DE19821487C1 - Electrical fuse with controllable disconnecting device - Google Patents

Abstract

Electrical fuses with a controllable disconnecting device have hitherto been implemented in a very complex manner by means of pyro switches or switches with a servomotor or with thermite charges. The goal is a much simpler fuse with a controllable disconnect device. DOLLAR A Through an electrical connection, in which the two line sections are connected directly or indirectly via an electrically conductive connection, in particular a solder medium, which separates at a temperature significantly above an ambient temperature, and a heating element is provided as a separating device, which relies on the separating signal heated in such a way that the connection is cut, such a fuse can be implemented in a simple manner. In addition to a direct connection of the two line sections via the connection, an embodiment with a contact bridge is also conceivable, which is connected to the line sections via such a connection. By means of a bracing counteracting the contact, the separation of the connection, for example when melting the solder medium, can be made even more secure and faster. DOLLAR A Use to protect motor vehicle batteries against short-circuit by means of a current measuring device which generates the cut-off signal.

Description

The invention relates to an electrical fuse with a controllable disconnecting device according to the preamble of claims 1 or 2.

The simplest electrical fuses are fuses that run out of current flow and due to the self-heating of a current significantly higher than Melt the nominal current. The choice can be made by choosing the material and the cross-section release characteristics can be influenced to a limited extent. Show fuses However, it is clearly disadvantageous especially for the area of higher nominal currents, since the then required relatively high wire cross sections for currents that are not too strong Exceed rated current, do not trip or only trip after a disproportionately long time.

Furthermore, active electrical fuses are known, which can be controlled by means of a Separating device are provided. On a disconnect signal, which a variety of additional The separating device can take information about a control logic into account triggered.

A generic thermal fuse is known from JP 09035603 A, in which cutting a fuse with an additional heating resistor is supported. An arrangement according to JP 09035603 A optimizes the melting of the Fuse protection in that care is taken with the heating resistor that the melting temperature is reached. A mechanical support to separate the Securing element is not provided. With the fuse according to JP 09035603 A. the danger that the lead wire, which is very close to the heating resistor on the Heating resistor sticks and thereby bridges the fuse, which in effect corresponds to a failure of the fuse.

The best known is an electrical fuse using a pyro switch, such as the one from the DE 44 25 307 A1 is known. In doing so, the cable connected to the battery terminal blown off when igniting a pyrotechnic active material. Another pyrotech African fuse is a copper bar that conducts electricity by means of a non-conductive Cutting wedge cut through by the pyrotechnic active mass driving the cutting wedge is ignited. A circuit breaker is known from DE 196 06 447 A1, in which two pyro interconnected conductor sections via a press fit technically separated from each other.

The technical effort is quite high due to the pyrotechnics, since the release agent ge suitably stored and the hot pressurized gas released during the explosion is appropriately discharged must become. In addition, the cost of properly igniting pyrotechnic igniters and effective masses are not insignificant. A detachable battery clamp is also from WO 96/33078 A1 known.

Furthermore, a switch is known in which a divided busbar by means of a Servomotor can be opened or closed. The effort for a servomotor is Quite high.

Another concept is based on a thermal charge, which is in a high temperature resistant Ceramic body can be ignited via an igniter and temperatures of approx. 2000 degrees Celsius arise, resulting in a current passed through the ceramic body conductive copper bar is melted. The liquid copper requires one  high temperature resistant ceramic body as it is captured at the bottom of the ceramic body must become. The effort is quite high.

DE 296 01 462 U1 describes an arrangement for actively protecting a battery connected main power line known. The pole terminal is in the form of a Pliers pole shoe with two pliers jaws that are under tension and are held together with a toggle clamp on the pole piece. The Toggle clamp is secured with a fuse. When Overflow will melt the fuse, the toggle clamp will be free given and the pliers jaws of the pliers pole shoe open and detach from Pole shoe of the car battery. With this type of backup, the separation of the thermal fuse due to the mechanical preload of the jaws supported, but this securing element is also a purely passive securing element, since the thermal fuse is only cut through its own heat.

