DE8223614U1 - Bimetal circuit breaker - Google Patents

Description

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Description:

The invention is based on a bimetal circuit breaker with the preamble of claim 1 specified features. Such a switch is known from DE-OS 27 19 329. If he as a result Overheating opens, then something that has been resiliently attached to the side of the contact spring is pushed in Holding arm under the inserted contact spring and prevent the contact spring after falling below the switching temperature due to the resetting bimetal element

is automatically lowered again and closes the switch again. Rather, it becomes out Safety reasons required and prescribed for many applications that an automatic The bimetallic circuit breaker must not be switched on again and switched on again may only be done manually by means of a separate actuation.

In the switch known from DE-OS 27 19 329, the restart takes place in that one the holding arm by means of a tool (e.g. by means of a screwdriver) or by means of a mechanical reset device permanently installed in the monitored device disengaged from the contact spring brings.

The disadvantage here is that when installing such a switch in the to be monitored

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Devices or device parts - mainly small electrical devices, built-in thermostats, Small motors, small transformers, kitchen and household appliances, etc. - an unsatisfactory one A compromise has to be made between contradicting demands: on the one hand For safety reasons, the circuit breaker must be as close as possible to the one to be monitored Heat source are brought up, but on the other hand it has to be because of the required manual reset be accessible to a mechanical actuator. !

The invention is based on the object of remedying this situation by means of a manually resettable one Bimetallic circuit breaker, its resettability.it does not have to be bought with installation problems.

This object is achieved by a switch with the features specified in claim 1. Advantageous further developments of the invention are the subject of the subclaims.

The resistance value of the ohmic resistor is adapted to the respective switching and Monitoring task of the circuit breaker selected so that when the circuit breaker is closed (undisturbed 3 operation of the monitored device) of the far

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Major part of the current flowing through the bimetal circuit breaker makes its way through the contact spring and the closed switch contacts take and only a relatively small part of the current flows through the resistor lying parallel to the switching contacts, so that the The ohmic heat generated in the resistor is insufficient for the bimetal element of the circuit breaker to heat up to its switching temperature.

On the other hand, the resistance value is to be selected so that when the switch is open the ohmic heat generated by the resistor as a result of higher current flow is sufficient to keep the bimetal element above its switching temperature and thus keep the switch open. The heating power required for this is typically on the order of a few watts; with a supply voltage of 220 V, suitable resistance values for the ohmic resistance are in the order of magnitude of 10 klZ. , e.g. between 5 kJOL and 25

The bimetal circuit breaker is reset by interrupting the power supply to resistance. In the simplest case, this can be done by pulling the plug or opening an already existing power switch take place; but it can also be a separate one for this purpose Interrupter switch may be provided. Such a switch can in principle be sent to any

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biger point of the device should be provided, so that there are no special installation problems for the Resettable circuit breakers arise. Because the circuit breaker is an electrical lead required in any case, this also means that there is no separate installation problem for the new type Circuit breaker. The switch according to the invention is different from other bimetal circuit breakers one that is easily resettable by electrical means - namely through a temporary power interruption bi-stable element and can therefore also be used to create logical connections will.

Suitable for the circuit breaker according to the invention especially thick-film resistors because of their flat design.

usually with a bimetal] circuit breaker the static switch contact and the contact spring with the movable switch contact on one side of an electrically insulating support. It is preferred to have the resistance in this case to be arranged on the other side of the carrier and in particular between the Resistance and the bimetal element or the contact spring on the other side of the carrier to provide an opening in the carrier, whereby the heat transfer from the resistor to the bimetallic element is facilitated.

The resistor is expediently attached directly] to the connection lugs or]

pins of the circuit breaker attached. In order not to complicate this attachment by dimensional deviations within a series and in particular by one ^! To facilitate automatic fastening, the connecting lugs or pins are advantageously initially fixed in one piece in the carrier, for example encapsulated with plastic, then separated, in particular in the area of an opening provided in the middle section of the carrier, and then on the separate connecting lugs or pins the resistor is attached by soldering, for example. The connecting lugs embedded in the carrier in this way always have the same positions relative to one another within a series, so that the connection points with the resistor can always be at the same points on the connecting lugs or pins.

