1 the viewer looks in the open housing 3 on an inner side 9 of the flat side or shell part on which the screwless terminal connection frame 10 is arranged, which is connected to a spring element, here a clamping spring 12. The screwless clamping terminal frame 10 has a substantially U-shape with a long leg and a short leg, which are cross-linked by a connecting leg 222. These sections of the terminal connection frame 10 serve as a bus bar, via which the conductor 14 is electrically connected to further components forming the current path inside the housing. The long leg, which is closer to the rear of the housing, forms a substantially vertical upstand 224, while at the second short leg, a clamping edge 120 is formed, which has a Leiterauflageabschnitt, which comes to lie facing the conductor 14 and contact said makes electrical connection. At the rear of the clamping edge 120 and thus directly as part of the short, substantially vertical leg is the discharge section 114.

Furthermore, the housing 3 on the narrow side 4, 5 an opening through which the frame 10, within which the clamping connection chamber 18 is located, is accessible to the inserted through the opening in the terminal connection chamber 18 free end 15 of Ladder 14 to attach. The attachment of the free end 15 of the conductor 14 to provide the necessary position-fixed terminal connection is formed by the clamping spring 12, which presses the free end 15 of the conductor 14 against the clamping edge 120 of the frame 10. The clamping spring 12 is mounted on the inside of the flat side parts 9 by means of a support 104, 104 'and further attached to a connecting web 112. The connecting web 112 is arranged on the frame 10 directly at the distal end of the short leg, wherein the passage for the conductor 14 is formed by a window-like recess in the connecting web 112. It is conceivable that the connecting web 112 is alternatively also arranged on the upstand 224.

Other fixing elements for the clamping spring 12, such as pins or the like, may be present, but are not shown here. The clamping spring 12 has a support leg 212, with which it is fixedly attached to the connecting web 112. The support can be made so that the support leg 212 is bent at its free end and rests with the edge in or on a passage 118 of the connecting web 112. At the support leg 212, a bend 214 and thereon the clamping leg 216 connects. This clamping leg 216 protrudes so far into the passage for the conductor 14 in the direction of acting as an abutment clamping edge 120, that the conductor 14, the free end 15 is passed, is clamped and positioned. This results in the terminal edge 120 by the conductive contact of the conductor end 15 of the desired low-resistance contact with the current path in the device.

The spring pressure or clamping pressure keeps the conductor 14 in position.

In the present case, the opening of the clamping connection space 18 is covered by a terminal cover part 22 which is pivotally connected to the housing 3 and, in the form of a tubular recess 328, provides passage for the conductor 14 into the terminal space 18; the passage 328 also serves as a guide means for the terminal conductor 14 to be connected to the terminal connection frame 10, which, after passing through the tubular recess 328, strikes the clamping leg 216 of the clamping spring 12 and is clamped, as stated above.

In the case of a flexible connecting conductor, the passage in the connecting web 112 may need to be opened by pivoting the terminal covering part 22. In the vicinity of the tubular recess 328, the terminal cover part 22 carries on the clamping leg 216 directed towards nose 30, which serves as a spring actuating means. The nose 30 may of course be other protruding components or components, in particular, the function of the nose 30 may be formed by a collar-like the outlet opening of the tubular recess 328 circumferential ridge. By the restoring spring force of the clamping leg 216 of this presses the nose 30 and thus the terminal cover 22 to the outside. By pressing on a pressure surface of the terminal cover 22, this is pivoted inward, and the nose 30, the clamping leg 216 is far enough away from the clamping edge 120 that the passage for the insertion of the lead 14 and the free end 15 is free.

Accordingly, the procedure for releasing a clamped connection conductor. Pressure on the terminal cover 22 causes its pivoting towards the housing interior and solves in the manner described above, the deadlock between the clamping leg 216 and the terminal conductor 14 and its free end 15 so that it can be pulled out of the passage.

The person skilled in the art knows how the opening movement of the terminal cover part 22 can alternatively also be effected by means of a commercial longitudinal slot screwdriver or Phillips screwdriver.

Even if in the representation according to the Fig. 1 to Fig. 5 only one passage 328 is shown, so of course two or more such connection openings and recesses may be provided for receiving and connecting a plurality of connection conductors. All connected connection conductors can be clamped with a common clamping spring 12 via their clamping legs 216. Upon actuation of the terminal cover 22 then all connected conductors are released simultaneously and can be solved simultaneously. However, it could also be used a clamping spring with a number of connectable conductors corresponding number of clamping legs. A single lead could then be removed or added without breaking the clamping force on the remaining possibly already inserted and clamped conductor ends.

