EP3644457A1 - Electrical connection device with securing element - Google Patents

Abstract

The invention relates to a device (1) for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical disconnection of the galvanically conductive connection in the event of a fire, comprising a first connection contact device (2) for contacting the first conductor section, a second connection contact device ( 3) for contacting the second conductor section and a fuse element (4) which connects the first connection contact device (2) and the second connection contact device (3) to one another in a galvanically conductive manner, the fuse element (4) being designed as a separating bolt made of a galvanically conductive material which is formed by means of a each soldered connection with the first connection contact device (2) and with the second connection contact device (3) is electrically conductively connected and the solder of the soldered connections melts at a predetermined temperature. According to the invention, the separating bolt is subjected to force such that when the soldered connections melt, it moves in a predetermined direction away from the first connection contact device (2) and the second connection contact device (3) and at a distance from the first connection contact device (2) and the second connection contact device (3 ) is transferred to a securing position in which the separating pin is held by means of a force acting on it. In this way, a device is provided that responds quickly in a fire and in particular before a short circuit occurs and safely and reliably disconnects a part of an electrical system affected by it.

Description

The present invention relates to a device for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical disconnection of the galvanically conductive connection in the event of fire, comprising a first connection contact device for contacting the first conductor section, a second connection contact device for contacting the second conductor section and a fuse element that connects the first connection contact device and the second connection contact device to one another in a galvanically conductive manner. The invention also relates to a method for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical disconnection of the galvanically conductive connection in the event of a fire.

Devices for providing an electrically conductive connection of a first electrical conductor section and a second electrical conductor section and for safety-critical disconnection in the event of a failure are generally known in various forms. A failure can in particular be a short circuit in an electrical system, which can occur, among other things, due to a failure of electrical components or lines in a fire. The devices in question have the effect that a failure occurring in one part of the system does not affect the entire system and causes an overall system failure, but is only limited to the part that can be electrically disconnected from the overall system, i.e. a function of the rest of the system - if only in one limited scope - is retained.

From the EP 2 928 025 A1 a connection device for connecting a multi-core branch line to a flat cable is known. This has a connection device housing which allows the flat cable to pass through. Penetration contacts for stripping-free contacting of the flat cable are arranged inside the connection device housing. The connection device has a branch line socket for the outlet of the branch line from the connection device, the branch line socket on the connection device housing is arranged. The branch line socket has a branch line socket housing and a fuse receptacle arranged therein for at least one fuse link for securing an associated wire of the branch line. The fuse holder is electrically connected to the penetration contacts via a connecting line, and electrically forms a separation point for the at least one fused wire of the branch line, with which the wire of the branch line beyond the point of separation can be electrically separated from the flat cable by responding to the fuse link. The branch line socket housing is openable and the at least one fuse link can be replaced by opening the branch line socket housing without opening the connection device housing. With such a device, an electrical system in the event of a short circuit in a subsystem can be electrically decoupled from the rest of the system, so that the short circuit only paralyzes the subsystem but not the entire system. The disadvantage of this system is that there must be a short circuit in the system before the affected part is decoupled.

From the EP 2 568 542 A1 is also known a branching device for electrically connecting a branch line to a through line, the branching device for maintaining the function of the through line in the event of a fire being equipped with a thermally triggering separating device which provides the electrical connection between the branch line and the through line when the ambient temperature rises at a predetermined fire-typical value , a so-called separation temperature, separates automatically.

Furthermore describes the DE 10 2012 025 110 A1 a thermal overload protection of an electric motor with an interruption point between two conductor track ends of motor electronics arranged in a housing and with a contact bridge with two contact points which are mechanically connected to the conductor track ends and electrically contacted, and with a spring element which is supported on a housing contour, and the contact bridge acted upon in the course of an assembly step by a spring force acting in the triggering direction, the spring element being designed as a leaf spring or as a leaf spring, the at least one spring end of which is pre-assembled in an electrically insulated manner.

In view of the prior art described above, the object of the invention is to reduce or avoid the disadvantages mentioned and, in particular, to provide a device which responds quickly in a fire and in particular before a short circuit occurs and a part of it affected electrical system safely and reliably.

According to the invention, this object is achieved by a device according to claim 1, that is to say by a device for providing a galvanically conductive connection between a first conductor section and a second conductor section, and for safety-critical disconnection of the galvanically conductive connection in the event of a fire, comprising a first connection contact device for contacting the first conductor section, a second connection contact device for contacting the second conductor section and a fuse element that connects the first connection contact device and the second connection contact device to one another in a galvanically conductive manner, the fuse element being designed as a separating pin made of a galvanically conductive material that is connected to the first connection contact device and by means of a respective solder connection the second connection contact device is electrically conductively connected and the solder of the solder connections at a predetermined temperature melts, characterized in that the separating bolt is acted upon in such a way that when the soldered connections melt, it moves in a predetermined direction away from the first connection contact device and the second connection contact device and is thereby moved into a securing position at a distance from the first connection contact device and the second connection contact device , in which the separating pin is held by means of a force acting on it.

