JP3243074U - fuse box - Google Patents

Abstract

A fuse box having fuses containing an arc-extinguishing agent capable of coping with lightning surges is provided. A fuse box (10) includes a fuse (12) containing an arc-extinguishing agent that is interposed in a first distribution line (15) and cuts off a lightning surge, a housing (11) that accommodates the fuse (12) inside, and a power source in one of the first distribution line (15). and a second connector 14 connected to a third distribution line 31 for supplying power to a personal computer on the other side of the first distribution line 15. It is characterized by [Selection drawing] Fig. 1

Description

The present invention relates to a fuse box with fuses containing arc-extinguishing agent.

BACKGROUND ART Conventionally, a fuse having a fuse element that generates heat and melts to cut off a current path when a current exceeding a rated current flows has been used to protect electronic equipment.

Therefore, a charger having an overcurrent blown fuse made of an alloy such as lead and tin is known (see Utility Model Document 1, for example).

Utility Model Registration No. 3172514

However, when a strong lightning surge occurs, the overcurrent blowout fuse made of an alloy of lead, tin, etc. melts the fuse element and causes an arc discharge. There is a risk that electronic devices, etc., cannot be sufficiently protected from lightning surges, such as damage to the devices, and furthermore, fuse tubes may be damaged and arc discharge may be blown out to the outside.

SUMMARY OF THE INVENTION An object of the present invention is to provide a fuse box having arc extinguishing agent-containing fuses capable of coping with lightning surges.

The fuse box for the personal computer of this invention,
A fuse containing an arc-extinguishing agent interposed in the first distribution line and blocking a lightning surge;
a housing containing the fuse;
a first connector connected to a second distribution line from a power source on one of the first distribution lines;
a second connector connected to a third distribution line for supplying power to a personal computer on the other side of the first distribution line.

In the present invention, the fuse box is provided with fuses containing an arc extinguishing agent that can withstand strong lightning surges that cannot be handled by overcurrent blown fuses made of alloys such as lead and tin. As a result, it is possible to improve lightning surge countermeasures, which were conventionally inadequate.

In the fuse box configured as described above,
Preferably, the fuse is sealed inside the housing by filling the inside of the housing with an insulating resin.

According to the fuse box of this configuration, the fuses and the connecting portions between the fuses and the distribution line portions are sealed with the insulating resin inside the housing. The durability of the connection portion can be improved.

In the fuse box configured as described above,
Preferably, the housing is made of flame-retardant plastic.

According to the fuse box with this configuration, since the housing is flame-retardant, it is possible to suppress the spread of fire to the fuse box when an electrical leak or fire occurs in a peripheral device of the fuse box, for example.

In the fuse box configured as described above,
The first connector and the second connector are provided on the surface of the housing,
It is preferable that the first connector and the second connector are formed in the same direction.

According to the fuse box with this configuration, when the fuse box is used, the space occupied by the connection points can be reduced when the predetermined connectors are connected to the first connector and the second connector.

It is a conceptual diagram showing the connection relationship between the fuse box and peripheral devices of the present invention. 1 is a perspective view of an embodiment of a fuse box of the present invention; FIG. 1 is a conceptual diagram showing a fuse of the present invention; FIG. FIG. 3 is a perspective view showing a modification of the fuse box of the present invention;

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a conceptual diagram showing connection relationships between a fuse box 10 and peripheral devices according to an embodiment of the present invention. As shown in FIG. 1, the fuse box 10 includes a housing 11, an arc-extinguishing agent-containing fuse 12 housed inside the housing 11, a first connector 13, a second connector 14, and a first distribution line 15. , and an insulating resin 16 .

As shown in FIG. 2, the housing 11 is formed in the shape of a hollow rectangular parallelepiped. A fuse 12 containing an arc-extinguishing agent is housed inside the housing 11, and an insulating resin 16 is filled in the cavity. That is, the arc-extinguishing agent-containing fuse 12 is sealed inside the housing 11 with the insulating resin 16 .

The housing 11 has a long surface along the longitudinal direction of the arc-extinguishing agent-containing fuse 12 . Therefore, the volume of the cavity formed inside the housing 11 can be reduced. Therefore, the space of the fuse box 10 can be saved, and the portability of the fuse box 10 can be improved. In addition, since the volume of the cavity inside the housing 11 is reduced, the amount of the insulating resin 16 filled inside the housing 11 can be reduced. Furthermore, since the housing 11 is formed in a rectangular parallelepiped shape, the fuse box 10 is highly stable when placed on a desk or the like.

In this embodiment, the housing 11 is formed in a rectangular parallelepiped shape, but may be formed in a cubic, cylindrical or polygonal shape.

The housing 11 is made of flame-retardant plastic. Therefore, for example, in a peripheral device of the fuse box, when an electric leak or fire occurs, it is possible to suppress the spread of the fire to the fuse box. Here, the flame-retardant plastic means a plastic judged to be V-0 or higher in the UL94 standard.

Examples of flame-retardant plastics include polytetrafluoroethylene (PTFE), polyimide (PI), polyphenylene sulfide (PPS), modified polyphenylene ether (modified PPE), polybutylene terephthalate (PBT), polyoxymethylene (POM), and the like. can be used.

As shown in FIG. 3, the arc-extinguishing agent-containing fuse 12 connects a cylindrical glass tube 12A, a pair of bases 12B provided at both axial ends of the glass tube, and the pair of bases 12B. It has a fuse element 12C and an arc extinguishing agent 12D filled inside the glass tube.

