DE612713C - Fuse cartridge - Google Patents

Description

The invention relates to a fuse cartridge with an axially displaceable, on the one hand by spring force and on the other hand by a deformable resultant heating Insert cartridge supported trigger pin, in particular for telephone systems. The essence of the invention is that the lying between the end caps, the Deforming body of the insert cartridge carrying the heating coil from a celluloid tube consists.

There are already hot wire fuses have become known that a z. B. have a release pin held by Woodmetall, which is moved to the outside when the Woodmetalls is heated as a result of heating by a heating roller under the action of a spring. These known hot wire fuses have a tripping time of 20 to 40 seconds due to the large heat loss. With these long tripping times, damage can be caused by arcing ο. Like. Arise in defective parts of a telephone system. The long tripping time is therefore disadvantageous. Another disadvantage of these known fuses can be seen in the fact that the fuses are soldered back for reuse after tripping, which greatly impairs the reliability of the fuses. In the fuse according to the invention, the deformation body of the insert cartridge, which consists of a celluloid tube, can be surrounded directly by a heating coil made of bare wire, whereby the heat loss is very low. Thorough tests have shown a tripping time of 6 to 7 seconds at all common tripping currents. Once the insert cartridge is deformed, it must be replaced by a new one, which makes the fuse ₄ “absolutely reliable. The production of the insert cartridge requires insignificant costs as a result of a very low cost of materials and thus makes a safety system cheaper, since the system's fuses can be used indefinitely until the insert cartridge is used.

In the case of lightning rod protection, it has already been proposed to soften a hard rubber solid cylinder allow. Apart from the fact that in the known arrangement of the hard rubber cylinder cannot bulge under pressure, comparative tests have shown that hard rubber tubes of the same dimensions as celluloid tubes and under the same test conditions give trigger times between 35 and 40 seconds lie.

An embodiment of the new fuse is on the drawing in the pictures 1 and 2 shown in a vertical section.

Fig. Ι shows the position of the cartridge at normal amperage.

Fig. 2 shows the position of the cartridge in the deformed state, i.e. when it is interrupted Circuit.

The housing ι can be made of metal. It's on top with a thread or one Bayonet lock for the lock 2 provided. In the middle part of the housing ι is ίο an insulation insert 3 pressed in. In the lower part of the housing 1 are a with a release pin 4 provided with a shoulder, a helical spring 5, an insulating tube 6, an insulating ring 7 and a z. B. made of brass ring 8 is arranged. A cam 9 is used to attach the fuse in a known Fuse holder.

The closure 10 can also be made of metal be made and provided with thread or bayonet lock. It serves to the fuse cartridge 12, 11, 12 to hold. The closure 10 can be made in various designs, which ensure the uniqueness of the insert fuse cartridges 12, 11, 12. For this purpose, the approach 2 can be made higher by one millimeter. The upper recess of the closure 10 can be colored for external identification the fuse strength. The lower recess of the closure 10 serves as a guide for the fuse cartridge 12, 11, 12.

The fuse cartridge 12, 11, 12 is made from a deformation body 11, the top and bottom with a cap 12 from Metal is covered. A wire 13 is made, for example, around the deformation body 11 Iron, steel, nickel, nickel-lin or wound from other suitable metals. Of the Wire 13 is attached to one of the caps 12, then tightly around the deforming body 11 passed around to the other cap 12 and fastened there again. The fuse cartridge 11 can then like the Closure 10 can be made in various designs, each of which is a Is kept millimeters shorter than the next. Any of the different designs receives a differently colored deforming body 11. The colors of deforming body and recess of the closure 10 coincide.

The deformation body 11 consists of one softening under the effect of the heat of the current exceeding the normal strength of the current and small tubes made of cellulose materials, in particular celluloid, that deform under the action of pressure. He stays under the effect of the current heat generated in the wire 13 at normal current strength and stiff. However, if the current heat in the wire 13 is higher than normal, it is softened the ■ deformation body 11 and shortened under the action of the pressure of the bolt 4 influenced by the spring 5, as shown in FIG Fig. 2 is shown, and this shortening gives rise to triggering switching operations.

The fuse cartridge 12, 11, 12 can be exchanged at any time effortlessly and without special tools.

The insulation insert 3 didnt do this, the fuse cartridge 12, 11, 12 and the release pin 4 to be isolated from the housing 1. At the same time, it forms the guide for the release pin 4. The release pin 4 is made of brass, for example. It is in the bottom of the insulation insert 3 and guided in the insulating ring 7. This guide prevents the release pin from slipping out of the guide if it is burned out Fuse or if the housing is empty ι.

The coil spring 5 made of spring steel wire has the task of pulling the release pin 4 upwards to press. The insulating tube 6, for example made of oil cardboard or ebonite, insulates the helical spring 5 and the brass ring 8 from the housing i.

The insulating ring 7, e.g. made of Bakelite, isolates the release pin 4 and the brass ring 8 from the Housing 1.

The brass ring 8 serves as a solid base for the helical spring 5.

The mode of operation of the fuse is as follows; ■

The fuse is inserted into a well-known switch with a latch release. the Spring pawl 14 is by the release pin 4 in the position shown in Fig. 1 on each Movement prevented.

The current flows from the spring 14 through the release pin 4, the lower cap 12 the fuse cartridge 12, 11, 12 by the Safety wire 13, the top cap 12, the closure 10, the housing 1 and through the well-known retention of the fuse holder continues.

If too large a current flows through the arrangement, the safety wire 13 is no heated due to its electrical resistance. This heat softens the body 11 of the ° insert cartridge 12, 11, 12, and by the pressure of the spring 5, the body 11 is deformed and takes the one shown in fig Location a. The spring 5 drives the release pin 4 upwards, whereby the lower end of the release pin 4 from the Engagement of the spring pawl 14 releases and the spring pawl 14 of the fuse holder- a Performs the release switching movement and interrupts the circuit.

By inserting a new fuse cartridge 12, ii, 12 and latching the Spring 14 under the pin 4, the fuse is usable again.

Claims (1)

Claim: Fuse cartridge with an axially displaceable, on the one hand by spring force and on the other hand by a trigger pin supported by an insert cartridge that is deformable as a result of heating, in particular for telephone systems, characterized in that the heating coil (13) located between the end caps (12) bearing deformation body (11) of the insert cartridge from a celluloid tube consists. 1 sheet of drawings