PL200064B1 - Electrical switching device - Google Patents

Abstract

The invention relates to an electrical switching device comprising a first contact point (11) which can be shifted by an electromagnetic actuator into an open position in the event of a short circuit; a second contact point (19) which is mounted in series with the first contact point and is opened, and maintained in an open state, by a first thermal circuit breaker by means of a switch latch; and a parallel current path (15) which is arranged parallel to the first contact point (11), and in which a current-limiting resistance (16) is arranged. The current-limiting resistance (16) is embodied as a resistance body consisting of doped ceramic material having a temperature coefficient which is constant or negative.

Description

The subject of the invention is an electrical switch, in particular a main switch.

A known circuit breaker of this type is shown in DE 28 54 711. The circuit breaker comprises a first contact to which a current path parallel with a current limiting resistor is connected.

A system of this type was developed by ABB Stotz-Kontakt GmbH of Heidelberg in the form of a main switch S 700. In this case, the resistor is a resistive wire made of, for example, CrAl255, Cu or other alloys, the wire being coiled into a coil occupying a sufficiently large area due to its shape and the required resistance value. A coil of this type creates a strong magnetic field, which causes the coil to be wound in opposite and parallel directions, which is very complicated. When using uninsulated wires, the coil must be wound on a frame that is resistant to high temperatures to prevent the windings from attracting each other when a current is applied, causing the winding to short-circuit. If the conductor resistance is insulated, expensive materials that are difficult to handle, such as, for example, glass silk, are used as insulating elements.

The object of the present invention is to provide a switch of the type with which the drawbacks of the known system are avoided.

An electrical switch provided with a first contact which is moved to the open position by an electromagnetic actuator in the event of a short circuit and a second contact which is connected in series with the first contact and is permanently open via the first thermal release, via a switching mechanism, further having a parallel current path which is arranged parallel to the first contact and in which the current limiting resistor is located, according to the invention is characterized in that the current limiting resistor is formed in the form of a resistor body which is made of a doped ceramic material having a constant or negative temperature coefficient.

It is preferred that the strips that extend perpendicular to the inner surface of the housing are integrally formed on the inner surface of the wide portion of the housing and, while the housing is assembled, define a space in which the resistor body is positioned and held.

It is preferred that at least one of the leads connecting the resistor body to the parallel current path is formed by a spring contact.

It is preferred that the metallized faces of the resistor body are soldered to the conductive parts of the connector.

It is preferable that the resistor body is cylindrical, tubular-cylindrical, cube or cuboidal.

The resistor body, made of doped ceramics having a constant or negative temperature coefficient, according to the invention is arranged in a parallel current path which is connected in parallel with the first contact.

This avoids the use of coiled resistive wires with all the known drawbacks, moreover, the resistor body requires less space in the connector.

The resistive material to form the resistor body is widely available and is made of a mixture of clay, aluminum and carbon which is then sintering whereby it is compressed into its final shape.

When the circuit breaker is provided with a shell having two shell halves, the shell halves having strips that run perpendicular to the inner broad-face surface and which, while the shell halves are joined, delimit the area in which the resistor body is positioned.

The subject of the invention will be explained in detail in an embodiment in the drawing, in which fig. 1 shows an electric circuit breaker, fig. 2 - part of the circuit breaker from fig. 1 in section along the line II-II, fig. 3 and 4 - two alternatives for making a contact with body, and Fig. 5 is an electrical schematic diagram of the switch arrangement.

As shown in Fig. 1, the switch has a housing 10 which is shaped like a cap for the lower part of a casing or cover, or two approximately identical socket halves. The first contact 11 has a fixed contact portion 12 and a movable contact portion 13 disposed inside the housing 10. The movable contact portion 13 is provided on a contact lever 14 which is rotatably supported by an electromagnet while a short circuit occurs, causing an opening. contact pins 11. The pin 11 is connected to a parallel current path 15 in which the resistor body 16 is housed. When the contact pin 11 is opened, an arc is formed which travels into the arc branch stack 17. Moreover, the current is commutated in the second current path 15 and limited by the electrical resistance of the resistor body 16.