According to the invention, the first and the second conductor section are electrical conductor sections and serve to transmit electrical current. In particular, the first conductor section can be a through line and the second conductor section can be a branch line, it being possible for a plurality of consumers, each with a branch line, to be connected to a through line with the interposition of a device according to the invention. The conductor sections can in particular be multi-core, separate connection contact devices being provided for each core in the device. In addition, a separate securing element can be provided for each wire, ie the device has a number of securing elements corresponding to the number of wires. In terms of circuitry, the fuse element of the device is arranged between the first connection contact device and the second connection contact device and, in the normal case, that is to say when there is no malfunction, causes a transmission of electrical current from the first conductor section via the first connection contact device to the second connection contact device and the second conductor section. In the event of a fault, for example in the form of a fire, the fuse element is triggered or triggered as intended, which leads to an interruption or disconnection of the electrical connection between the first connection contact device and the second connection contact device.

It is therefore essential to the invention that the separating bolt not only automatically detaches from the two connection contact devices by melting the solder of the soldered connections at a predetermined temperature, but also actively moves away from the two connection contact devices by the application of force and at a distance from the first connection contact device and the second connection contact device is transferred to a securing position in which the separating bolt is held by means of a force acting on it. This has the advantage that in the further course of time there is a lower risk that a vagabonding of the separating pin will again produce a situation in which the separating pin again has an undesired galvanic effect forms a conductive connection between the first connection contact device and the second connection contact device.

Another advantage of the invention is that the device can be adapted particularly easily to different response temperature ranges. In the context of the invention, this can preferably be done by using a solder with a specific melting temperature. A solder with a melting point of approx. 94 ° C is e.g. Roses Metal. It is a bismuth alloy with lead and tin. Another solder that can basically be used for the present invention is Woodschens metal, which melts at 73-77 ° C.

It is preferably the case here that the separating pin in the securing position is pressed against a stop arranged at a distance from the first connection contact device and the second connection contact device. In principle, the forces acting on the separating bolt in the securing position on the one hand and in the arrangement fastened to the connection contact devices could be different from one another, in particular from different devices. According to a preferred development of the invention, however, it is provided that the separating pin is held in the securing position by means of the same force with which it is acted upon in its arrangement which is connected to the first connection contact device and the second connection contact device in a conductively conductive manner. It is also preferably the case here that the force applied to the separating pin in the securing position and in the arrangement that is electrically connected to the first connection contact device and the second connection contact device comes from the same device, preferably from a spring, very particularly preferably from a leaf spring or from a spiral spring .

It is therefore essential to the invention that the isolating pin, due to the application of force, from the area of the first connection contact device and the second connection contact device is moved away into a securing position and is held in this. In this context, it is provided according to a preferred embodiment of the invention that the separating pin is moved into a collecting area which lies below the first connection contact device and the second connection contact device. If the isolating pin is located below the first connecting contact device and the second connecting contact device, it is held there by gravity, so that it is extremely unlikely that the isolating pin will come back up into the area of the connecting contact devices, i.e. against gravity to unintentionally re-establish a galvanically conductive connection between the two connection contact devices. Moving the separating pin into the securing position here is thus moving the separating pin into the collecting chamber in which the separating pin is held due to gravity.

In this context, it also applies that the collecting area is preferably designed as such a collecting chamber with such a bottom, which lies below the first connection contact device and the second connection contact device. If it comes to the fact that the separating bolt is moved into this collecting chamber, it will usually happen that the separating bolt rests on the bottom of the collecting chamber. Due to the fact that the floor according to the preferred embodiment of the invention described here lies below the first connection contact device and the second connection contact device, it is extremely unlikely that the separating pin can get back into the area of the connection contact device, without involvement, from outside, where it unintentionally closes again could lead to galvanic contacting of the two connection contact devices.

In addition, according to a preferred development of the invention, it is provided that the bottom of the collecting chamber is offset laterally with respect to the first connection contact device and the second connection contact device. In other words, this means that the bottom of the collecting chamber is not only below the area of the connection contact devices located, but also laterally offset from these. In the event of a fire when the soldered connections melt, there is a movement of the separating pin downwards and to the side away from the area of the connecting contact devices, so that the separating pin is excluded from the connecting contact devices in an almost irreversible manner, with no involvement from outside.

