DE694963C - Two-part overcurrent carrier fuse - Google Patents

Description

Two-part inertial overcurrent fuse It is known that overcurrent inertia To achieve fusible, fuse, i.e. to a fusible conductor a soldering point is connected in parallel, with the fusible conductor melting through after the soldering point has been opened. These types of fuses were previously manufactured as one-piece screw plugs, which, however, are associated with difficulties in production. It is well Overcurrent fuses have been proposed, the nacl type of two-part Fuse cartridges are produced, however, so far have been satisfactory results has not yet been achieved as the construction of the cartridges is still not simple enough is. There are also known fuses in which .eine thermal fuse with a Short-circuit protection is connected in series. Such a backup results in a simple construction, but not on a fuse with too .one solder joint can be transferred in parallel melt wire, where. the final interruption takes place in an enclosed space.

The invention relates to a particularly useful embodiment a two-part overcurrent inert fusible link with one to a fusible link solder joint connected in parallel and another connected in series for this purpose Fusible link; which is only intended for short-circuit shutdown. According to the invention the screw head of the fuse has a melting channel to accommodate the bridging melt conductor for the soldering point also located in the screw head. The cartridge . Contains only the fusible link for the short circuit disconnection, whereby the a contact cap of the insert cartridge inserted in the screw head with a contact cap of Bridging fuse of the solder joint comes into contact.

The advantage of a two-part overcurrent. slow fuse according to the invention lies in the expedient structure, the advantageous fabrication allowed. The fuse, including the screw head, consists of only two Share, with the fusible link for the short-circuit shutdown and the parallel to Fusible conductors lying at the soldering point are housed in separate, closed melting areas are.

In the drawing, an embodiment in Figs. I to q. shown. Fig. I is a longitudinal section through the entire fuse link. Fig 2 shows the screw head only in longitudinal section. Fig. 3 is a top plan view of the Screw head, and fig. Q. is a circuit diagram of the fuse.

The screw head i is in a known manner with the screw thread z and the window 3 provided. In addition, according to the invention, the screw head i contains a Melting channel q: in which the fusible conductor 5 and the identification wire 6 are accommodated. The lower part of the melt channel q. is completed by the contact cap 7, the with the screw thread 2 is in connection. The top of the melt channel is closed by the contact cap 8, at which the solder joint g with the contact spring i o is attached. The lower part of the contact spring is welded to the contact cap 7 or riveted. The upper contact cap 8 is also with the resilient approach 16 provided, against which the contact cap 15 of the insert body i i lays. The insert body i i has the form shown in Fig. I and carries in his lower part the foot contact 12, on which the fusible conductor 13 and the identification wire 14 are attached. As shown in the circuit diagram according to Fig-. q. is the short-circuit fuse 13 connected in series with the solder fuse 9 and the bridging wire 5. Of the Fusible link 13 is calculated for the full nine current, while the jumper wire 5 is dimensioned for a lower amperage. Is the soldering point in the event of overcurrent g opened, the melting line 5 is heavily overloaded and. melts through immediately. Through this; because »both the solder fuse and the short-circuit fuse with one each Identification device is provided, it can be determined immediately which of the two Fuses has responded. By dividing the overcurrent cartridge into a body; which contains the overcurrent fuse, and in a body that contains the Short-circuit fuse takes up, it is possible to replace only those parts, who have addressed each. In a known manner, an unmistakable device can then be used be arranged, both in terms of flow uniqueness and to the effect that a use of slow fuses in screw heads for nimble Backups and vice versa cannot be made. '

Claims (3)

PATENT CLAIMS: i. Two-part overcurrent slow-blow fuse, at which has a fusible conductor and a solder joint parallel to one another and in series a further fusible link rated for the short-circuit disconnection is connected to both of them is, characterized in that the screw head (i) of the fuse has a melting channel (q.) to accommodate the bridging fusible link (5) for the also in the screw head (i) arranged solder joint (9) and the insert cartridge (i i) only the Contains fusible conductor (13) for short-circuit disconnection, one contact cap (15) the insert cartridge (i r) inserted into the screw head (1) with a contact cap (8) of the bridging fusible conductor (5) of the soldering point (9) in contact lz: #ommt. " 2. Fuse according to claim i, characterized in that; that by the special Design of the insert cartridge (i i) or the screw head (i). Distinctive character with regard to current and voltage as well as slow and fast fuse is achieved in a manner known per se. 3. Fuse according to claim i and 2; - characterized in that both the short circuit fuse (i i) and the Overcurrent fuse (5, 9) is each provided with an identification device.