The equivalent electrical circuit of the connector is shown in Fig. 5. The first contactor 11 and the second contactor 19 are placed in the main current path 18. Parallel current path 15 in which the resistor body 16 is located is connected in parallel with the first contactor 11. The selected bimetallic strip 20 not shown in Fig. 1, is electrically connected in series with the resistor body 16 and acts on a switch mechanism 21, shown in Fig. 1, which is equipped with or connected to the toggle lever of the switch 22. A second bimetallic belt 36, which also does not shown in Fig. 1, it is in the main current path 18. This bimetallic belt 36 also acts on a switch mechanism 21 which is connected to the second contact pin 19 via line of operation 23.

The lines of influence of the bimetallic belts 20, 36 on the switch mechanism are indicated by reference numerals 24, 25.

Figure 2 shows a section along line II-II of Figure 1. The housing 10 is in this case formed by a cap-shaped lower housing portion 10a, and the cap-shaped housing upper portion 10b on which the integral strips 26 are respectively formed. 27, 28 and 29 as shown in Fig. 1. The strips 26 to 29 form a space 30 in which the body of the resistor 16 is located.

The contact is formed by the resistor body 16 by means of flat ribbon leads 31 and 32 which form a parallel current path and are shown in more detail in Figures 3 and 4.

In the embodiment shown in Fig. 3, the conduit 31 is in the form of a straight piece, the conduit 32 in the region of the contact surface 16a with the resistor body 16 having a section 33 which is convex with respect to the contact surface 16a.

In the embodiment shown in Fig. 4, instead of a straight wire 31, a wire 31a is provided which has a convex section 33a with respect to the contact surface 16b with the resistor body 16.

At least one of the two conductors 31, 32 is preferably a spring contact. In the embodiment shown in Fig. 3, the spring contact is the wire 32, while in the embodiment shown in Fig. 4, the wire 31a is also spring contact.

As can be seen in Fig. 1, the conductor 32 is shaped to lock the resistor body 16 with the arc link 34 and the folded edge 35.

The material used in this case, as indicated above, has a temperature coefficient that is approximately constant or slightly negative. The reason for this is explained below:

When the circuit breaker shown in Fig. 5 is intended to break a short circuit, first contact 11 is opened by a magnetic release 40, more specifically via line of operation 41. In this case, the current is then switched to the parallel current path and limited by the resistor body 16. and contact 19 remains closed. The current limited by the resistor 16 flows through the coil 40 and thus keeps the contact 11 open. When the short circuit is subsequently disconnected in the circuit breaker, the short circuit is then disconnected, the first contact 11 closes. When the current is not disconnected, the bimetallic belt 20 or 22 is heated and as a result disconnects the contact 19.

In a resistor body 16 having a positive temperature coefficient, the current will be limited to such an area that the release armature 40 automatically turns off and the contact 11 closes, which would be undesirable. According to the approximately constant or negative temperature coefficient, the current through the retarder 40 remains the same or increases slightly, whereby the contact can be kept open for a sufficiently long period of time.

As already mentioned, the resistor body can be made of ceramics with an admixture of carbon. It is also possible to use silicon carbide with an admixture of carbon. In addition, the resistor body 16 may also be admixed with some conductive material. Additionally, the resistor body may have any desired shape, for example a cylinder, a hollow cylinder, a cube or a prism.

Moreover, it should be noted that if the end faces of the resistor body 16 are metallized, the portions of the conductor 31 and 32 are directly soldered.

Claims (5)

1. An electrical switch, provided with a first contact that is moved to the open position by an electromagnetic short-circuit suppressor, and a second contact that is connected in series with the first contact and is permanently open via the first thermal release, via a switching mechanism, furthermore having a parallel current path which is arranged parallel to the first contact and which has a current limiting resistor, characterized in that the current limiting resistor (16) is formed in the form of a resistor body which is made of a doped ceramic material having a constant or negative temperature coefficient. 2. Connector according to the enclosure The method of claim 1, characterized in that the pass (26,27,22 ° C, 29) that extend perpendicular to the inner surface of the housing (10) are integrally formed on the inner surface of the wide portion of the housing (10) and define a space (10) while the housing (10) is assembled. 30), in which the resistor body (16) is placed and held. 3. The connector according to 2, m, that at least (one of the wires (31, 32) connecting the resistor body (16) to the parallel current path (15) is formed by a spring contact. 4. Connector according to claim The method of claim 3, characterized in that the metallized surfaces of the resistor (16) are soldered to the conductive parts of the connector. 5. Hyphen according to the principle. A method according to claim 4, characterized by t ^ i ^, that ktoi ^ p ^ and ^^ (16) (ess cylindrical, tubular-cylindrical, cube or cuboid.