Last but not least, in order to achieve this advantage in a simple and safe manner, according to a preferred development of the invention, from the area in which the first connection contact device and the second connection contact device are arranged, an at least sectionally inclined downward wall to the bottom of the Collection chamber leads. In this way, the separating bolt separated from the connection contact devices can be transported obliquely downwards and away from the area of the connection contact devices via one or more inclines. Preferably, the separating pin then finally comes to rest on the floor of the already mentioned collecting chamber, from where, even in the event of a fire, it has little chance of leading again to galvanically conductive contacting of the two connection contact devices, even in the event of a fire. In this context, it has been found to be particularly suitable to have a continuously sloping surface, which leads obliquely downwards from the area in which the first connection contact device and the second connection contact device are arranged and away from this area to the bottom of the collecting chamber.

As already indicated above, it is provided according to a preferred development of the invention that a spring, preferably a leaf spring or a spiral spring, is applied to the separating bolt to apply force to the separating bolt. This can offer the advantage that regardless of the orientation of the device or at least in a large orientation area of the device, such a situation is created according to which, when the soldered connections melt, the separating bolts are virtually irreversibly separated from the connection contact devices and into the securing position is transferred so that a safe electrical isolation of the two connection contact devices from one another remains guaranteed.

If it is said in the present case that devices of the device according to the invention are arranged relative to one another, such as mutually or laterally offset from one another, it is always assumed that the device is in its intended use and is oriented accordingly.

According to a preferred development of the invention, it is further provided that the isolating pin, the first connection contact device and the second connection contact device are arranged in a housing and the spring is mounted on an inner region of the housing. In this context, it is very particularly provided that the spring is fastened to a housing wall by means of a rivet connection. The housing is preferably made of a galvanically non-conductive material, preferably a ceramic. It is also very particularly preferred that the separating pin, the first connection contact device, the second connection contact device and the spring are made from a metallic material. In addition, the housing made of a non-galvanically conductive material preferably has a basic housing that is open to one side and can be closed there with a cover. Such a closing of the base housing with the cover is preferably also carried out with riveted connections.

The above-mentioned object is also achieved by a method for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical disconnection of the galvanically conductive connection in the event of a fire, comprising the following method steps: galvanically conductive connection of a first connection contact device for contacting the first Conductor section with a second connection contact device for contacting the second conductor section by means of a fuse element by the fuse element as a separating pin from a galvanic conductive material is designed, which is connected to the first connection contact device and to the second connection contact device in a galvanically conductive manner by means of a respective soldered connection, the solder of the soldered connections melting at a predetermined temperature and applying force to the separating bolt in such a way that it melts due to the applied force when the soldered connections are melted is moved in a predetermined direction away from the first connection contact device and the second connection contact device and is thereby moved at a distance from the first connection contact device and the second connection contact device into a securing position in which the separating bolt is held by a force acting on it.

Advantages of the present invention result from the following exemplary and non-limiting description of the invention with reference to figures. These are only schematic in nature and only serve to understand the invention.

Fig. 1

schematisch eine Vorrichtung gemäß einem ersten bevorzugten Ausführungsbeispiel der Erfindung in einer Explosionsdarstellung,

Fig. 2

schematisch die Vorrichtung gemäß Fig. 1 im zusammengebauten Zustand,

Fig. 3

schematisch die Vorrichtung gemäß Fig. 2 mit herausgelöstem Trennbolzen,

Fig. 4

schematisch die Vorrichtung gemäß Fig. 2 mit Blick auf den Deckel,

Fig. 5

schematisch die Vorrichtung gemäß dem ersten bevorzugten Ausführungsbeispiel der Erfindung in in einem Brandschutzgehäuse eingebautem Zustand,

Fig. 6

schematisch eine Vorrichtung gemäß einem zweiten bevorzugten Ausführungsbeispiel der Erfindung in einer Explosionsdarstellung und

Fig. 7

schematisch die Vorrichtung aus Fig. 6 in einer Schnittdarstellung in zusammengebautem Zustand.

Show:

Fig. 1

schematically an apparatus according to a first preferred embodiment of the invention in an exploded view,

Fig. 2

schematically the device according to Fig. 1 when assembled,

Fig. 3

schematically the device according to Fig. 2 with the separating pin removed,

Fig. 4

schematically the device according to Fig. 2 looking at the lid,

Fig. 5

schematically the device according to the first preferred embodiment of the invention in a state installed in a fire protection housing,

Fig. 6

schematically an apparatus according to a second preferred embodiment of the invention in an exploded view and

Fig. 7

schematically the device Fig. 6 in a sectional view in the assembled state.

