DE830524C - Backflow protection - Google Patents

Description

Solder-back fuses are known in which the Resistance coil with re-soldering pin designed as a closed metal capsule and from Release pin is disconnected. This metal capsule is halfway in the fuse body introduced and is also designed as a bayonet lock, while the other Half protrudes freely from the fuse body. If the fuse responds, it will the re-soldering pin by the spring-loaded release pin after the other Moved to the side, where it will solder itself again by cooling down. Man then only needs to turn the metal capsule by r8o ° and with the bayonet lock in the Hold the fuse body so that the fuse can then be used again is. The fact that the metal capsule with enclosed resistance coil on a Page freely protrudes from the fuse body is an exact, centric and axial guidance and alignment to the release pin not guaranteed, as it is at the same time as a locking part. is trained and there is also the risk of that soldering material is splashed during the release process by moving the re-soldering pin into the tightly spaced wiring of the fuse holder or the selector rack which can easily lead to a short circuit that is difficult to find can.

The invention avoids these deficiencies in that an openly wound non-encapsulated resistance coil with soldered-in re-soldering pin is used, which can be reinserted reversely by 180 ° after the release process and the in a fuse body that can be locked by a special part, is included loosely and easily replaceable. The re-soldering pin can directly in the hollow coil core or in a replaceable one arranged in the coil core Metal sleeve to be soldered. It can have one or more longitudinal grooves for inclusion of solder. The edge disks of the resistance coil made of insulating material are provided with a bore at their open ends, the inner diameter of which is larger is than the diameter of the re-soldering pin, so that it catches solder residue and cannot come into contact with the fuse body. About the made of insulating material existing edge disks of the resistance coils, a metal web is placed on which the end of the resistance wire is soldered, wherein the closure part, for. B. screw plug, comes to rest on the metal bar, so that a metallic connection to the fuse body is made and the resistance coil with one end or the other ahead can be inserted into the fuse body.

In Figs. I to IV an embodiment is shown.

Fig. I shows the complete re-soldering protection in longitudinal section; Fig II represents a longitudinal section of the removed resistance coil from Fig. I, where the re-soldering pin has already been moved into the opposite end of the coil; Fig. III shows the re-soldering pin in cross section; Fig. IV shows another embodiment a resistance coil with soldering back pin.

In Fig. I i means the tubular metal fuse body and 2 the locking screw. The release pin 3 is centric in the fuse body i and axially displaceable and supported by the insulating washers 4, 5 and 6 from the bobbin i electrically separated. The spring 7 tends to move the release pin 3 forward to press against the re-soldering pin 9 located in the resistance coil 23.

In the front part of the fuse body there is a loosely inserted one Resistance coil 23 (Fig. II and 11I) with a hollow metallic coil core 8 soldered back solder pin 9.

At the two ends of the hollow bored core 8 are coil flanges io and ii attached from insulating material. Have these spool flanges (edge disks) on one side a larger hole i2, which is used when the solder is melted to catch any separating metal parts so that these metal particles do not connect Establish between fuse body i or screw plug 2 and re-soldering pin 9 can. The winding of the resistance coil 23 is made of resistance wire and is ever according to amperage z. B. o, 5, i, o amps, etc. rated. The beginning 13 of the winding is soldered to the coil core 8, while the end 14 of the winding with a metal bracket 15 is soldered. The angled legs of the bracket 15 are over the two reel flanges io and ii placed. The soldering pin 9 has, as shown in the cross section of Fig. III, several axially parallel casing grooves 16, which are used for receiving and better distribution of the solder. This re-soldering pin is in the coil core 8 by means of a Solder alloy that melts at 7o to 8o ° C, soldered in. The whole resistance coil 23 with re-soldering pin is loosely inserted into the front part of the fuse body and by means of the locking screw 2 against the spring action release pin 3 pressed far enough into the fuse body. In this state is the The release pin 3 is cocked and protrudes a little from the end of the fuse body. The current flow goes from the fuse holder of the selector frame via the fuse body i, screw plug 2, metal bracket 15 for coil winding 13 and 14 that are attached to the coil core 8 is soldered, from there to the re-soldering pin 9 via the release pin 3 to the other part of the fuse holder back. If an overload occurs, the the resistance coil 23 of the coil core and thus also the soldering pin heated, whereby the solder alloy softens or almost melts. But after the trigger pin 3 constantly, as a result of the action of the spring 7, presses on the re-soldering pin 9, is this when softening the solder through the coil core 8 so far to the other End of @Viderstandspule pushed out until the collar 17 of the release pin the insulating and guide washer 6 abuts. This unsoldered state of the fuse or this position of the re-soldering pin 9 is shown in Fig. 1I.

