DE10043465C2 - Switching backup unit - Google Patents

Abstract

The invention relates to a switch fuse unit with a housing, a rocker switch for receiving a fuse link or a fuse plug with a receiving area for a fuse link, the rocker switch being mounted in the housing between a switch-on position and a switch-off position and being pivotable in the housing, and one in the housing a spring element provided contact device with a contact element is arranged so that the contact element in the switched-on position of the rocker switch contacts the fuse link via a mating contact, the contact element being connected to an input or output contact of the switching fuse unit by means of a flexible conductor, the switching fuse unit also being a stability element comprises, on the one hand, directly or indirectly firmly attached to the housing of the switching fuse unit and, on the other hand, directly or indirectly connected to the contact element so that au f the contact element has a stabilizing effect at least in a direction substantially perpendicular to the direction of the spring force of the spring element.

Description

The present invention relates to a switch protection unit according to the Oberbe handle of claim 1.

Known switch fuse units have a housing, a rocker switch for receiving egg fuse insert or fuse plug with a receiving area for one Fuse insert, the rocker switch in the housing between a switch-on position and a switch-off position is pivoted back and forth. In the housing of a sol Chen circuit breaker unit is a contact device provided with a spring element arranged with a contact element so that the contact element in the switched-on position the rocker switch contacts the fuse link via a mating contact, the con clock element by means of a flexible conductor with an input or output contact Switch fuse unit is connected. Such a switching fuse unit is, for example known from the German utility model DE 299 12 855 U1.

From DE 199 34 539 C1 is also a switching system with a combined switching and Blocking device known that the one or more such circuit protection units summarizes, with an operating lever of a switch for closing the circuit only then can be operated when all switch fuse units or the associated fuse inserts are in their on position.

From DE 35 17 748 C1 is also a switching mechanism for a circuit breaker known in which a tension spring causing a contact pressure and a contact opening is provided, which has a stabilizing effect in the functional level of a contact lever.

From DE 196 52 271 C2 is also a contact terminal for producing an electrical conductive, releasable connection on contact parts known. The open in this publication Beard contact clamp includes a metallic slide, the egg on one side Nem contact element for connecting a measuring power and on its other side with two electrically conductive clamping wires is electrically conductively coupled, the slide with the contact element forms a mechanically rigid and solid unit that is not related to each other has movable moving parts. The slide is against opening the clamp wires adjustable spring force.

Such circuit protection units are also used in particular for the circuit, especially in the case of necessary repairs to the associated electrical devices and Ma seem to reliably interrupt manually. To do this, the rocker switch, the Siche contains plug with the corresponding fuse link and that between an on switch position and a switch-off position can be pivoted in a housing of the switchgear tion unit is moved to its off position. The circuit becomes un broken, so that in particular repairs to electrically operated machines and devices can be carried out safely.

When switching the rocker switch between its switch-off position and its switch-on position the flexible conductor that has an input or output contact of the switchgear connecting unit via the contact element with the fuse link, due to the necessary change of position of the contact element with unchanged position the location of the flexible contact that is fixed to the input or output contact of the Switch protection unit is connected, strong bending or tensile and compressive forces  subject, in particular, by a movement of the contact element and the Federele ment in a direction perpendicular to a longitudinal direction of the spring element, which by the Switching movement of the rocker switch is caused, wear of the flexible con can bring about clocks. In particular, the forces in the longitudinal direction of the flexible con clocks, i.e. tensile loads and compressions, lead to increased wear ßerscheinungen.

The short flexible conductor can be of different lengths, depending on the particular out form of management and structural conditions, may be provided. A short flexible ladder is more advantageous since it has a lower power loss compared to a longer conductor of the current to be conducted. Due to the lower cable resistance in the device developed less heat. Short flexible contacts in particular are the ones above mentioned wear and tear increased exposure, which is caused by constant bending caused "hardening" of the material and a resulting length shrinkage fung is reinforced.

