DE7809564U1 - HIGH LOAD WIRE RESISTANCE - Google Patents

Description

The invention relates to a high-load wire resistor, in which a wire resistor element in a through hole a ceramic housing is used and a connection via a Fuse returned to the area of the other connection is.

A wire resistor with a high load capacity, i.e. a resistor that is designed for relatively high temperatures, can be used for electrical circuits mean a danger if the overload leads to a temperature increase at which the permissible Values are exceeded. Protection against overload is possible in two ways:

Current limit "^
Temperature limit.

In the first case, a current limiter is connected in series with the resistor, which starts from a certain current value for a Power interruption. The disadvantage, however, is that different « Resistance values below fuses or current limiters must be assigned.

The high-load wire resistance mentioned at the beginning falls under the second case. This is between one lead wire end iind a bracket designed as a spring is provided with a soldering point, which melts when the temperature of the resistor exceeds a predetermined value for a predetermined time. With the Melting the solder joint separates the spring-like retaining clip

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by snapping back into its rest position, so that the electrical connection is interrupted. Although this can be known
Resistance can be seen as an advantage that after the "thermal fuse" has responded, a connection can be re-established by re-soldering the connecting wire and the holding rod. Strict safety regulations, however, no longer permit fuses that can be repaired by soldering, because this means that fusible link alloys can be used that are higher than this
Melt temperature as intended.

The invention is based on the object of a high-load wire resistor indicate whose fuse responds reliably, but makes a repair very difficult or even impossible.

This object is achieved according to the invention in that the
Ceramic housing in a known manner an eccentric bore
has, through which a connecting wire is returned and the returned connecting wire from a melting point from 623 K
Alloy.

High-load wirewound resistors with a wire resistance element ^{arranged in a through-hole in a ceramic T} housing, in which a connecting wire is fed back through an eccentric hole in the ceramic housing, are known in principle (DE-PS
1 h65 h-, 6). However, protection by means of electricity or temperature limitation is not provided.

In the high-load wire resistor according to the invention, the back-

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The lead wire selected as "fuse ¹ ', which does not limit the current, but responds to the temperature in the ceramic housing. When the dralite resistor element heats up, the lead wire that is returned also heats up. If the temperature exceeds a specified limit, the lead wire that is returned will reach its limit highest temperature and melts. Experience has shown that the highest temperature (hot spot) occurs at about two thirds of the resistance. With the correct selection of the alloy with the correct melting trajectory, the connecting wire suddenly melts over a certain distance, the length of which depends on The point in time at which the temperature falls below the limit. Above and below the Schinelz stretch, the returned connecting wire remains largely rigid. Therefore, no molten material falls on the board stand stable.

Because of the fuse built into the off-center hole, the user has no choice but to use the resistance removed and replaced with a new one if the fuse has responded.

ι Since, as mentioned, it is not a power fuse, is the described function of the resistor according to the invention uncritical with regard to the wire diameter. In addition, the fuse function is sluggish, which is the case with high-load wirewound resistors is always desired. Short-term impulsive overloads should

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does not immediately lead to a failure of the resistor.

An exemplary embodiment of the invention is based on the following described in more detail by drawings.

Fig. 1 shows the view of an end face of a ceramic housing for a high-load wire resistor according to the invention.

Fig. 2 shows in perspective part of the wire resistor according to the invention.

Fig. 3 shows a section through the resistor according to Fig. 1 along 3-3,

A substantially cuboid elongated ceramic housing 1 has a central through-hole 2 and four eccentric through-holes 3 of smaller diameter, which are arranged in the corner areas and whose axes otherwise run parallel to the axis of the central through-hole 2. On two opposite sides, wedge-shaped grooves k are formed in the longitudinal sides of the ceramic housing. For the invention, however, they are of no importance.

The through hole 2 receives a wire resistance element 7, which is of known type and therefore not be described in more detail target.

The wire resistance element 7 has two connecting wires 5 Ond. 6, the connecting wire 6 being led back parallel to the connecting wire 5 via one of the eccentric bores. According to the invention, the connecting wire 6 is made from an alloy which ^{melts from 623 0 IC}

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formed »Since the highest temperature in the ceramic housing occurs at around two thirds of the height of housing 1 (in the drawing seen from the end face shown), it is ensured that in the event of an overload, the connecting wire will melt always takes place within the eccentric through-hole 3.

The accommodation of the fuse within the ceramic housing has in? remaining the advantage that a temperature influence by the environment, for example due to air currents of different strength and temperature, or the like, almost disappears. The connecting wire 6 thus responds essentially only to the temperature developed by the wire resistance element 7 itself will.

Claims (1)

PATE NTAN WALTE DR.-iNG. H. NEGEXDaNK <-iot:>) · mi>i.-I.Vci.'H.'EtATJCK · DIPL.-PHVS. AV. SCHMITZ Dii> L.-iNG. E. GRAALFS; jiri ..- i> .o. V. ^7. -WER'N.ERT · dipl.-phys. Λ \ ⁷ . CARSTENS Hamburg -Munich -E- üssELiJORF Dr.-Ing. ¥. Döring PATENT LAWYERS NEW WALL il 2000 HAMBÜS3 36 German Vitrohm GmbH & Co. KG Siemensstr. 7-9 2080 Pinneberg DELIVERY ADDRESS / PLEASE REPLY TO: 2000 HAJIBUHG 36 ■ NEW WALL 4J TELEPHONE (040) 30 74 2S UXD 30 41 15 O (J ^ y ΤΕι, ΕΧ 0 211709 INPAT 1> CABLE NEGEDAPATENT HAMBUHG 8000 MUNICH 2 MOZ ARTSTR ASSE 23 TELEPHONE (080) 3 3S 05 80 AND 33 21 80 CABLE NEOEDAl ¹ ATEXt MUNICH 4OOO DÜSSELDORF 11 - K.-WILH.-RING 11 TELEPHONE (0211) 57 50 27'2S TELEX S3 81 3SO IJYNA T) CABLE NEGEDAPATENT DÜSSELDORF Hamburg, March 30, 1978 High load-Dr all twiderst and Protection claim ; High-load wireframe resistor in which a wireframe resistor «? · Element in a through hole of a ceramic housing is inserted and a connecting wire via a fuse in the area of the other connecting wire is fed back, characterized in that the ceramic housing (i) in a known manner a has eccentric through-hole (3) through which a connecting wire (6) is fed back and the connecting wire fed back (6) consists of an alloy that melts from 623 ° K. 7809564 17.0878