JPH03219520A - Temperature fuse which breaks circuit at once - Google Patents

Abstract

PURPOSE:To break a circuit at once by adsorbing a molten alloy to a terminal side of a lead wire, utilizing its surface tension when an alloy bridging over lead wires is melted. CONSTITUTION:A gap between lead wires 2, 3 in the opposite each other is bridged and connected each other with an alloy 4 which melts at a prescribed temperature to give one lead wire. Adsorptive rings 5 are set in the outer surroundings of the terminal parts of the lead wires 2, 3 so that alloy 4 and the lead wires 2, 3 are separated. The rings 5 have a shape to be put by inserting and fixing in the end parts of a case 1 and outer brims 5a are unitedly formed in the outer end sides of the rings so that even when the alloy 4 is melted, the rings are retained in prescribed positions. Consequently, the temperature becomes a prescribed level and the alloy 4 is melted, it is absorbed in the ring sides 5 owing to surface tension and an electric circuit is broken at once at the lead wires 2, 3.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a temperature fuse that instantly and reliably opens a circuit when a preset temperature is reached.

[Conventional technology]

Temperature fuses are used in electrical equipment to prevent unexpected accidents such as fire by opening the electrical circuit when a set temperature is reached. This conventional temperature fuse connects two lead wires placed opposite or parallel to each other at a required interval, either directly or using a short-circuiting material, through a metal that melts at a set temperature. It is molded with flux resin to form a closed circuit, and when the body of the temperature fuse reaches a predetermined temperature due to the ambient temperature of the temperature fuse or Joule heat, the molten metal is melted and the circuit is closed. It is intended to open up the

[The problem that the invention aims to solve]

In a temperature fuse that connects opposing lead wires with the molten metal, when the metal melts at the set temperature, it moves to each lead wire side due to the surface tension of this metal (alloy) and flux action, and the lead wire ends It looks like it is soldered to the part, and the desired circuit is opened. However, due to the surface tension of the molten metal, the molten metal moves toward the end of the lead wire at a very slow speed, and it takes 5 to 15 seconds from when the metal is completely melted until the circuit is opened. Essentially, a temperature fuse opens the circuit and cuts off the power when the temperature rises abnormally, and it is desirable that this can be done within as short a time as possible. If the circuit is not opened within a short time when the temperature is abnormal, it may damage other parts of the electrical equipment or lead to accidents such as fire.

The present invention aims to open this circuit instantly by melting the metal.

[Means to solve the problem]

In order to achieve the above object, the present invention connects the ends of two lead wires inserted into an insulating case with a required spacing between them, and melts the ends of the lead wires at a set temperature to form a circuit. In a temperature fuse made by cross-linking an open alloy, a suction ring is fitted inside the case end and at the lead wire end position so as to cover part of the outer periphery of the end of the cross-linked alloy with a small gap. 3-4 Insert the lead wire or process the end of the lead wire to make it easier for the molten metal to be attracted to the end of the lead wire due to surface tension, thereby instantly attracting the molten alloy and opening the circuit. − Summarize what was done.

[For production]

When the meltable alloy cross-linked between the opposing lead wires melts at a preset temperature, the surface tension of the melted alloy causes the outer periphery of the lead wire to become insulated from the surface of the unmelted alloy. The electrical circuit is instantly attracted to the suction rings placed along the inner surface of the insulating case at intervals, or to the lead wire end side whose end is processed into a flat shape, and absorbed between the outer periphery of the lead wire end. can be opened within a very short time. The operating time of this temperature fuse is 1 after the alloy has melted.
The time is as short as ~2 seconds, and the molten alloy adsorbed to the outer periphery of the lead wire end looks like soldering, so the electric circuit will not be shorted again and the circuit can be opened reliably.

〔Example〕

The temperature fuse of the present invention will be explained below based on the illustrated embodiments.

In the figure, 1 is ceramic and other electrical insulation.

An insulating case made of a heat-resistant material in a cylindrical or other shape with the required strength.
Insert the lead wires 2 and 3 of the book from both ends of the case so that they are facing each other. At this time, the ends of the leads @2 and 3 connected to the electric circuit are appropriately determined so as to be electrically insulated.

Either one or both of the lead wires 2.3 is processed by pressing the end portion 2a (3a) of the lead wire into a flat shape as shown in FIG. A hole is made inside this so that the melted crosslinked alloy can be instantly adsorbed using its surface tension. In addition to flattening, the end of the lead wire can be wound spirally or bent in a zigzag shape.