It is therefore an object of the present invention to provide a switch protection unit to provide, which is designed so that the flexible contact during the switching operations of the Switch protection unit, that is, as small as possible during pivoting of the rocker switch is exposed to loads, so that wear of the flexible contact is avoided and a long service life of the flexible contact and thus the switch fuse unit is provided.

This object is achieved by a switching fuse unit according to claim 1 claims 2 to 12 relate to particularly advantageous embodiments of the invention Switching backup unit.

According to the invention, the switching fuse unit comprises a stability element, on the one hand is directly or indirectly firmly attached to the housing of the switch fuse unit and others is directly or indirectly connected to the contact element so that on the contacts lement a stabilizing effect at least in one direction substantially perpendicular is applied to the direction of the spring force of the spring element. Through the stabilizing we tion of the stability element, which is fixedly connected to the housing, ensures that Cross loads, d. H. Loads that are normal to longitudinal expansion in one direction  of the spring element are exercised, do not lead to the fact that the spring element itself and the contact element, which is connected to the flexible contact, transversely to the longitudinal axis of the Spring is deflected, which leads to tensile loads or compression of the flexible contact ren, or such a deflection is at least greatly restricted.

The stability element therefore essentially ensures stability at least in one direction chen in the direction of a longitudinal extension of the flexible contact. In particular, this will achieved by a stability element that has stable areas that are at least in egg ner component extend transversely to the longitudinal axis of the spring element. In particular, can the stability element comprises essentially planar or plate-shaped elements sen, which have a component that is normal to the longitudinal axis of the spring element are aimed.

The stability element is preferably formed in one piece, so that increased stability is enough.

In a preferred embodiment, the flexible conductor is connected at its ends to the sta balance element connected. Such a connection can be done by everyone in the prior art Technically known methods can be ensured, in particular, the flexible conductor on the Welded stability element or in areas of the stabilizer specially provided for this purpose pinched element. To ensure a particularly advantageous attachment, it is also possible to use different types of fastening, for example clamping and welding to combine each other.

The stability element preferably consists of essentially elastic material, whereby it in a particularly preferred embodiment consists of conductive material. A special the preferred material for the stability element is spring steel.

It is particularly preferred that the stability element is stamped in one piece from a sheet metal is and is bent, whereby the stability element in an inexpensive manner and in one automatic process can be made.

In a further preferred embodiment, the stability element has a contact guide element, which is designed so that the contact element depending on the  Position of the rocker switch at a defined, relative distance from a counter contact holds, the distance essentially only when the rocker switch is in the zero position is and a contact is made so that a grinding of the contacts against each other is avoided by swiveling the rocker switch. Regarding the special design such a contact guide element is referred to DE 299 12 855 U1, their characteristics in this regard by referring fully to this application be taken.

In a special embodiment, the contact guide element comprises two legs with guide surfaces, between which the contact element is arranged, so that an equal moderate guidance is ensured and no distortions due to one-sided loading of the sta balance element can arise.

Depending on the area of application, it may be advantageous for the stability element to be additional includes an electronically wired contact spring (electronic spring), which preferably integrally with the stability element represents is. Such an electronically connected contact spring (electronic spring) can, depending on the switching position of the rocker switch, with a associated electronic contact are connected to special control options or to implement display options.

The flexible conductor is preferably a current strand made of flexible, at least partially conductive Material that is designed to withstand bending stresses particularly well.

In another embodiment, the fuse plug includes a circuit breaker unit is a movable, conductive covering device for contacting a lower contact of the fuse plug, the switching fuse unit having an additional spring device comprises, which is connected at least on one side to the housing of the switching fuse unit is and is arranged so that it acts on the conductive cover device against the force Pushes in the direction of the fuse plug, the amount of which depends on the switch position Shift paddle is dependent. In this regard, the parallel registration (legal File number B20-38, official file number 100 43 464.9), the content of which is fully incorporated by reference message is recorded.

