DE371996C - Fire chamber protection - Google Patents

Description

The known versions of the extinguishing chamber fuses contain the fuse wire in a pressure-tight chamber, which at one end in an open tube with relatively narrow opening. The one created when the insert melts in the chamber Overpressure causes a quick extinguishing of the expelled through the open pipe end Arc, but the

ίο Inner pipe wall strong due to metal fumes dirty and thereby the insulation between the terminals of the fuse is reduced will.

The invention now relates to a device by which both the extinguishing effect of Backup is increased, namely by increasing the overpressure used for deletion in the chamber, as well as the above-mentioned contamination of the inside of the pipe

ao is lifted.

The invention consists essentially in the fact that the actual fusible wire is inserted into a tube is embedded, which causes an airtight seal of the arcing chamber and the

as the extinguishing chamber tube on the extinguishing chamber side protects against the pollution caused by the explosion.

In Fig. Ι the basic arrangement of an extinguishing chamber safety device with an open tube is indicated, as was customary up to now; it denotes: α the quenching chamber, b the open pipe and c the fuse link. Fig. 2, however, illustrates the arrangement of the fuse link with special insert tubes according to the invention, while Figs. 3 and 4 show two different embodiments of the collecting device for the ejected part of the fuse link. According to the invention, the fusible wire c is inserted into a core tube d , which in turn is inserted into a jacket tube e . Parts c, d and e form the actual fusible link, which is pushed into tube b through the lockable quenching chamber. Here, the jacket tube e lies with a shoulder against the seal f and thus closes the interior of b from the extinguishing chamber α . In order to achieve an airtight seal of the chamber, the core tube d is further driven firmly into the jacket tube e by means of a conical extension g and the fusible wire c through a hardening sealant h, z. B. cement, firmly connected to the core tube.

If an explosion occurs in chamber a due to the melting of the wire c , the overpressure cannot immediately equalize through the tube b , but must first reach such a size that it overcomes the friction in the cone g and the core tube d with the remains of the fusible wire c is ejected like a shot. In order to prevent the harmful effects of this process, a collecting plate i can be provided at a certain distance from the pipe mouth, which limits the trajectory of the core pipe. The plate i can be connected in any way either with the fuse or with the fuse base or independently of the fuse, eg. B. on a special foot attached (Fig. 3 and 4).

Before inserting a new fusible link, the remaining, internally soiled casing tube e is also removed.

Claims (3)

Patent Claims: 1. arcing chamber fuse, characterized in that the arcing chamber through a plug-like fuse link that is ejected by the explosion that occurs when the wire melts is hermetically sealed. 2. arcing chamber fuse according to claim i, characterized in that the Fusible link is inserted into a jacket tube, which in turn is the interior of the surrounding Extinguishing chamber tube seals against the extinguishing chamber. 3. arcing chamber fuse according to claim ι or 2, characterized in that go that at a certain distance from the mouth of the extinguishing chamber tube a device is intended to catch the ejected insert.