The end faces of the opposing lead wires 2 and 3 are bridged and connected using an alloy 4 that melts at a predetermined temperature, thereby forming both leads @2.3 into a single lead wire.

Also, the outer circumferential portion of the end of the lead wire 2.3 is
, 3 and the alloy 4, the suction rings 5, 5
Place. This suction ring 5 is fitted onto the inner circumferential surface of the end of the case 1, and when the lead wire is integrated with the sealing material 6 filled in the end of the case, the two are integrated with the sealing material 6. It is something.

The sealing material 6 is made of ceramic or other material that has electrical insulation properties that will not melt even if the alloy 4 melts at the set temperature, and is used to fix the lead wire to the case.
This keeps the distance between the opposing lead wire end faces constant.

The suction ring 5 has a shape that is inserted into the end of the case 1 and is housed 11 times, and an external part is attached to the outer end of the suction ring 5 so that it can be held at a predetermined position in the case even when the alloy 4 is melted. The flange 5a is integrally formed so that when the suction ring is fitted into the case, the outer flange 5a comes into contact with the end face of the case, and the suction ring 5 is well bonded to the molten alloy. In other words, use a material with good solderability, or
Alternatively, the surface may be coated with tin plating, silver plating, etc., which has good solderability, or the shape may be changed. For example, instead of just having a cylindrical shape, a part of the shape may be cut out into a slit or other shape, or an uneven surface may be formed, or it may be constructed using a wire mesh or a wire wound into a coil spring shape. The surface tension of the melted alloy, the adhesion of the same alloy9, and the capillary phenomenon are used to make it easier for the melted alloy to adhere to the adsorption ring.

In the illustrated embodiment, the suction rings 5 are provided at the ends of the opposing word lines 2 and 3, but only one of them may be provided. The length and inner diameter of the suction ring 5 are determined so that the molten alloy is accommodated in this ring from the bridged position between the end faces of the lead wires, and the end faces of the lead wires are completely separated.

Therefore, when a suction ring is placed at each end of each lead wire, a short ring is used, but when only one side of the suction ring is installed, a long ring is used.

7-8 In addition, the outer periphery of the end of cross-linked alloy 4 is placed on the suction ring 5 so that the melted alloy is instantly adsorbed on the suction ring.
Leave the required gap between the ends of the salmon roe so that it is covered.

With this configuration, the alloy melted at the set temperature is quickly adsorbed and moved to the suction ring side, and the electric circuit between the ends of the lead wires is instantly opened when the alloy is melted at the set temperature.

〔Effect of the invention〕

According to the present invention, in a temperature fuse that uses a fuse alloy in the temperature sensing part, when the alloy melts, it is quickly drawn to the end of the lead wire using the surface tension of the alloy, and the circuit is instantly closed. There are advantages to being open.

[Brief explanation of drawings]

The drawings show an embodiment of the temperature fuse of the present invention, in which Fig. 1 is a longitudinal sectional view, Fig. 2 is a sectional view of the same showing an open circuit state, Fig. 3 is an adsorption ring, and Fig. 4 is a diagram showing an adsorption ring for molten metal. It is an explanatory diagram of a different example figure carried out. 1 is a case, 2 and 3 are lead wires, 4 is an alloy, 5 is a suction ring, and 6 is a sealing material.

Claims (3)

[Claims] (1) Place the ends of the two lead wires inserted into the insulating case at a required distance, and melt the ends of the lead wires at a set temperature to open the circuit. Cross-link with an alloy. The thermal fuse is characterized in that when the crosslinking alloy that bridges between the lead wires melts, the melted crosslinking alloy is instantly adsorbed to the end side of the lead wires to open the circuit instantly. Thermal fuse to open. (2) The ends of the two lead wires inserted into the insulating case are placed opposite each other with a required distance between them, and the ends of the lead wires are melted at a set temperature to open the circuit and cross-linked with an alloy. In the thermal fuse, a suction ring is inserted into the case end and at the lead wire end position so as to cover part of the outer periphery of the end of the cross-linked alloy with a small gap, and instantly absorbs the molten alloy. A thermal fuse that instantly opens a circuit by adsorbing it to open the circuit. (3) The ends of two lead wires inserted into the insulating case are placed opposite each other with a required distance between them, and the ends of the lead wires are melted at a set temperature to open the circuit and cross-linked with an alloy. In the thermal fuse, one or both ends of the opposing lead wires are flattened so that the crosslinked alloy melted at abnormal temperature is instantly adsorbed to the outer circumferential side of the lead wire ends and opens the circuit. A thermal fuse that instantly opens a circuit.