How from Fig. 1 An exploded view of a device according to a first preferred exemplary embodiment of the invention shows a first connection contact device 2 and a second connection contact device 3 in a housing 9 consisting of a basic housing 10 and a cover 11 with which the basic housing 10 can be closed arranged, which are each formed from a metallic material. The first connection contact device 2 and the second connection contact device 3 are spaced from one another, so that there is only a galvanically conductive connection between the first connection contact device 2 and the second connection contact device 3 by connecting them by means of a securing element 4 in the form of a separating bolt. The securing element 4 in the form of the separating bolt is connected to the first connection contact device 2 and the second connection contact device 3 with a solder connection, which is not shown in detail for the sake of clarity. By choosing an appropriate solder for the soldered connections, a specific temperature range can be defined in which the solder melts, so that the securing element 4 is released.

In order to ensure that the securing element 4 is separated in a defined manner from the first connection contact device 2 and the second connection contact device 3 when the solder of the two solder connections melts, a spring 8 is provided, specifically in the form of a leaf spring which is attached to the housing 9, namely, on which the base housing 10 closing lid 11 is attached. The attachment takes place by means of a rivet 12, so that the spring 8 bears against the inside of the cover 11, so that the cover serves as an abutment for the force which the spring 8 transmits to the securing element 4 in the form of the separating bolt.

If the cover 11 is now installed on the basic housing 10 with the aid of two further rivets 12, 13, so that the housing 9 is closed as a whole, the situation already mentioned arises that the spring 8 exerts a force on the securing element 4 in the form of Separating bolt. In the event of a fire, when the solder of the two solder connections between the fuse element 4 and the first connection contact device 2 or the second connection contact device 3 is melted, the fuse element 4 is moved away from the first connection contact device 2 and the second connection contact device 3 in a defined manner , in the in the Figures 2 and 3 shown representations essentially upwards from the drawing level. It shows Figure 2 a situation in which the securing element 4 still forms a connection between the first connection contact device 2 and the second connection contact device 3, while in Figure 3 a situation is shown in which the securing element has already been removed.

With regard to this removal of the fuse element 4 in the event of a fire, that is to say when the solder of the two soldered connections between the fuse element 4 and the first connection contact device 2 and the second connection contact device 3 melts due to appropriate temperatures Fig. 5 removable. It shows how, in a specific operating state of a fire protection housing 15, the device 1 according to the first preferred exemplary embodiment of the invention described here is attached to a side wall 16 of a fire protection housing 15.

The device is open to the inside of the fire protection housing 15, namely the device 1 to the inside of the fire protection housing 15 has an obliquely downward facing Wall 7, which from the area in which the fuse element 4 forms the connection between the first connection contact device 2 and the second connection contact device 3, downwards and to the side. Due to the application of force to the securing element 4 by the spring 8 (in Fig. 5 arranged behind the securing element 4 and therefore not recognizable,) now leads to the securing element 4 being conveyed out of the device 1 in the event of a fire, that is to say when the soldered connections melt, to the bottom and to the side, so that the securing element 4 finally ends up in a collecting area 5, which has a bottom, namely the bottom 6 of the fire protection housing 15 itself, which is clearly below the area in which the securing element 4 has electrically connected the first connection contact device 2 to the second connection contact device 3.

Associated with this is a high degree of certainty that even if the securing element 4 is vagabonded, no situation can arise in the event of a fire, in which the securing element 4 can again move upwards, i.e. against gravity, into the area in which it is now, unintentionally, the first Connection contact device 2 could connect to the second connection contact device 3 in a galvanically conductive manner.

Out Fig. 6 a device 1 according to a second preferred embodiment of the invention is shown schematically in an exploded view. Fig. 7 shows the device 1 in a sectional view in the assembled state. Basically, the structure of the device 1 according to a second preferred embodiment of the invention is very similar to the structure of the device according to a first preferred embodiment of the invention. A basic housing 10 is also provided here, which is closed with a cover 11 by means of rivets 13, 14. Arranged in the basic housing 10 are a first connection contact device 2 and a second connection contact device 3, to which electrical lines (not shown in more detail) can be connected by means of connection screws 16, 17.

Here too, a fuse element 4 in the form of a separating bolt, which is electrically conductively connected to the two connection contact devices 2, 3 by means of soldered connections, is provided, which is acted upon by force by means of a spring 8, in the present case a spiral spring. For this application of force, a pressing element 19 is provided, which bears against the separating bolt in a prestressed manner by the spring 8.

