DE693608C - Glass cartridge fuse with delayed shutdown - Google Patents

Description

Glass cartridge safety device with delayed shutdown Glass cartridge safety device in relatively small dimensions, mostly only with quick shutdown characteristics manufactured. The production of such fuses with a delayed cut-off characteristic encounters considerable difficulties, on the one hand because of the limited space; the is available, on the other hand because of the relatively great inertia, which is often required. ° The invention relates to a glass tube fuse greatly enlarged shutdown, which is characterized in that eats in an insulating piece two metal pins are pressed in to isolate each other @, one of which with the contact cap and at the same time connected to a heating coil on the insulating body is, while, the other end of the winding is attached to the other pin, the is connected to a fusible link by means of a solder joint; the other end this fusible conductor is with a helical spring attached to it. Sch ;hrnelzleiter facing end carries a Kemumelder bead connected. In the event of overloads the melting - the fuse at the soldering point, which the heat through the heating coil and the Isolierkkörper is supplied, while with heavy overloads, so at Short circuits, the fuse element melts. . It can also be used in the helical spring still a second helical spring can be provided, which is the main part of the to be transmitted Stromes takes over because the outer spring is in the. The main thing is the mechanical work perform.

The invention is shown in the drawing '.

The glass tube r is provided with contact caps z and 3 at both ends, which can be provided with cutting contacts, for example. In the insulator q. two metal pins 5 and 6 are pressed in, but isolated from each other. The one Metal pin 5 is by soldering to the metal cap z and on the other hand as well by soldering to the Beginning of the heating coil 7 connected. The other The end of the heating coil 7 is connected to the other pin 6. At the pin 6 is soldered by means of the soldering point of the fusible link 8. This soldering point occurs with smaller ones Overloads to melt, while with large overloads, i.e. short circuit, the fusible conductor 8 comes to melt. The other end of the fuse element 8 is connected to a helical spring 9, at one end of which there is an indicator bead i o is attached. The end of the helical spring opposite the indicator bead 1o 9 is connected to the contact cap 3. The glass tube i is covered by the outside Color, etching, etc. and has only a light, transparent ring in the middle, in which the indicator pearl i o is visible. If the fuse melts one, the indicator pearl 1o is withdrawn from the helical spring 9 and disappears behind the cover of the glass tube i. You can therefore always correctly see whether the fuse is still OK or has already melted.

By shortening or lengthening or reducing or enlarging the cross section of the insulating piece 4, the inertia of the fuse can be largely regulated. Furthermore, the inertia can be changed by changing the heating coil 7 on the outer circumference of the insulating part 4 in its position, or by changing the distance between the two pressed-in pins 5 and 6 in the insulating piece 4. To avoid overloading the current-carrying helical spring 9 in the case of fuses with larger currents and thereby impairing its mechanical effect, a second helical spring ii made of a highly conductive material is made inside this spring, which is mainly involved in the power supply .

Claims (4)

PATTERN CLAIM: i. Glass cartridge fuse with delayed shutdown, in which a cut-off spring, a fusible link and at least one soldering point are connected in series; characterized in that in an insulating piece (4) arranged in the glass body two metal pins (5, 6) are pressed in isolating from each other @, one of which with the contact cap and at the same time with a heating coil (7) on the insulating body is conductively connected; while the other end of the winding is on the other pin is attached, which is connected to the fusible conductor by means of a solder joint, which is heated by the heating coil via the insulating body. 2. Glass cartridge fuse according to claim i, characterized in that by: shortening or lengthening of the insulating body (4) or by reducing or enlarging the cross-section of the insulating piece (4) the inertia of the fuse can be largely regulated can. 3. Glass cartridge fuse according to claim i and 2, characterized in that the change in the inertia of the fuse by changing the position of the heating coil (7) is achieved on the outer circumference of the insulating piece. 4. Glass cartridge fuse According to claims 1 to 3, characterized in that the inertia can be regulated by changing the distance between the two, pressed-in pins (5, 6) in the Insulating piece.