Depending on the switching and monitoring task, the bimetal element can be the contact spring itself (e.g. if the circuit breaker is an overcurrent circuit breaker, which is connected to its Switching contacts monitoring current flowing), or a separate from the contact spring, but be an element acting on the contact spring. In the latter case, there is training of the bimetallic element is preferred as a snap-action disc because it has a particularly e-sharp definition

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having te switching temperature and causes a particularly large contact travel in the contact separation, which has a favorable effect both on the switching safety and lverlässigkeit to 7 of the opening hold the circuit breaker. But even with bimetal circuit breakers whose bimetal element is not a snap-action disc, the switching reliability is increased while avoiding undesired switching cycles when the slowly lifting moving contact piece responds, because the heating of the bimetal element is already increased when the switch is opened for the first time and the opening process of the switch is accelerated.

For the sake of completeness it should be mentioned that bimetallic switch, soft by an ohmic Resistance to be heated, from which DE-GM 79 923 are known; it is, however not about safety switches, but about thermal time switches, whose job it is is, after a switching process the timer after a determined by the heating power To address the time span. A bridging of the switch by the resistor is just as little described as its use to hold the switch open up to one arbitrary provision. A typical example of such a known application Time switch would be a staircase light switch,

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which after a predetermined period of time after switching on the light in the stairwell switches off again automatically.

The accompanying simplified drawing shows an exemplary embodiment of the invention. It deals around a section through the vertical longitudinal center plane of a non-encapsulated circuit breaker. (The invention can of course also be applied to encapsulated switches). In an electric one insulating flat carrier 1 are embedded two electrical connection lugs 2 and 3 with solder lugs 4 and 5. Punched out of the connecting lugs 2 and 3 and tongues 7 and 8, step-shaped raised and also embedded in sections in the carrier 1. Tongues 7 and 8 are level and parallel to the top 9 of the carrier 1, the connecting lugs 2 and 3 are at the height and parallel to the underside 6 of the carrier 1.

On the one "- <nge 8 is with one end a contact spring 10 is attached, which has a switching contact 11 at its movable end carries, which cooperates with a resting switch contact 12, which on the other tongue 7 is attached. Between hooks 15 at the front and back on the contact spring 10 and tabs 17 laterally a bimetallic snap disk 16 is loosely held on the contact spring 10.

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A thick-film resistor 18, which usually has the shape of a flat, coated ceramic plate, is arranged on the underside of the carrier 1.
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Its two rigid connection lugs 20 ,? Λ continue in opposite directions from the resistor and are soldered to the connection lugs 2 and 3 of the circuit breaker.

The carrier 1 has an opening 19 extending from bottom to top through which the ohmic heat generated in the resistor 18 to the contact spring 10 and to the snap disk 16 can get.

When the switch is installed and closed, the current flows predominantly via the Switching contacts 11 and 12 and only to a small extent via the resistor 18. Speaks however, the switch on and opens, then the current only flows through the resistor 18, this one heats up and gives so much heat to the snap disk 16 that it is above her Switching temperature remains as long as the current through resistor 18 is not interrupted.

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Claims (7)

DR. RUDOLF BAUER DIPL.-ING. KHLMUT KUBBUCH DIPL.-PHYS. ULRICH TWELMEIER WESTLICHE29 - 31 (AM LEOPOLDPLATZ) D-7530 PFORZHEIM iwest-germanY) ft (0 72 31) 10 22 90/70 · TELEGRAMS: PATMARK 03/18/1985 III / Be Limitor AG., Zurich (Switzerland) "Bi meta Il circuit breaker "protection claims: 1. Bimetal circuit breaker, which is opened by a bimetal element when a preselected temperature is exceeded and is held in the open state by an ohmic resistor which bridges the switch, characterized in that the resistor (19) is a thick-film resistor. 2. Bimetal circuit breaker according to claim 1, characterized in that the contact spring (10) with the movable switching contact (11) and the resting switching contact (12) of the bimetal circuit breaker are arranged on one side of an electrically insulating carrier (1). 3. bimetal circuit breaker according to claim 2, characterized in that the resistor (18) on the opposite side of the insulating support (1) is arranged and that this between the resistor (18) and the contact spring (10) is perforated. 4. Bimetal circuit breaker according to one of the preceding claims, characterized in that the bimetal element (16) is a snapshot. 10 5. bimetal circuit breaker according to claim 4, characterized in that the snap disk (16) by hooks (15), tabs (17) or the like. Holders is held on the top or bottom of the contact spring (10). 6. Bimetal circuit breaker according to one of the claims 1 to 3, characterized in that the contact spring itself is the bimetal element. 20th 7. bimetal circuit breaker according to one of the vorstenenden claims, characterized in that the Resistance (18) is attached to the connecting lugs (2,3) or pins of the bimetal circuit breaker. ' -M-