Furthermore, in a particular embodiment, the stability element is designed such that it between the flexible conductor on the one hand and a hard steel connection screw of an input  or output contact is arranged on the other hand and in this position as a counter eng or pressure plate acts and so the highly flexible conductor, which is generally soft rem material, especially copper, protects. Furthermore, the stability element preferably fixed in the housing, so that the flexible conductor end firmly connected to it a ru occupies a fixed and defined position within an input or output contact.

The stability element is preferably a multifunction element, which on the one hand is the essential che inventive stability effect produces, on the other hand, the protective radio just described tion of the flexible conductor. It also serves as a fastener for the flexible Head and its corresponding positioning, whereby the distance between the beginning and end of the flexible conductor is fixed, which, as already explained, prevents compressions or tensile loads from being exerted on the flexible conductor. By means of the additional configuration with a contact guide element and the guide surfaces and a possible provision of an electronic spring can be further essential functional elements integrated into the multifunction element according to the invention become. Finally, it should be pointed out that the stability element and / or the switching rocker and / or further elements of the switching fuse unit are designed in this way Det can be that in the interaction of the elements, a latching of the rocker switch in ih rer switch-on position or in its switch-off position, which causes an increased force requests to pivot the rocker switch from these end positions, so that a accidental pivoting of the rocker switch is avoided.

Further advantages and features are illustrated by the attached drawings, which are schematic show in a preferred embodiment of the switching fuse unit according to the invention, described in more detail. Show it:

Figure 1 is a cross-sectional view of an embodiment of a switching fuse unit according to the invention, wherein the rocker switch is in the off position.

FIG. 2 shows a cross-sectional view of the embodiment shown in FIG. 1, the rocker switch being in the switched-on position;

Fig. 3 is a perspective view of an embodiment of a stability element according to the invention.

In Fig. 1, the structural configuration of a shift securing unit 20 according to the invention with a rocker switch 60 and a fuse plug 80 is shown, set in a Fuse L 100 is inserted.

The switching fuse unit 20 comprises a housing 22 in which the rocker switch 60 is pivotally mounted so that it can be pivoted between the switch-off position shown in FIG. 1 and the switch-on position shown in FIG. 2.

In the rocker 60 has a fuse plug 80 is inserted with a fuse insert 100th The rocker switch 60 further comprises a movable, conductive covering device 120 , which has a contact element 122 . The conductive cover device 120 in the on position of the rocker switch 60 makes contact between a lower contact 102 of the fuse insert 100 and a contact element 32 of a flexible contact 30 of the switching fuse unit 20 .

The covering device 120 is movable in a direction parallel to a longitudinal axis of the hedging insert 100 and is guided in a guide channel 124 , which is provided in the rocker switch 60 .

The rocker switch 60 also has a spring guide element 66 which, in the switched-off position of the rocker switch 60 shown in FIG. 1, presses on a spring device 160 made of a bent spring steel band, so that it is held in a lower position and the cover device 120 and indirectly via this the fuse link 100 and the securing plug 80 cannot be pressed upwards by the spring device 160 , ie in a direction ent against the insertion direction of the fuse plug 80 with the fuse link 100 into the rocker switch 60 .

Characterized that there is no pressure on the Sicherungsstöp sel 80 and the fuse is practiced in a direction opposite to the insertion direction, 100 in the open position, so that both the fuse plug 80 and the fuse remain as 100 in its operating position in the switching rocker 60 is ensured. An accidental pushing out of the fuse plug 80 and the fuse link 100 , which would prevent the rocker switch 60 from tilting into the switched-on position, is thereby excluded.

A stability element 140 , which in the embodiment shown consists of spring steel, is connected to the housing 22 in the area of an input contact 24 of the switch protection unit 20 .

The stability element 140 is firmly connected to the housing 22 due to its geometric configuration and the fit into the housing 22 on the one hand and through a housing rib 36 on the other hand, as is clearly visible both in FIG. 1 and in FIG. 2. Of course, it is also possible to deviate from the stability element 140 in different ways with the housing 22 of the switching fuse unit 20 .

