DE1588582C - Fuse - Google Patents

Description

3 4

ung, which are mounted on the housing 10 and conductive contact. Against this is the

each have contacts 31,32. mer 20 penetrating middle route 21 des

The circuit to be protected is not connected to the contact fuse wire 22 with the insulating body 17

e 31 and 32 connected by the melting touch. The insulating body 17 acts as a heat

I wire 22 are connected. If the current 5 is too high. When the wire flows through the

. Melts the wire 22 through, so that the circuit ßenden current is heated, the with the

'. is opened and the spring arms 25, 26 outwardly fe- insulating body in contact end parts of the

jern, as shown in FIG. The Fe wire not as hot as the middle part. Through this

; erarm 26 provides a contact at its free end, two advantages are achieved.

n't a stationary contact piece 33, which has an io first achieved in the event of a severe overload of the outside contact 34. As a result, the middle part of the wire, the melt-through temperature, closes an alarm circuit which is attached to the door rather than the end parts, so that the explosion occurs in moderately arranged contacts 32 and 34 connected line in the middle, ie in a narrow, en is. If more than one of these fuses is delimited, space is distant from both ends. When used together, they can all trigger the same 15 As the channel 19 is narrow and flat and the chamber alarm device. This can, for example, only be so large that it just touches the, e consist of a lamp or bell. It is wire 22 is prevented, this part of the wire. It is also important that an indicator is present, which is surrounded by only a small volume of air, so that the fuse has blown so that the explosion has only a low intensity You can operate immediately after the general alarm 20. In the drawings the fuse is of course / u can go of the blown fuse. shown enlarged. The subject of the invention is <u for this purpose a visual indication is given by in no way to certain dimensions len slide 18, which is limited by the free end, but it can be mentioned here that the 'les spring arm 25 is moved outwards. This is securing according to the invention with very small dimensions, also in FIG. 3 shown. The desired optical 25 solutions for safe protection against a brief display can be given by the protruding end 35 of the circuit current of about 1000 A at 300 V used slide 18. For better visibility. For example, the length of the protruding end 35 can have a different fuse wire 22 from the strip 23 to the strip 24 than the housing 10 and the slide can be one to one and a half centimeters.
11. The slide 18 can be made of colored material. Secondly, it can be reset during normal operation, the color indicating the nominal current strength after the wire has been heated and cooled down. highest temperatures in the middle wire section "" The fuse according to the invention can be on a simple 21. Therefore, when the heated metal of the wire be examined way. The operator only needs to seek to expand under the tensile stress ilen slide 18 inward, ie from its 35 and experiences a permanent stretching, this can be done in the position shown in FIG. 2 to the right. A small, pointed counterpart can be used to achieve this essential only in this piece of wire Press the wire against the end 35. This pressure is so that the percentage expansion of the total of the slide 18 moves to the right until the free .40 length of the wire is only about Vo of the percentage end of the spring arm 26, the fixed contact piece expansion of the path 21 is. Since only one 33 is touching, the alarm circuit is temporarily exposed to a fraction of the wire that is currently on. In this way, you can easily check the securing of permanent elongation of the wire, without the operator having to try too, this elongation has only a low value as a percentage of the total live parts in contact 45 length of the wire,
can. The two spring arms 25 and 26 are so flexible that the length of the sam, that their free ends during this process, chamber 20 can expediently bend 20% of the total length of the wire without the position of the strips being able to amount to wire, but If this value is not changed, the two ends are particularly critical. The chamber length can be approximately 10 to the fuse wire 22 connected. The ridges are 5 ° 40 ° / o. If the chamber is too short, 23, 24, the insulating body does not set a sufficient temperature difference between them, at which they act under the action of the section 21 and the other parts of the tensile stress of the wire 22. Wire, because the former is always longitudinally through heat conduction

The function of the channel 19 for the fuse wire of the wire some heat to the walls of the

is based mainly on the central chamber 20. 55 channel gives off. With the length of the chamber it increases

When the fuse wire 22 is in the position shown in FIG. 4, on the other hand, showed the effect of permanent elongation

Is arranged, its two end parts of the non-contact route are based on the percentage

with the material of the insulating body 17 directly in war- elongation of the whole wire to.