The fuse element 12C is, for example, an alloy combining metals such as lead (Pb), tin (Sn), bismuth (Bi), cadmium (Cd), silver (Ag), and copper (Cu). When a current flows through the fuse element 12C, Joule heat is generated by the resistance of the fuse element 12C and the flowing current, and the temperature of the fuse element 12C rises. When the temperature of the fuse element 12C exceeds the melting point of the fuse element 12C due to the flow of a current of a predetermined amount or more through the fuse element 12C, the fuse element 12C melts and cuts off the current.

The arc-extinguishing agent 12D is mainly composed of silicon dioxide (SiO ₂ ), for example, and can quickly extinguish (extinguish) arc discharge due to a lightning surge. Therefore, when a lightning surge is applied, the fuse element is rapidly melted by Joule heat, and the arc extinguishing agent 12D vaporizes and evaporates due to the heat of the generated arc, cooling the arc, increasing the arc resistance and restricting the current. . Then, the vaporized arc-extinguishing agent solidifies and acquires high insulation, so that the first distribution line 15 can be cut off quickly.

The first connector 13 is a DC jack to which the power connector 22 is connected. The power-side connector 22 is a connector for supplying current from the power supply 20 to the fuse box 10 via the second distribution line 21 . Although the first connector 13 is a DC jack in this embodiment, it may be an AC jack to which a commercial power supply, for example, is directly connected.

The first connector 13 is provided on the surface of the housing 11 and perpendicular to the longitudinal direction of the arc-extinguishing agent-containing fuse 12 . Therefore, the fuse box 10 can achieve space saving in the longitudinal direction of the arc-extinguishing agent-containing fuse 12 . The first connector 13 may be provided on the surface of the housing 11 in the longitudinal direction of the arc-extinguishing agent-containing fuse 12, or the first distribution line 15, which will be described later, extends to the outside of the housing 11. Therefore, the first connector 13 may be provided outside the housing 11 .

The second connector 14 is a DC plug connected to the personal computer side connector 32 . The personal computer side connector 32 is a connector for supplying power to the personal computer via the third distribution line 31 . Here, the personal computer refers to a portable notebook personal computer, a tablet personal computer, a stationary personal computer, and the like. Although the second connector 14 is a DC plug in this embodiment, it may be a DC jack, an AC plug or an AC jack. Also, if the second connector 14 is an AC plug or AC jack, an AC/DC converter may be provided between the fuse box 10 and the personal computer 30 . Furthermore, a plug shape conversion member for fitting to the personal computer side connector 32 may be provided between the second connector 14 and the personal computer side connector 32 .

The second connector 14 is provided on the surface of the housing 11 and perpendicular to the longitudinal direction of the arc-extinguishing agent-containing fuse 12 . Therefore, the fuse box 10 can achieve space saving in the longitudinal direction of the arc-extinguishing agent-containing fuse 12 . The second connector 14 may be provided on the surface of the housing 11 in the longitudinal direction of the fuse 12 containing arc-extinguishing agent. Thus, the second connector 14 may be provided outside the housing 11 .

As shown in FIG. 4, the second connector 14 is preferably provided on a surface of the housing 11 that is formed in the same direction as the surface on which the first connector 13 is provided. Since the second connector 14 is provided in the same direction as the first connector 13, the space occupied by the connection points when the power supply side connector 22 and the personal computer side connector 32 are connected to the fuse box 10 is reduced. can do.

A first distribution line 15 (indicated by a dashed line in the figure) is one of the first distribution lines that connects the first connector 13 and the second connector 14 via the arc-extinguishing agent-containing fuse 12 inside the housing 11 . It is formed by the electric wire 15A and the other first distribution line 15B that directly connects the first connector 13 and the second connector 14 . One first distribution line 15A connects the first connector 13 and one base 12B of the fuse 12 containing arc-extinguishing agent, and the second connector 14 to the other base 12B of the fuse 12 containing arc-extinguishing agent. It is divided into distribution lines and That is, the arc-extinguishing agent-containing fuse 12 is interposed in the first distribution line 15 . One first distribution line 15A is a positive electrode, and the other first distribution line 15B is a negative electrode.

The insulating resin 16 is a filler filled inside the housing 11 . Examples of the insulating resin 16 include insulating resins such as polyvinyl chloride (PVC), polypropylene (PP), polyethylene (PE), acrylic resin (PMMA), polyoxymethylene (POM), and polycarbonate (PC). can be used. Therefore, it is possible to improve the insulation properties of the arc-extinguishing agent-containing fuse 12 and the connecting portion between the base 12B of the arc-extinguishing agent-containing fuse 12 and the first distribution line 15A, and to improve the durability of the connecting portion. .

As described above, according to the present invention, it is possible to provide the fuse box 10 having the arc-extinguishing agent-containing fuse 12 capable of coping with lightning surges.

10 Fuse box 11 Housing 12 Arc-extinguishing fuse 13 First connector 14 Second connector 15 First distribution line 16 Insulating resin 20 Power supply 21 Second distribution line 22 Power supply side connector 30 Personal computer 31 Third distribution line 32 Personal computer side connector

Claims (4)

A fuse containing an arc-extinguishing agent interposed in the first distribution line and blocking a lightning surge;
a housing containing the fuse;
a first connector connected to a second distribution line from a power source on one of the first distribution lines;
and a second connector connected to a third distribution line for supplying power to the personal computer on the other side of the first distribution line. 2. The fuse box according to claim 1, wherein the fuse is sealed inside the housing by filling the inside of the housing with an insulating resin. 2. The fuse box of claim 1, wherein said housing is made of flame retardant plastic. The first connector and the second connector are provided on the surface of the housing,
2. The fuse box according to claim 1, wherein said first connector and said second connector are formed in the same direction.

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