From US 5,192,937 a thermal fuse is known with a current through it Resistance attached to a heat protection plate. The resistance carries his Heat on the heat protection plate. The heat protection plate is with spring elements over a Contact zone electrically contacted. If the Heat protection plate melt the connection zones and the spring elements come off the heat protection plate and thereby disconnect the consumers from the power supply. The heat protection plate causes a relatively large thermal inertia Security system, which hinders a quick response of the fuse element is. The securing element is also a passive securing element and works on the self-heating principle. The securing element therefore has the disadvantages of passive Securing elements with regard to speed and reliability.  

A fuse is known from US Pat. No. 5,097,247, which is fast and safe Trying to trigger the fuse by adding superplasticizers. The Flux supports the melting and drainage of the melt that occurs when the fuse melts due to its own heat.

EP 0 828 269 A2 discloses a dual-function fuse, in which one in one Circuit electrical fuse by means of a spring from the circuit ge is disconnected when a thermal fuse trips. The thermal fuse exists from a fusible holder for the spring, which when melting the holder is released and the electrical fuse disconnects from the circuit. The thermal Fuse is passive and only responds to the ambient temperature.

The object of the invention is to produce one that is as simple and inexpensive as possible Specify a fuse that enables targeted activation via a disconnect signal.

This object is solved by the features of claims 1 or 2.

Advantageous further developments describe the subclaims.

The basic idea of the invention is to establish a direct or indirect connection by means of a electrically conductive, at a temperature well above an ambient temperature to create a separating connection, in particular by means of a solder medium, which melts at lower temperatures than, for example, the copper bars when on a separating signal towards a heating element is activated.

For compounds that are at a temperature significantly above an ambient separate temperature, for example adhesives or soldering agents, at lower temperatures melt melt, there is in principle the possibility that this by own melting warming. However, this can be done with a sufficiently large contact area the connection is checked and avoided if necessary. The separation of the Connection by self-heating, for example melting the solder medium, can lead to additional protection can be used if the heating element fails.

In addition to the direct connection of the two line sections, there is also an indirect one Connection extremely advantageous, in which the line sections via an electrical  conductive contact bridge are connected to each other, the contact bridge with each such a connection is attached to the line sections.

In order to accelerate the separation of the line sections when melting and to make it particularly safe, it proves to be very beneficial to one or both Line sections when connecting to tension or with a spring element to act on the contact bridge, so that a counteracting force with the separation of the connection, in particular when melting the soldering medium, is released and the line sections or the contact bridge quickly from each other separate.

The heating element can be due to the good electrical and thermal Conductivity of the current conductors also on a line section or the contact bridge be arranged and act indirectly through heat conduction on the connection (s).

By running a heating resistor as a sheet resistor as the heating element, the is electrically conductively connected to one of the line sections or the contact bridge, can be activated by a single additional connection by using a switching means controlled to the isolating signal is switched to a voltage potential, which compared to the voltage potential occurring on the line sections has a sufficient potential difference. This is, for example, with automotive batteries, which to be secured by such a fuse, particularly easy to realize, since a line section is connected directly to the positive pole and thus only the heating element must still be switched to ground to activate it.

The invention is explained in more detail below on the basis of exemplary embodiments and figures explained. Brief description of the figures:

Fig. 1 Electrical fuse with heating element, each mounted in a contact bridge over the Lotmedium to the two line sections is

Fig. 2 Electrical fuse with heating element, in which the line sections are connected directly to one another via the solder medium.

In both of the embodiments shown, a solder medium has been preferred as electrical conductive, at a temperature well above an ambient temperature disconnecting connection described. In principle, of course, are yourself adhesives which displace at higher temperatures with metallic particles or equivalent configurations of these electrically conductive, clearly at one temperature above an ambient temperature, the compound separates from the effect principle includes.  

