EP1820199A1

EP1820199A1 - Switching device comprising a temperature-dependent resistor for quenching an arc

Info

Publication number: EP1820199A1
Application number: EP05819352A
Authority: EP
Inventors: Michael Hahn
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2004-12-06
Filing date: 2005-12-06
Publication date: 2007-08-22
Also published as: WO2006061375A1; DE102004059097A1

Abstract

The aim of the invention is to be able to more securely quench an arc with simple means when switching off a switching device. Said aim is achieved by disposing a resistor mechanism (14) whose resistance increases as the temperature rises, between a stationary contact (1) and a movable contact (2). In case of an arc, the current runs from the movable contact (2) to the stationary contact (1) via the resistor mechanism (14), or vice versa. The resistor (14) heats up with the aid of the current flow, whereby the resistance value increases, too, such that the voltage stress of the contact gap decreases and the arc is easier to quench.

Description

description

Switching device with temperature-dependent resistor for extinguishing an arc

The present invention relates to a switching device with a fixed contact and a movable contact, between which an arc can occur when switching off the switching device.

Arc chambers in low-voltage switchgear have a limited extinguishing effect. This depends on a given switching device usually only on the height of the arc voltage and the current. The extinguishing effect is particularly critical when used in the upper voltage levels of the low voltage range (690 V, 1000 V, IT networks, etc.). Due to the increasingly limited installation space of low-voltage switchgear, the requirements for the extinguishing capability of such systems are increasing.

When used for higher voltages usually the arc chamber volume of the switching devices are increased. An alternative to this is to increase the number of quenching plates in today's conventional arc extinguishing systems.

From the patent DE 101 18 746 B4 a method for operating a switching device with a switchable current limiter is known. The circuit breaker or contactor described therein has at least one main flow path and an associated secondary flow path. The switchable current limiter ^¬ enables switching at high current load of a non-current limiting mode to a Strombegren ^¬-cutting operation. The provision of the current limiter takes place at a Rückkommutierung of the arc from the secondary flow path to the main flow path.

European Patent EP 1 192 628 B1 furthermore discloses a switch contact arrangement of a low-voltage

Circuit breaker with a fixed and a bewegba ^¬ ren contact group each consisting of a main contact, an intermediate contact, a breakaway contact and a Lichtbo- genhorn known. By a special arrangement and design of components of the switching contact arrangement results in an advantageous, triple contact.

The object of the present invention is to erase arcs in switching devices safer.

According to the invention this object is achieved by a switching ^¬ device with a fixed contact and a movable contact or contact package and a resistance device whose resistance increases with increasing temperature and which is connected to one of the two contacts, so that in the case of an arc, the current from the movable Contact via the resistance device to the fixed contact or vice versa runs.

In the case of the occurrence of an arc, the resistance of the resistance ^device increases due to the heat-generating current flow. This increases the voltage drop across the Wi ^¬ resistance too and does the voltage stress on the switching path from. The arc is thus easier to extinguish.

Preferably, the resistance device is firmly connected to the fixed contact. Thus, the movable contact without Be made effort for connection technology, so that its life increases.

The resistance device can be designed as an arcing stub. This makes it possible to dispense with a resistor as an additional component, since the arc guide is usually present in a switching device anyway.

Alternatively, the resistance device can also be arranged between an arc guide and the fixed contact.

An advantage of this embodiment is that the material of the resistance device and that of the arcing stirrer can each be selected optimally for the corresponding function.

The present invention will now be explained in more detail with reference to the accompanying drawings, in which:

1 shows a sketch of a section of a switching device according to the invention according to a first embodiment;

2 shows a sketch of a section of a switching device ge ^¬ Mäss a second embodiment of the present invention;

FIG. 3 shows an equivalent circuit diagram of a ^switch according to the invention in the ON state; FIG.

4 shows an equivalent circuit diagram of the switch during the switch-off; and

5 shows an equivalent circuit diagram of the switch during the light ^¬ arc duration. The embodiments described in more detail below represent preferred embodiments of the present invention.

According to FIG. 1, a switching device according to the invention has a fixed contact 1 and a movable contact 2. The fixed contact 1 has a fixed main contact 11, a fixed break-off or burn-off contact 12 and a stationary arcing horn 13. Between the fixed arc horn 13 and the stationary arc Intermediate contact 12 is a temperature-dependent resistor 14. Its resistance increases with increasing temperature.