1 sheet of drawings

Claims (4)

1 2 although melting through did not occur at all. Patent claims: In addition, there is even the possibility that the »soil melting point« as a result of the 1. Fuse, in which a reduction in the cross-section of the Fusible wire under tension in a narrow 5 fusible wire on a channel other than the intended one an insulating body is performed, whereby the NEN point arises and thereby the melting through Channel interrupted by an enlarged chamber, the wire even outside the channel chen is characterized in that can. the wall of the channel (12), with which the object of the invention is thus to create a melting Fusible wire (22) is in contact, on both sides io fuse of the type mentioned vorzuder Chamber (20) is convexly curved. hit at which the melting point on the 2. Fuse according to claim 1, because fuse wire can be precisely fixed and fatigue characterized in that the ends of the fuse wire are largely omitted. This Fusible wire (22) with spring arms (25, 26) task is connected to a fuse of the are and that the spring arms (25, 26) 15 initially described type according to the invention thereby at the mouth facing away from the chamber (20) that the wall of the channel with which the conditions of the channel (19) are tight. Fusible wire is in contact, on both sides of the cam- 3. Fuse according to claim 2, since it is convexly curved. Through this kind of characterized in that the fusible wire (22) curvature ensures that the fusible wire has a constant diameter. 20 with the exception of those spanning the chamber 4. Fuse according to claim I or route over its entire length in narrow, warmth the subsequent, thus identifiable, contact is with one of the duct walls, draws that the length of the chamber (20) 10 to Further features of the present invention that 40%, preferably 20%, of the length of the subject matter of the dependent claims result Fusible wire (22) is. 25 on the basis of the drawing and the description below of a preferred embodiment. In the drawing shows 1 shows a perspective view of one embodied according to the invention Fuse, 30 Fig.2 cut away in a side view the Fuse according to Fig. 1, The invention relates to a fuse - FIG. 3 in a representation similar to FIG. 2 tion, in which a person under tension changes the position of the parts after the meltdown of the Fuse wire in a narrow channel of an insulator fuse wire, pers is performed, the channel through an expanded 35 F i g. 4 shows a section along the line IV-IV of th chamber is interrupted. F i g. 2 and Fuses of this type are from the USA.- F i g. 5 shows a section along the line V-V in FIG Patent 665,888 known. You not only have F i g. 4th the task of protecting electrical or electronic equipment from overcurrents that can be in the order of 4 ° 10, which is normally fixed in the device, but also for the Fuse is determined. The fuse wire itself after the fuse in the event of an overload is to be generated on a slide 11, around which it is passed, which is inserted into the housing 10, as a molten fuse among a large number of these is shown in the drawings. The slide 11 fuses to be able to find quickly. For this 45 and the parts located on it are for the purpose of removal, the fuse wire is determined by spring-loaded throwing after use. After each strengthening is put under tensile stress, after the wire has melted, a new unit of melting of the wire is introduced mechanically and / or this type into the housing 10,
electrically causes a display. The slide 11 consists of a flat trough Since when such high short-circuit currents occur, 5 ° 12 made of insulating material with parts protruding upwards of 1000 A and more the fuse wire at 13, 14, 15 and 16, which has an insulating body 17 and .Melting point evaporates like an explosion, it is necessary to hold a slide 18 firmly. the space surrounding the melting point. The insulator 17 is to be kept as small as possible on its underside or to ensure that a channel 19 that supports and retains the fusible wire is provided by a channel 19 that suffocates in a U-shaped cross-section . For this purpose, the fusible wire (FIG. 5) is convex in length (FIG. 4), until it is passed through a narrow channel surrounding it, in the form of a centrally arranged widening and has a inside the chamber "Sollschmelz- a chamber 20. There the channel is placed in the width" in the form of an area of lesser conductivity and depth, so that a central piece 21 of the ability, z. B. smaller diameter on. However, fuse wire 22 with the insulating material of the iso-wires of this type are expensive. In addition, Herkörpers 17 is not in contact,
always occurs with the known fuses. The ends of the fusible wire 22 are fatigued by Löwicder, which is connected to strips 23, 24 as a result of the constantly repeated expectation or welding, cooling and cooling of the fusible wire which are pressed out of the spring arms 25, 26 on, which become so large over time 65 According to FIGS. 2 and 3, the ends 27, 28 of the fact that the resulting expansion of the twist spring arms 25 and 26 between the tubing 14 les a triggering of the mechanical and / or clek- and the insulating body 17 held and stand with tric display for the melting caused, contact pieces 29, 30 in electrically conductive base