In Fig. IV is another embodiment of a resistance coil shown. The difference compared to the resistance coil shown in Fig. II is only that because the re-soldering pin is not soldered directly into the coil core 8 is, but a flanged at one end metal sleeve 21 is provided in which the re-soldering pin 22 is soldered in. The mode of action. Is basically the same, only In this case, the spool is not turned over, but one that is kept in stock Metal sleeve 21 with soldered back soldering pin 22 in the coil core of the resistance coil inserted, whereby the fuse is ready for use again. The re-soldering pins 22, if enough has accumulated due to the fuse responding, soldered back to the original position. The metal sleeves with soldered Sufficient numbers of re-soldering pins are kept in stock.

At the end of the fuse body i is a metal washer 18 with a nose i9 is provided, inserted to secure against rotation in the fuse strip secure the voter frame. The fuse is in the fuse strip so far inserted until it hits the collar 2o.

When the fuse has blown, so the re-soldering pin after the other If the end of the open-wound resistance coil has been pushed through, it can become loose Resistance coil removed and reinserted to a new function, turned by 180 ° been. So there is an automatic back and forth soldering on the resistance coil. As tests have shown, this process can ioo up to 150 times take place. The re-soldering pin 9 can then be re-applied with the alloy material be provided.

Compared to the previously common re-soldering fuses, the subject matter of the invention the resistance coil including the re-soldering device wound open, i.e. not encapsulated, loosely inserted in the fuse body and can easily be used to check whether the Parts are still in order, can be removed.

As a result of the constructive measures described, there is a short circuit impossible within the fuse due to splashing of solder.

The fuse can be pressed from metal or made by injection molding will.

The lifespan of the fuse is unlimited. As a result of the very large Consumption of re-soldering fuses occurs when the new fuse is used the telephone dialing equipment a substantial cheaper operation.

Because of the reliable operation of the fuse, damage or even fires at voter’s offices hardly ever occur.

Claims (6)

PATENT CLAIMS: r. Re-soldering fuse with a re-soldering pin soldered into the resistance coil and a release pin separate from this, characterized in that an openly wound, non-encapsulated resistor coil (23) with soldered-in re-soldering pin (9), which can be turned by 180 ° after the fuse has been triggered, can be reinserted in the fuse body (i), which is closed off to the outside by a removable part (2), is inserted loosely and easily exchangeable. 2. re-soldering protection according to claim i, characterized in that the entire interior equipment the fuse, such as the trigger pin and resistance coil, with a re-soldering device in one Metal pipe or injection molded part are housed centrally and axially. 3. Re-soldering protection according to claims 1 and 2, characterized in that the re-soldering pin (9) either directly, in the hollow coil core (8) or in an exchangeable in the Coil core arranged metal sleeve (2i) is firmly soldered. 4. Re-soldering protection Claim i to 3, characterized in that the re-soldering pin with one or more Longitudinal grooves (i6) are provided for receiving the solder. 5. Re-soldering protection Claims i to 4, characterized in that they consist of insulating material Edge disks (io and ii) of the resistance coil have a larger one at their open end Have hole (i2) as the solder pin back diameter, so that any solder residue do not come into contact with the fuse body and thus no contact with the body or Short circuit in the fuse can occur. 6. re-soldering protection according to claim i , to 5, characterized in that over the edge disks made of insulating material (io and i i) of the resistance coil a metal web (15) is placed on which the end of the resistance wire is soldered, the screw plug (2) or other Closure means come to rest on the metal web, so that a metallic connection to the fuse body is made and the resistance coil with the one or the other end can be inserted into the fuse body first.