Also by the pivoting of the terminal cover part offers itself for the conductor 14 upon application of a pressure which acts against the spring force, an alternative possibility , respectively a possibility of mispositioning, which may cause the conductor end 15 lifts off the conductor support at the clamping edge 120. For example, as in Fig. 1 indicated that a force in the direction of arrow P acts clockwise on the conductor 14, so the end of the tubular passage 328 forms a kind of support or pivot point for the conductor end, and this can then also pivot away from the clamping edge 120 in a clockwise direction, so that the low-resistance contact of the connection conductor is interrupted to the clamping edge.

To counteract the lifting of the conductor end of the conductor support point on the clamping edge 120, a plug-in terminal device for the aforementioned use in a housing 3 of a service switching device is proposed according to the invention, in which the in Fig. 1 on the other hand, the object shown is developed further - see Fig. 2 to 5 - So that in the terminal connection space 18, a support element from the height of an upper edge of the connecting leg 222 with an inclined in the direction of the first leg 224 contact surface 401 extends upward, the contact surface 401 a stop for the tip 15 'of the free end 15 of Ladder 14 forms, which, when it is introduced against the clamping force of the clamping spring element acting force, the conductive clamping connection of the end 15 against the clamping portion 120 secures.

As Fig. 2 1, an embodiment of such a support element may be formed as a web 410 which extends upwardly from the connecting leg 222 connecting the first leg 224 and the diverting leg 114 of the clamping connection frame 10 and thereby obliquely in the direction of also called the upstand long thigh 224 tends. As compared with Fig. 3 becomes clear, such a design with an oblique web 410 in particular advantageous because the web 410, located in the in Fig. 2 shown embodiment directly from the connecting leg 222 coming upwards, forms by the slope of a stop for the conductor ends 15 and conductors 14 of different thickness. While in the acting against the spring force of the clamping spring 12 force application to the conductor 14 in the case of Fig. 3 the thinner conductor can be rotated or moved around the area where the passage is stronger Fig. 2 shown thicker ladder earlier on the stop formed by the web 410, respectively at its contact surface 401 at.

In particular, if the web 410 is made of the same material as the terminal connection frame 10 and thus has good conductivity, there is the advantage that - in addition to the clamping edge 120 - a second electrical contact point through the contact surface 401 of the web 410 on the clamping frame 10, the current path, which is otherwise provided by the conductor 14 via the clamping edge 120 and the diverting region 114 and further via the connecting leg 222 to the upstand 224, continues without it being guided via the clamping spring 12.

Incidentally, the problem of lifting the ladder is evident Fig. 1 There is indicated by the block arrow acting against the spring force force introduction, which, as shown in the dashed circle, leads to a lifting of the conductor 14, respectively the free end 15 of the conductor 14, of the clamping edge 120 and the conductor instead against the leg 216 of the clamping spring 12 presses. This would result in the problem of overheating of the low-resistance clamping spring 12, associated with the stated risk of fire.

The object of the invention can also be achieved by supporting elements with other configurations. So there is a variant of in Fig. 2 executed embodiment of the invention, in which the web 410 is integrally formed on the connecting leg 222, which can be done for example by stamping or by soldering a corresponding metal web on a metal frame, that a web 410 by upwardly forming a portion of the connecting leg 222 in the terminal connection space 18 is formed. This is particularly possible if two or more parallel sections 222, 222 ', as in Fig. 3 shown forming the connecting leg 222. In other words, when an L-shaped notch is inserted into a connecting leg 222, a tab may be bent upwardly to form the web 410. It is quite possible that in a connecting leg 222, which is flat due to a certain frame width, a U-shaped slot is cut and the thereby cut-free tab is directed upwards into the terminal connection space 18.

Further, there is the possibility that the connecting leg 222 of the terminal connection frame 10, as shown in FIG Fig. 5 shown bulges into the terminal connection space 18, wherein the curved portion 420 is formed so that the inclined abutment surface 401 analogous to the contact surface 401 of the webs 410 in Fig. 2 and 3 is trained.

In the in Fig. 2 . 3 and 5 In the embodiments shown, the support element is designed in each case as a conductive part of the terminal connection frame 10, so that the current path can be formed by the supporting elements thus formed, when it comes to the fact that the conductor 15 is lifted from the clamping edge 120.

