DE955968C - Electrical thermal contact - Google Patents

Description

The invention relates to an electrical thermal contact which interrupts a circuit. Of the Contact is activated by heating and does not return to its initial position after cooling back, but remains in its position after triggering, so that at the same time a registration associated with it. It differs from the already known thermal contacts by its, Construction and the versatility of its application. The construction is simple and only requires little space and low cost. It can be used both to trigger and to interrupt processes, can be used to register and record a switching function.

According to the invention this is achieved in that one at the free end with an insulation and one bare contact tip provided spring is provided, which consists of a circuit via a lamella semiconducting material closes and which presses the contact tip on this lamella, so that when it occurs an overcurrent and the resulting heating of the contact point between Contact tip and semiconducting material, the lamella melts or burns at this point Contact tip then through the lamella and through a correspondingly large opening of the as a return conductor serving housing occurs and thereby the aforementioned circuit is interrupted.

The invention is explained with reference to the figures. It shows

Fig. Ι the principle of a registration device with a large number of thermal contacts the invention,

Fig. 2 and 3 individual thermal contacts for special purposes,

4 shows a particularly advantageous application example of the invention.

ίο In Fig. ι a column base 4 made of insulating material is shown, in which a number of contact coil springs ι is attached. Each contact spring has a soldering lug i _c and a contact tip i _a . The sides of the contact tip are covered with insulating material i &, but its contact tip is bare and is in contact with a lamella 2 of the semiconducting material. The lamella 2 is pressed by the springs 1 against a holder or a support 3 which is provided with an opening 3 _O directly under each contact tip i _e . The holder 3 is designed as a housing that is screwed to the column base 4 and protects the springs: c. In the base 4 there is an auxiliary pin 3 _6, which comes into conductive contact with the housing 3 when this is fitted. The semiconducting material of the lamella 2 also has the property that it is damaged when heated to a certain degree or changed in such a way that it allows the contact tip to easily pass through. The lamella 2 serves as a support for all springs 1 in the normal state and is designed so that the rest point of each spring is determined beforehand before the lamella is installed in the housing 3 and this is placed on it.

Circuits can then be closed by the contact springs i, the lamella 2 and the holder 3. If a sufficiently high voltage is applied between, for example, the terminals i _c and 3j, the lamella 2 is heated at the contact point above the opening 3 _a and loses its mechanical strength, so that the contact tip i _a penetrates through the lamella 2 ', whereby the Current is interrupted as a result of the insulating layer i _{b located on the contact tip.}

The thermal contact furthest to the left in the drawing is in the state after it has been triggered shown.

In Fig. 2, the contact spring 1 is a leaf spring. Your contact i _a protrudes vertically from the spring and is pressed against the lamella 2, which _{covers the opening 3 a} in the holder 3. The lower part of the contact i ″ is coated _{on the sides with an insulating material I 6.} A metal spring is arranged under the holder 3. The contact spring 1, the holder 3 and the metal spring 5 are fastened in a column base 4. The thermal contact has been developed as a surge arrester and is normally traversed by a weak current that cannot heat the lamella 2 to a dangerous temperature. A permanent or substantial increase in voltage causes the lamella 2 to be destroyed and the contact i _{a is pressed} through the hole 3 _a against the spring 5, which is assumed to be connected to a signaling device. 6g.

The thermal contact according to FIG. 3 is developed for a trip arrangement. A spring 6 presses against the contact spring-1, which in turn presses its contact i _a against the lamella 2 and the holder 3. The spring 6 triggers a function, e.g. B. the interruption of an electrical contact or the triggering of a mechanical stop when the lamella 2 breaks. If a current pulse flows through the contact spring 1, the lamella 2 and the holder 3, the contact spring will interrupt the current after penetrating the lamella 2, and the spring 6 also interrupts its circuit or causes a mechanical release.

Figure 4 is a schematic illustration of how the invention can be used to control connection devices in subscriber telephone systems. In the figure, A is a telephone set in a group of telephone sets, and S ₁ to S _n are a number of call seekers with associated relay sets N ₁ to N _n . In the case of calls, the apparatus A is connected to a relay set N ₁ to N _n by means of one of the call seekers S ₁ to S _n . A thermal contact T ₁ to T _n in an arrangement according to FIG. 1 belongs to each relay set JV ₁ to N _n. B. N ₁ is used, a circuit is closed by the thermal contact T ₁ , which burns a hole in the lamella B. If the call seekers S ₁ to S _n are checked daily, the lamella B is changed every day, and each lamella then shows a perforation at each contact. If there is no perforation, there is reason to believe that the corresponding call finder has been disabled as a result of an error. The slats can be made from paper pulp mixed with powdered charcoal. The side of the lamellae which faces the holder 3 is coated in a suitable manner with a metallization.

Claims (5)

PATENT CLAIMS: 1. Electrical thermal contact, characterized by a spring (1) provided at the free end with insulation (i ₆ ) and a bare contact tip, which closes a circuit via a lamella (2) made of semiconducting material and which presses the contact tip onto this lamella, so that when an overcurrent occurs and the resulting heating of the contact point between the contact point and semiconducting material, the lamella melts or burns at this point, which then passes through the lamella and through a correspondingly large opening (3 _a ) as a return conductor serving housing (3) occurs, and thereby the aforementioned circuit is interrupted. 2. Electrical thermal contact according to claim i, characterized in that the Contact spring is a helical spring, one end of which is protruding from the spring Contact forms. 3. Electrical thermal contact according to claim ι or 2, characterized in that at least one spring device (6) is provided, which on the contact spring (1) of the Thermal contact rests and relaxes when the lamella (2) is pushed through (Fig. 3). 4. Electrical thermal contact according to one of claims 1 to 3, characterized by one of the holder (3) of the lamella (2) insulated metal plate (5) with which the contact spring (1) comes into contact when the contact part of this spring (1 ) passes down through the opening (3 _a ) of the holder (3) (Fig. 2). 5. Electrical thermal contacts according to claims ι to 4 when used for the control of connecting devices in self-connecting telephone exchanges, characterized in that a lamella (2) made of semiconducting material, which _{serves all thermal contacts (T 1} to T _n ) of the arrangement together as a current return conductor, is provided, furthermore a contact located in each connection device (N ₁ to N _n ). which with a certain switching function of the connecting device (2V) closes a circuit via the thermal contact assigned to the connecting device, so that a hole is burned in the common lamellar diagram at a certain point corresponding to the connecting device and the circuit is interrupted. 1 sheet of drawings G 609 546/360 6.55 (609 742 1. 57)