SU1317519A1 - Fuse with operation indicator - Google Patents

Description

The invention relates to electrical engineering, namely to fuses.

The aim of the invention is to increase the reliability of the trigger indicator operation.

The drawing shows one of the fuse variants with a trigger indicator.

The fuse has a body 1 of electrically insulating material, fusible elements 2 connected to terminals 3 and 4, face cr1:) 1bags 5 and 6. Wire of the operation indicator 7 is fixed on one side with contact terminal 4, and the other end is connected with the indicator part 8 of the trigger indicator, the indicator part 8 being placed in the contact terminal 3 and the clamp 5. The fusible elements .2 and the wire part 7 are immersed in the granular filler 9.

In the indicator part 8 there is a spring 10 and a visual pin 11 to which one of the ends of the wire part 7 is connected.

On the wire part 7 of the trigger indicator, in the immediate vicinity of the inner end surface of the contact terminal 3, there is an insulating sleeve 12, made, for example, of sheet asbestos 0.5 mm thick, whose thermal conductivity cyniectBenno MeHbnje is thermal conductivity of the granular filler.

Inside the insulating sleeve 12, there is at least one coil 13 of the wire part 7 located. Coil 13 is designed as a knot.

The fuse with a trigger indicator operates as follows.

When a relatively small overcurrent flows through the fuse elements 2 of the fuse (or when they are melted during operation of the fuse in the cyclic non-load mode), the current begins to flow through the wire part 7 of the gauge, causing it to melt. Since the sleeve 12 with the tenon conductivity less than the thermal conductivity of the granular filler 9 is placed on the wire part 7, the wire section surrounded by the sleeve 12 heats up more (because it is worse than the heat sink) and therefore melts it. Due to the fact that the plot is

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melting is located in the immediate vicinity of the inner end surface of the contact output 3, and hence from the indicator part 8 of the indicator, after melting, there is no rubbing in the filler of that end of the wire part 7, which is connected to the visual pin 11. Therefore, under G1. the spring release spring 10 1 (|) t I 1 freely moves upwards and its upper part extends beyond the outer surface of the indicator part 8, signaling the operation of the safety device. In addition, the fact that the section of the wire part has a positive meaning. 1 and 7, surrounded by sleeve 12, does not experience direct contact with the grap grams of nano-dark bodies 9.

In the event that the short-circuit fuse of the melt short-circuit current is disconnected, the wire part 7 progresses at the location of coil 13, since here the wire material is deformed and has local weakened areas. In this connection, a case-by-case operation is ensured, the work of the index card Egani is stable, without complicating the indicator indicator part.

Claims (3)

1. A fuse with a trigger indicator, containing a body made of electrically insulating material, at least one fuse element connected to the contact leads, and the fuse element and wire detail trigger indicator and the surface of the granular filler, characterized in that, in order to increase the reliability of operation operation indicator, on wire. At least one insulating sleeve made of a material with a thermal conductivity lower than that of a granular filler. 2. Fuse for and. 1, characterized in that the insulating sleeve is located in close proximity to the internal face top of the contact terminal on the side of the indicator assembly. 3. Fuse io pi. 1 and 2, characterized in that inside iso. The pin bushing is located, at least one coil is made of the fiber part of the pointer.