Fig. 1 shows an electrical fuse between a positive pole ⊕ and subsequent assemblies 5 to ground out in the two lead portions 2 a and 2 b are indirectly connected to each other via a contact bridge 4, wherein the contact bridge 4 via the Lotmedium 1 at the respective line sections is attached. On the contact bridge 4 , a heating element 3 made of a sheet resistance material is arranged in an electrically conductive manner. The heating element 3 is contacted on the side facing away from the contact bridge 4 with a spring contact 7 , which on the one hand connects the heating element 3 electrically to the ground via the switching means 6 , and on the other hand exerts a spring force effect on the contact bridge 4 , which leads to the melting of the solder medium 1 the contact bridge 4 is safely separated from the two line sections 2 a and 2 b. The conductor sections 2 a and 2 b are locked in clamps 8 , for example the housing, in order to absorb the force effect of the spring contact 7 .

The heating element 3 acts indirectly by heat conduction in the contact bridge 4 to the Lotmedium first

Tin is used as the solder medium in this exemplary embodiment, so that heating to about 300 degrees Celsius is sufficient, and to melt the solder medium and to disconnect the electrical connection. This temperature can also be reached in a relatively short time via a relatively low-resistance sheet resistance and can be conducted to the solder medium via a very good heat-conducting contact bridge 4 made of copper.

Fig. 2 shows an electrical fuse with a heating element 3 as a separation device, in which the line sections 2 a and 2 b are connected directly to one another via the solder medium 1 . The line sections 2 a and / or 2 b are soldered under tension that counteracts the contact, so that the line sections 2 a and 2 b are reliably separated from one another by the tension when the solder medium is melted. Again, the conductor portions 2 a, 2 b mechanically clamped (brackets 8). The heating element 3 is arranged on the back of the line section 2 a, which is connected to ground via the assembly 5 . If the connection via the solder medium 1 is released in response to the disconnection signal after the switching means 6 has been closed, the heating element 3 is also switched off automatically.

Claims (6)

1. Electrical fuse, in particular for motor vehicles with at least two current-carrying line sections ( 2 a, 2 b), which are connected to one another via a thermally separable connection ( 1 ), with at least one heating element which can be controlled by a switching means ( 6 ) in response to a separation signal (3) for melting of the active compound (1), characterized in that the two line sections (2 a, 2 b) are braced on the compound (1). 2. Electrical fuse particular for motor vehicles with at least two conductive line portions (2 a, 2 b), which are connected via a thermally separable connection (1) indirectly to one another, with at least one through a switching means (6) towards controllable to a release signal heating element (3) for actively melting the compound (1), characterized in that the line sections (2 a, 2 b) are indirectly connected by a contact bridge (4) and has a spring element (7) on the contact bridge (4). 3. Electrical fuse according to claim 1 or 2, characterized in that the connection ( 1 ) is a solder connection. 4. Electrical fuse according to claim 1 or 2, characterized in that the connection ( 1 ) contains a tin-containing solder medium. 5. Electrical fuse according to claim 4, characterized in that the heating element ( 3 ) is designed as a sheet resistor, on the one hand

• a) with one of the line sections ( 2 a, 2 b),
• b) directly or with the solder medium ( 1 )
• c) is in electrical connection with the contact bridge ( 4 ),

and which, on the other hand, is switched via a further connection to a voltage potential, in particular the ground potential, which is sufficiently different from the voltage potential occurring at the line sections, when the switching means ( 6 ) connected between the heating element ( 3 ) and the voltage potential (⊕) on the separation signal is closed. 6. Use of an electrical fuse according to one of the preceding claims for securing a motor vehicle battery against short-circuit discharge, the current flowing away from the battery being permanently monitored by means of a current measuring device and the separation signal being set and the connection ( 1 ) severed when at least a predetermined size is exceeded becomes.