Further, the stability element 140 via a flexible conductor 30, which in a receiving area 148 of the stiffness element 140 is clamped and is spot-welded to this, connected to the contact element 32nd The stability element 140 has guide surfaces 142 , 144 and 146 , which cooperate with a guide surface 62 of the rocker switch 60 , whereby a predetermined relative position between the stability element 140 and Schaltwip pe 60 is ensured. In this predetermined relative position, the contact element 32 of the flexible contact 30 is positioned at a distance from the rocker switch.

In this embodiment, the flexible contact 30 is a flexible current wire, which on the one hand is firmly connected to the input contact 24 , and on the other hand, as explained above, is fastened in a receiving area 148 of the stability element 140 .

The stability element 140 made of spring steel therefore defines and stabilizes the position of the end of the flexible contact 30 provided with the contact element 32 and in particular ensures positioning in a direction transverse to a longitudinal axis of the spring element 34 . This ensures that the flexible contact 30 is forcibly bent or bent depending on the positioning of the contact element 32 and the associated end of the flexible contact 30 , but it prevents the flexi ble contact 30 forces in its longitudinal extension be exercised, ie the flexible contact 30 is compressed or stretched in its longitudinal extent, so that damage and wear are avoided.

In the embodiment shown in FIG. 1, open position of the switch fuse unit 20, both the lower contact 102 as are the top contact 104 of the fuse 26 of the switch fuse unit 20 is separated 100 from the input contact 24 and output contact. As can also be seen in FIG. 1, the cover device 120 is arranged in the switched-off position in such a way that an air gap is formed between it and the lower contact 102 of the fuse insert 100 .

An electronically wired contact spring (electronic pen) 150 which is formed integrally with the stability element 140 is located, without contact of the rocker 60 of the switch fuse unit 20, wherein a contact end is matures 152 of the electronic pen 150 in a introduced into the switching rocker 60 latching groove 70 through which the Switch rocker 60 is locked in its off position, so that an increased force is required for pivoting into the on position. The locking groove 70 is particularly clearly visible in FIG. 2, in which the rocker switch 60 is in its switched-on position, so that the electronic spring 150 cannot engage in the locking groove 70 .

FIG. 2 shows the embodiment of the switch protection unit 20 shown in FIG. 1 in its switched-on position. The rocker switch 60 has been pivoted clockwise with respect to the illustration shown in FIG. 2, so that the lower contact 102 of the fuse link 100 via the cover device 120 and the associated contact element 122 , the contact element 32 and the flexible contact 30 with the input contact 24 in contact stands, while the upper contact 104 of the fuse link 100 via a contact 28 of the switching fuse unit 20 with the output contact 26 is in electrical contact.

As can be seen well in Fig. 2, the spring guide element 66 is no longer in contact with the spring device 160 by pivoting the rocker switch 60 , so that the Federvor device 160 acts directly on the cover device 120 and this against an insertion direction of the fuse plug 80 against the rocker switch 60 and in a guide channel introduced therein 124 for one leg of the cover device 120 presses, so that the fuse link 100 with its upper contact 104 is pressed securely against the contact 28 and realizes a secure connection and arcing etc. are avoided. By pivoting the rocker switch 60 in the switch-off position, the force exerted by the spring device 160 on the cover device 120 during the switch-on process due to the geometric configuration of the cover device 120 and the spring device 160 is continuously increased, in the Fig. 2 shown on position of the rocker switch 60 assumes its maximum value. As explained above, in the switch-off position shown in FIG. 1, the spring device 160 is held in a lower position by the spring guide element 66 , so that the cover device 120 is not acted upon in this switch position, the cover device 120 is only loosely on the spring device 160 lies, as shown in Fig. 1. The force exerted by the spring device 160 on the covering device 120 in a direction opposite to the insertion direction of the securing plug 80 in the rocker switch 60 is therefore depending on the position of the rocker switch 60 between zero and a predetermined maximum value, which depends on the design of the spring device 160 and the geometric configurations is determined. When in Fig. 1 and Fig. 2 embodiment shown, the maximum force which is exerted in the direction shown in Fig. 2 on position of the switching rocker 60 by the spring device 160 on the cover 120, about 12 Newton, but it should be noted that the switching fuse unit or individual elements, as mentioned above, can be designed differently depending on the field of application, so that deviating values can also be achieved without deviating from the subject matter of the invention.