If the solder of the two solder connections between the securing element 4 and the first connection contact device 2 or the second connection contact device 3 now melts, the separating pin is forced downwards by means of the spring 8 and the pressing element 19, namely until the separating pin at a distance from the two connection contact devices 2, 3 abuts against a stop 18 provided in the basic housing 10. In the state separated from the first connection contact device 2 and the second connection contact device 3, the isolating pin thus comes into a securing position: due to the force originating from the spring 8, the isolating pin lies against the stop 18 of the basic housing 10 when subjected to force. This securing position is achieved regardless of the position due to the spring force of the spring 8, and is therefore also independent of gravity. In this way, a controlled detachment of the securing bolt is achieved in a particularly safe manner, without the fear that the detaching bolt will vagabond subsequently.

Reference list

1

contraption

2nd

first connection contact device

3rd

second connection contact device

4th

Securing element

5

Catchment area

6

ground

7

sloping wall

8th

feather

9

casing

10th

Basic housing

11

cover

12th

rivet

13

rivet

14

rivet

15

Fire protection housing

16

Connecting screw

17th

Connecting screw

18th

attack

19th

Pressing element

Claims (13)

Device (1) for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical separation of the galvanically conductive connection in the event of fire, comprising
a first connection contact device (2) for contacting the first conductor section,
a second connection contact device (3) for contacting the second conductor section and
a fuse element (4), which connects the first connection contact device (2) and the second connection contact device (3) to one another in a galvanically conductive manner, wherein
the securing element (4) is designed as a separating bolt made of a galvanically conductive material which is connected in a galvanically conductive manner to the first connection contact device (2) and to the second connection contact device (3) by means of a respective solder connection and
the solder of the solder joints melts at a predetermined temperature, characterized in that
the separating bolt is acted upon in such a way that when the soldered connections melt, it moves in a predetermined direction away from the first connection contact device (2) and the second connection contact device (3) and at a distance from the first connection contact device (2) and the second connection contact device (3) is transferred to a securing position in which the separating pin is held by means of a force acting on it. Device (1) according to claim 1, characterized in that the separating bolt in the securing position against one at a distance from the first connection contact device (2) and the second connection contact device (3) arranged stop (18) is pressed. Device (1) according to claim 1 or 2, characterized in that the separating pin is held in the securing position by means of the same force with which it is acted upon in its arrangement which is connected in a galvanically conductive manner to the first connection contact device (2) and the second connection contact device (3) . Apparatus according to claim 3, characterized in that the force applied to the separating pin in the securing position and in the arrangement with the first connection contact device (2) and the second connection contact device (3) is electrically conductively derived from the same device. Device (1) according to one of the preceding claims, characterized in that a spring (8) is provided to apply force to the separating pin. Device (1) according to claim 1, characterized in that the separating pin is moved into a collecting area (5) which lies below the first connection contact device (2) and the second connection contact device (3). Apparatus (1) according to claim 6, characterized in that the collecting area (5) is designed as a collecting chamber with a bottom which lies below the first connection contact device (2) and the second connection contact device (3). Device (1) according to claim 7, characterized in that the bottom of the collecting chamber is offset laterally with respect to the first connection contact device (2) and the second connection contact device (3). Device (1) according to claim 7 or 8, characterized in that from the area in which the first connection contact device (2) and the second connection contact device (3) are arranged, a wall (7) pointing at least in sections obliquely downwards to the bottom of the Collection chamber leads. Device (1) according to claim 9, characterized in that the device comprises a housing and the separating pin, the first connection contact device (2) and the second connection contact device (3) are arranged in the housing (9). Device (1) according to claim 10, characterized in that the housing (9) is made of a galvanically non-conductive material, preferably ceramic. Device (1) according to one of the preceding claims, characterized in that the separating pin, the first connection contact device (2), the second connection contact device (3) and the spring (9) are made of a metallic material. Method for providing a galvanically conductive connection between a first conductor section and a second conductor section and for safety-critical separation of the galvanically conductive connection in the event of fire, comprising the following method steps: galvanically conductive connection of a first connection contact device (2) for Contacting the first conductor section with a second connection contact device (3) for contacting the second conductor section by means of a fuse element (4), in that the fuse element (4) is designed as a separating bolt made of a galvanically conductive material which is connected to the first connection contact device () by means of a respective solder connection. 2 and with the second connection contact device (3) is connected in a galvanically conductive manner, the solder of the solder connections melting at a predetermined temperature and Applying force to the separating bolt such that when the soldered connections melt, due to the applied force, it moves in a predetermined direction away from the first connection contact device (2) and the second connection contact device (3) and at a distance from the first connection contact device (2) and the second connection contact device (3) is transferred to a securing position in which the separating pin is held by means of a force acting on it.

Images