In the alternative, in Fig. 4 In contrast, the embodiment shown support member is formed as a non-conductive elevation 400 belonging to the inside of the flat housing wall. That is, one or both of the shell parts or housing parts is / are formed so that a supernatant 420 rises from the shell level and protrudes into the terminal space 18 at the above-described point. Also in this case is a contact surface 401 of the curved portion 420 at the point where the web 410 is otherwise provided. In the case of the use of injection-molded shell parts, this solution can be easily realized.

In this embodiment, however, it is a non-conductive support element, which can not serve for the task of providing a second contact point for the conductor end 15. However, the shape and the geometry of the supporting element designed in this way is such that upon the application of force from the outside to the conductor 15, it is fixed in position by means of the nonconductive elevation 400 and, according to the invention, is advantageously prevented from being lifted off the clamping edge 120.

Therefore, also by the in Fig. 4 embodiment shown solved the problem of preventing a current path is formed directly from the conductor 15 to the clamping spring 12, which could lead to adverse heating of the clamping spring in the sense described above.

The present invention also encompasses any combinations of preferred embodiments as well as individual design features or developments, provided that they are not mutually exclusive.

LIST OF REFERENCE NUMBERS

3

casing

4

rear front

5

front front

6

mounting side

9

Inside of the flat side part

10

screwless terminal connection frame

12

clamping spring

14

connecting conductors

15

free end of the connection conductor

15 '

Tip of the free end of the connection conductor

18

Terminal chamber

22

terminal cover

30

nose

104, 104 '

In stock

112

connecting web

114

discharge area

118

execution

120

clamping edge

212

support legs

214

elbow

216

clamping leg

222

connecting leg

224

backsplash

328

tubular recess

400

non-conductive survey

401

contact surface

410

web

420

Section, arched

Claims (7)

Low-voltage switching device having a plug-in terminal device arranged in a housing (3), wherein the plug-in terminal device has at least one terminal connection frame (10) and a clamping spring element (12) with a clamping leg (216), and wherein a terminal connection frame (10) is formed by a first leg (224) conductively connected to a diverter leg (114) via a connecting leg (222), wherein between the three legs (222, 194, 224) a clamping connection space (18) is provided, and wherein between the first leg (224 ) and the Ableitschenkel (114) having a clamping portion (120), a connecting web (112) which leaves a passage for receiving a free end (15) of a connecting conductor (14) free, and wherein at the connecting web (112) the clamping spring element (12) is arranged such that by the clamping leg (216) on the received in the passage free end (15) of the connecting conductor (14) a clamping force t is provided for conductive clamping connection of the end (15),
characterized in that in the clamp connection space (18) a support element extends from a height of an upper edge of the connecting leg (222) with a bearing surface (401) inclined in the direction of the first leg (224) upwards in the direction of the connecting web (112) the abutment surface (401) forms a stop for a tip (15 ') of the free end (15) of the conductor (14) which, when applied to the free end (15) of the conductor (14) against the clamping force of the clamping spring element (12 ) acting force, the conductive clamping connection of the end (15) against the clamping connection frame (10) secures. Low-voltage switching device according to claim 1, characterized in that the contact surface (401) secures the conductive clamping connection of the end (15) against the clamping portion (120). Low-voltage switching device according to claim 1 or 2, characterized in that the support element is made of a material having a good conductivity, in particular having a conductivity which is above that of the clamping spring (12). Low-voltage switchgear according to at least one of the preceding claims, characterized in that the support element is a at the upper edge of the connecting leg (222) obliquely upwardly extending to the connecting leg (222) cut web (410). Low-voltage switching device according to at least one of claims 1 to 3,
characterized in that the support element is at the upper edge of the connecting leg (222) obliquely upwardly extending web (410) by a in the terminal connection space (18) upwardly shaped portion of at least two parallel, the connecting leg forming portions (222,222 ') is formed. Low-voltage switching device according to at least one of claims 1 to 3,
characterized in that the support member is formed by a portion (420) of the connecting leg (222) of the terminal connection frame (10) which bulges into the terminal connection space (18) (420) and which extends over part or all of the width of the terminal Clamping frame (10) extends. Low-voltage switching device according to at least one of claims 1 to 3,
characterized in that the support element is formed projecting on an inner side (9) of a flat housing wall as a non-conductive elevation (400) into the clamping space (18).

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