Due to the geometric configuration of the stability element 140 and in particular the guide surfaces 142 , 144 and 146 , which cooperate with the guide surfaces 62 and 64 of the rocker switch 60 , the contact element 32 is guided so that it is essentially only in the switch-on position shown in FIG Rocker switch comes into contact with the contact element 122 from the cover device 120 . During the pivoting of the rocker switch 60 from the switch-off position to the switch-on position, the contact element 32 is moved against the force of the spring 34 relative to the longitudinal axis of the spring 34 , while movement of the contact element 32 in a direction transverse to the longitudinal axis of the spring element, that is to say in one direction normal to a direction of force of the spring element 34 , through which the stability element 140 is largely prevented.

This ensures that during the pivoting of the rocker switch 60, the contact element 32 and the end of the flexible contact 30 arranged thereon are not compressed or subjected to tensile loads, so that the flexible contact 30 only between the different, in FIGS. 1 and 2 shown positions is bent. Since the flexible contact 30 is designed for such bending movements, but not for upsetting or tensile loads, wear of the flexible contact 30 is avoided and the service life is significantly increased.

The rocker switch 60 and the stability element 140 , in particular the guide surface 64 of the rocker switch 60 and the guide surface 142 of the stability element 140 are designed such that an air gap is formed between them in the switched-on rocker switch 60 . Since it is ensured that a reliable contact between the contact elements 32 and 122 is ensured due to the spring force of the spring element 34 .

The stability element 140 made of spring steel further comprises an electronically connected contact spring (electronic spring) 150 , which is formed in one piece with the stability element 140 . The electronic spring 150 bears with a curved contact end 152 against an electronic contact 68 which is provided on the rocker switch 60 .

The stability element 140 is also designed such that it is positioned between the flexible conductor 30 and a hard steel connection screw of the input contact 24 , so that it forms a corresponding abutment or pressure plate and the flexible conductor 30 , which in this embodiment consists of softer copper, is protected.

Fig. 3 shows the stability element 140 shown in FIGS . 1 and 2 in a perspecti vical representation. The stability element 140 is punched and bent from a spring steel sheet, so that, as mentioned above, it is a one-piece element that is simple and inexpensive to manufacture. The flexible contact 30 can be fastened to the stability element in various ways, in particular it can be accommodated and clamped in an accurate manner in the provided grooves, for example the receiving area 148 of the stability element 140 , and it is also possible for the flexible contact 30 to be known to all Ways to connect to the stability element 140 .

Fig. 3 also clearly shows the structure of the stability element 140 with its guide surfaces 142 , 144 and 146 , as described above. Furthermore, it clearly shows the configuration of the electronic spring 150 with its contact end 152 , which is bent so that it protrudes into a recess 154 . The stability element comprises a further Ausneh mung 156, through which 32 (see Fig. 1 and 2) for contact with the contact member 122 of the cover 120 (Fig. 1 and 2) projects beyond the contact element. Clearly it is recognizable also a fastening region 158 of the stability element 140, by means of which the bilitätselement Sta is fixed to the housing 22 of the switch fuse unit 20 140th A secure positioning is also ensured by the substantially straight leg 159 of the stability element 140 , which abut a corresponding surface of the housing 22 of the switching fuse unit 20 , as can be seen in particular from FIGS . 1 and 2. With regard to the mode of operation of the stability element, reference is made to the description with reference to FIGS . 1 and 2.

