DE682983C - High voltage fuse with a melting chamber and several extinguishing chambers - Google Patents

Description

High voltage fuse with a melting chamber and several arcing chambers Addition to patent 651 o88 The main patent describes a high-voltage fuse, in the case of the melting chamber in which the fuse element melts, several arcing chambers are connected, one above the other in the direction of the fusible conductor are arranged and interconnected by openings. Through this opening is in a short circuit, the fuse element z. B. by means of a spring or weight ', torn through, whereby the switching gases expand in the arcing chambers and thereby the arc can effectively delete. As already stated in the main patent, occurs with one Short circuit creates a strong overpressure, which is the result of the large amount of heat generated by the arc and the resulting vapors have their cause. By the one made according to the main patent Arrangement of the arcing chambers is achieved that these with a receding electrode are successively pressurized and the switching gases are consequently in the same order in the extinguishing chambers, increasing the extinguishing effect is extraordinarily supported.

With particularly strong ones. Short circuits, however, the further task arises the switching gases also allow rapid and complete escape from the fuse to enable, so that any re-ignition of the arc is off = closed. A . Such strong overpressure in the fuse housing can lead to destruction if the individual arcing chambers are not designed and arranged so that destructive Effects are avoided.

The invention now relates to a further development of the high-voltage fuse according to the main patent, in which the melting chamber and which are attached to the melting chamber in the direction of the fusible conductor subsequent quenching chambers as a whole or as individual chambers are formed and arranged within the housing. Through further training should be achieved that no melting of the fuse element by the overpressure of the switching gases the arcing chambers one after the other out of the housing to the outside be thrown. For this purpose, according to the invention, the contact head is used as a sleeve and designed as a support for the chambers, on which the same store loosely. This way the cross-section of the arc is changed several times and the arc is changed every time cleansed of the switching gases due to the enlarged rooms. Depending on the situation the quenching chambers on the contact head are provided with channels for exhausting the switching gases and so in relation to the Arcing chambers and the contact head arranged, that the switching gases can escape to the outside: the same cross-section can so be held that with strong. Kuwe close the chambers individually or as eia zes out of the housing to the outside gescl@a.=, to be changed. It can also be used for any KamA; a special exhaust duct can be provided in which the switching gases are melted of the fuse element escape to the outside.

In the drawing, embodiments of the subject matter of the invention are shown. In Fig. I, A denotes the locking element, B a spring, which can be replaced by a weight. C is a holding wire of low strength but high mechanical strength that keeps the spring taut. D is a ventilation cap that opens automatically at high pressure. E is the end piece at which the arc forms when the fuse blows and the electrode end is torn downwards by the spring. F is an insulating tube, which can be made of glass, porcelain or any other insulating material, which has contact caps at the top and bottom for insertion into corresponding contacts. J is a copper tape; that carries the current to keep the spring B, which is parallel to the belt, de-energized. I (is the melting chamber, and i, 2, 3 etc. denote the extinguishing chambers, which are provided with small openings on the bottom surface, through which the rebounding electrode is torn by a spring or a weight when the fuse blows .

The mode of action of this fuse is as follows: The one when it melts the metal vapors produced by wires C and A. are released from the chamber I (located: Extinguishing powder added. The zurückschnel-> n.de electrode pulls the arc through _e arcing chambers i, 2 and 3. The contact head serves as a sleeve and as a support for the extinguishing chambers. On it, the individual chambers are loosely stored that are vein type when the fuse element melts due to the overpressure of the switching gases Extinguishing chambers one after the other. the housing are thrown, so that the Arc is effectively extinguished.

Fig.2 shows a different arrangement and design of the chambers in which When the arc occurs, the switching gases expand and guide channels for exhausting. the switching gases are provided to the outside or to other rooms.

Claims (2)

PATENT CLAIMS: i. High voltage fuse with a melting chamber and several arcing chambers according to patent 651088, characterized in that the Contact head of the fuse housing as a sleeve and as supports for the arcing chambers is formed and the quenching chambers store loosely on the former in such a way that during melting of the fuse element through the overpressure of the switching gases the arcing chambers one after the other be thrown out of your case one by one. 2. High voltage fuse according to claim i, characterized in that special ducts for exhausting the quenching chambers the switching gases are provided.