JP3149878U - cabinet - Google Patents

Abstract

A cabinet that does not corrode even in a humid environment is provided. The cabinet includes a housing 105, a substrate 130, a heater or a dew condensation preventer instead of the heater, an overcurrent prevention means 220, and a waterproof connector 150. The casing includes a main body 110 and a lid portion 120 formed of polycarbonate, and two or more fixing portions 116 for maintaining the closed state of the main body and the lid portion. The substrate is made of resin. A heater or an anti-condensation device that replaces the heater is disposed inside the housing and prevents condensation inside the housing. The overcurrent prevention means is disposed on the substrate and prevents an overcurrent from flowing through the heater. Further, the main body includes a packing 121 formed of rubber having excellent durability at a portion in contact with the lid portion. The lid portion also includes a packing made of rubber having excellent durability at a portion in contact with the main body. And when the cover part is in a closed state, the packing of the main body and the packing of the cover part are configured to contact each other. [Selection] Figure 3

Description

  The present invention relates to a cabinet for electrical wiring, particularly a cabinet used in a humid environment.

  An example of the electrical wiring cabinet is disclosed in Patent Document 1, for example. 1 and 2 show the configuration of a general conventional electrical wiring cabinet. FIG. 1 is a view in which the lid portion is released, and FIG. 2 is a view in which the lid portion is closed. The cabinet 900 of FIG. 1 shows an example in the case of being used as a distribution board, and includes a housing 905, a substrate 930, connectors 950-1 and 950-2, and a breaker 940. The casing 905 includes a steel plate main body 910, a lid portion 920, and a knob 960 for opening and closing the lid portion 920. The substrate 930 is disposed in the housing 905 and is a substrate for performing electrical wiring (a substrate for fixing components and cords necessary for electrical wiring). Connectors 950-1 and 950-2 are connectors that are arranged on the wall surface of the main body 910, and connect external electric wiring and internal electric wiring. Cables 990-1 and 990-2 are wired outside the connectors 950-1 and 950-2 to reach the internal electrical wiring 970. The lid portion 920 includes a packing 921 at a portion in contact with the main body.

Japanese National Patent Publication No. 11-502377

  The cabinet 900 is widely used for electrical wiring and the like. However, in a humid environment such as in a tunnel, the lid part dropped due to corrosion, the cabinet itself dropped, or electrical leakage was a problem.

  Therefore, an object of the present invention is to provide a cabinet that is resistant to corrosion even in a humid environment.

  The cabinet of the present invention includes a housing, a substrate, a heater or a dew condensation prevention device, overcurrent prevention means, and a waterproof connector. The housing includes a main body and a lid part formed of polycarbonate, and two or more fixing parts for maintaining the closed state of the main body and the lid part. The substrate is made of resin, and is a substrate for electrical wiring that is disposed in the housing. The heater is installed inside the housing to prevent condensation inside the housing. The overcurrent prevention means is disposed on the substrate and prevents an overcurrent from flowing through the heater. In addition, you may attach the dew condensation prevention device which penetrates a housing bottom part instead of a heater, and may discharge | emit the humidity inside a housing to the exterior of a housing. The waterproof connector is disposed on the wall surface of the main body and hermetically connects the external electrical wiring and the internal electrical wiring. Further, the main body includes a packing made of rubber having excellent durability at a portion in contact with the lid portion. The lid portion also includes a packing made of rubber having excellent durability at a portion in contact with the main body. And when the cover part is in a closed state, the packing of the main body and the packing of the cover part are configured to contact each other. The “rubber with excellent durability” means a rubber equivalent to the durability of the cabinet in the environment where it is actually used, and specifically includes silicon rubber, ethylene propylene rubber, and fluorine rubber.

  According to the cabinet of this invention, the airtightness inside a cabinet can be maintained with the packing and two or more fixing | fixed part which were comprised in both the main body and the cover part. Moreover, the dew condensation in a cabinet can be prevented with a heater or a dew condensation prevention device. Furthermore, since the casing is formed of polycarbonate, the corrosion resistance can be improved while ensuring the strength required for the casing. Therefore, the cabinet of the present invention is hardly corroded even in a humid environment.