The movable contact 2 in turn consists of a bewegli ^¬ Chen main contact 21, a movable Abbrandkontakt 22 and a movable arcing horn 23. The movement of the movable light contact 2 is a bolt 24, which also moves away in the horizontal direction of the fixed contact 1 when opening the switch becomes.

An alternative embodiment is shown in FIG. The movable contact 2 is unchanged from the embodiment of FIG. However, is here no need for a temperature-dependent resistor as a separate component and a stationary arcing horn 15 is made of the temperaturab ^¬ dependent resistive material. In this case, the fixed arc horn 15 is attached via the Abbrandkontakt 12 directly to the fixed contact 1.

In the closed state of the switch, the current flows through the movable contact 2, the main contacts 11, 21 and the fixed contact 1 or vice versa. When opening the switch will initially made contact of intermediate contacts, so that the main contacts 11 and 21 can open arc-free. During the further opening process, the Abbrandkontak- te 12 and 22, until finally these also separate and between them an arc, each with one foot of the arc horns 13 and 23 is formed. This opening process is described in detail in the above-mentioned document EP 1 192 628 Bl.

The respective resistance element 14 or 15 has a comparatively low resistance in the cold state. In consequence ^¬ the commutation of the arc root and the current flowing therethrough is not obstructed by the contact area on the belonging to the extinguishing system fixed arcing horn. 13 Especially in the range of higher currents up to the maximum switching power results from the self-heating of the resistive element due to the current flowing through it arc current an additional voltage drop. This additional to ^¬ voltage drop increases the overall voltage consisting of arc voltage and voltage across the resistor with otherwise identical arc chamber geometries.

The movable contact 2 may consist of a single or several ^¬ ren individual contacts or contact fingers. In the case of multiple contacts results in a corresponding movable contact package.

3 shows a simplified equivalent circuit diagram of the switch in the state ON again, in which the main contacts are closed. This equivalent circuit is a series scarf ^¬ processing of the following resistances:

31: Resistance of the upper terminal, ie the fixed contact 1 32: Contact resistance of the main contacts 11 and 21 33: Resistance of the contact lever, ie the movable contact ^¬ stroke 2

34: resistance of the power cables 35: resistance of the lower connection

The current cables and the lower terminal are not shown in the off ^¬ sections of Figures 1 and 2.

During the breaking touch one another to a limited hours ^¬ th time only the arcing contacts 12 and 22. Among the ^¬ sem time results in the reproduced in FIG 4 club ^¬ fanned equivalent circuit diagram in which the contact resistance ^¬ stands in place 32 of the main contacts 11 and 21 of Resistor 36 of the still cold in this phase, integrated, temperature-dependent resistor and the resistance 37 of the Abbrandkontakte 12, 22 occur. Upon further opening of the switch comes according to FIG 5 between the resistor 37 of the Abbrandkontakte 12, 22 and the resistor 33 of the contact lever is still a resistor 38 of the arc itself added. During the arc ^duration , therefore, there is a series connection of the resistors 31, 36, 37, 38, 33, 34 and 35. It can readily be seen that the voltage at the temperature-dependent resistor 36 increases as the overall system voltage remains constant, and Consequently, the voltage stress of the switching path decreases, so that the arc can be easily deleted ge ^¬ . LIST OF REFERENCE NUMBERS

1 fixed contact 2 movable contact

11, 21 main contacts

12, 22 burn-off contacts

13, 15, 23 Arc Horns

14 temperature-dependent resistance

31, 32, 33, 34, 35, 36, 37, 38 resistors 24 bolts

Claims

claims

1. switching device with

- a fixed contact (1) and - a moving contact or contact package (2), s e c e n c ia e d e r c h

- Resistance means (14, 15) whose resistance increases with increasing temperature and which is connected to one of the two contacts, so that in the case of a Lichtgen- gene, the current from the movable contact (2) via the resistance means (14, 15) to fixed contact (1) or vice versa.

2. Switching device according to claim 1, wherein the resistance stand device (14, 15) fixed to the fixed contact (1) is connected.

3. Switching device according to claim 1 or 2, wherein the resistance device (15) is designed as an arc guide.

4. Switching device according to claim 1 or 2, wherein the resistance means (14) is arranged between an arc guide horn (13, and the fixed contact (1).