LIST OF REFERENCE NUMBERS

20

Switching backup unit

22

casing

24

input contact

26

output contact

28

Contact (switch fuse unit)

30

flexible contact (switch fuse unit)

32

contact element

34

spring element

36

housing rib

60

rocker

62

guide surface

64

guide surface

66

Spring guide element

68

electronics Contact

70

locking groove

80

fuse plug

100

fuse link

102

lower contact (fuse link)

104

upper contact (fuse link)

120

covering

122

Contact element (cover device)

124

guide channel

140

stability element

142

Guide surface (stability element)

144

Guide surface (stability element)

146

Guide surface (stability element)

148

Recording area (stability element)

150

electronically connected contact spring (electronic spring)

152

Contact end (electronic spring)

154

recess

Claims (12)

1. switching fuse unit ( 20 ) with a housing ( 22 ), a rocker switch ( 60 ) for receiving a fuse link ( 100 ) or a fuse plug ( 80 ) with a receiving area for a fuse link ( 100 ), the rocker switch ( 60 ) in the Housing ( 22 ) between a switch-on position and a switch-off position is pivoted back and forth, and in the housing ( 22 ) a contact element ( 34 ) provided with a spring element ( 34 ) is arranged with a contact element ( 32 ) such that the contact element ( 32 ) in the switched-on position of the rocker switch ( 60 ) contacts the fuse insert ( 100 ) via a mating contact, the contact element ( 32 ) being connected to an input or output contact ( 24 ) of the switching fuse unit by means of a flexible conductor ( 30 ), characterized in that the switching fuse unit ( 20 ) further comprises a stability element ( 140 ), which is either directly or indirectly fixed m it with the housing ( 22 ) of the switching fuse unit and on the other hand directly or indirectly connected to the contact element ( 32 ) in such a way that a stabilizing effect on the contact element ( 32 ) at least in one direction substantially perpendicular to the direction of the spring force of the spring element ( 34 ) is exercised. 2. switching fuse unit ( 20 ) according to claim 1, characterized in that the flexible conductor ( 30 ) is connected in the region of its two ends with the stability element ( 140 ). 3. switching fuse unit ( 20 ) according to claim 2, characterized in that the flexible conductor ( 30 ) in the region of its two ends on the stability element ( 140 ) is welded and / or clamped. 4. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) consists of substantially elastic material. 5. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) consists of conductive material. 6. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) is made of spring steel. 7. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) is punched and bent in one piece from a sheet metal. 8. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) has a contact guide element which the contact element ( 32 ) in dependence on the circuit of the rocker switch ( 60 ) at a defined, relative distance from one Counter contact ( 122 ) holds, the Ab stood essentially only in the switched-on position of the rocker switch ( 60 ) is zero and a contact is made. 9. switching fuse unit ( 20 ) according to claim 8, characterized in that the con tact guide element comprises two legs with guide surfaces ( 142 , 144 , 146 ) between which the contact element ( 32 ) is arranged. 10. switching fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the stability element ( 140 ) additionally comprises an electronically connected contact spring ( 150 ). 11. Switch fuse unit ( 20 ) according to any one of the preceding claims, characterized in that the flexible conductor ( 30 ) is a current strand made of flexible, at least partially conductive material. 12. Switch fuse unit ( 20 ) according to one of the preceding claims, characterized in that the switch fuse unit ( 20 ) comprises a rocker switch ( 60 ) which has a movable conductive cover device ( 120 ) for contacting a lower contact ( 102 ) of the fuse link ( 100 ) has, wherein a further Federvor direction ( 160 ) is provided, which is at least on one side firmly connected to the housing ( 22 ) and is arranged so that it on the conductive cover device ( 120 ) ei ne force against an insertion direction of the fuse plug ( 80th ) exercises, the amount of which depends on the switching position of the rocker switch ( 160 ).