The figure which showed the structure of the cabinet for the conventional electrical wiring in the state which the cover part opened. The figure which showed the structure of the cabinet for the conventional electrical wiring in the state which the cover part closed. The figure which showed the structure of the cabinet of this invention in the state which the cover part opened. The figure which showed the structure of the cabinet of this invention in the state which the cover part closed. The figure which expanded the part which the main body 110 and the cover part 120 contact. The figure which shows another specific example when the part which the main body 110 and the cover part 120 contact is expanded. The figure which shows a mode that the cabinet was fixed to ceilings, such as a tunnel. The figure which shows a mode that the cabinet was fixed to wall surfaces, such as a tunnel. The figure which shows another mode which fixed the cabinet to wall surfaces, such as a tunnel. The figure which shows the result of the experiment which confirmed the airtightness of the cabinet in case of the notch of packing, a fixing part, and the packing of silicon rubber. The figure which shows the result of the experiment which confirmed the airtightness of the cabinet in the case of the notch | incision of a packing, a fixing part, and a silicon rubber packing. The figure which shows the result of the experiment which confirmed the airtightness of the cabinet in case of the notch | no cut of a packing, a fixed part, and the urethane packing. The figure which shows the result of the experiment which confirmed the airtightness of the cabinet in the case of the packing of not having a notch | incision of a packing, having a fixing part, and urethane. The figure which shows the result of the experiment which confirmed the airtightness of the cabinet in the case of the packing of a silicon rubber packing without a notch of a packing, and a fixing part.

  Hereinafter, embodiments of the present invention will be described in detail. In addition, the same number is attached | subjected to the structure part which has the same function, and duplication description is abbreviate | omitted.

  3 and 4 show configuration examples of the cabinet of the present invention. FIG. 3 is a view in which the lid portion is released, and FIG. 4 is a view in which the lid portion is closed. The cabinet 100 of the present invention includes a housing 105, a substrate 130, a heater 210, an overcurrent prevention means 220, waterproof connectors 150-1, 150-2, a breaker 940, and internal electrical wirings 970, 270, 280. The casing 105 includes a main body 110 and a lid portion 120 formed of polycarbonate, and two fixing portions 116-1 and 126-1, and 116-2 and 126 for maintaining the closed state of the main body 110 and the lid portion 120. -2 and a knob 960 for opening and closing the lid 920. In this example, the fixing portion is a single fixing portion including the fixing portion 116-1 on the main body 110 side and the fixing portion 126-1 on the lid portion 120 side. Two or more fixing parts may be provided. Furthermore, the main body 110 includes a packing 111 formed of rubber having excellent durability at a portion that comes into contact with the lid portion 120. The “rubber with excellent durability” means a rubber equivalent to the durability of the cabinet in the environment where it is actually used, and specifically includes silicon rubber, ethylene propylene rubber, and fluorine rubber. The lid portion 120 also includes a packing 121 made of rubber having excellent durability at a portion that comes into contact with the main body 110. When the lid 120 is in a closed state, the packing 111 of the main body 110 and the packing 121 of the lid 120 are configured to contact each other.

  The substrate 130 is made of resin and is disposed in the housing 105 and is a substrate for performing electrical wiring. The heater 210 is disposed in the housing 105 and prevents condensation inside the housing 105. In addition, you may provide a dew condensation prevention device instead of a heater. The overcurrent prevention unit 220 is disposed on the substrate 130 and prevents overcurrent from flowing through the heater 210. The waterproof connectors 150-1 and 150-2 are arranged on the wall surface of the main body 110 and hermetically connect the external electrical wiring and the internal electrical wiring. As used herein, the term “sealed wire” refers to the case where the external electrical wiring and the internal electrical wiring are the same cable, and the cable passes in a state where the airtightness is maintained. This means that both the external electrical wiring and the internal electrical wiring are connected in a state where the above is maintained. Cables 990-1 and 990-2 are wired outside the waterproof connectors 150-1 and 150-2, and reach the internal electrical wiring 970. For example, the cable 990-1 is a power supply side cable, and the cable 990-2 is a cable for wiring below the cabinet 100. The cable 990-2 is connected to a lighting device, a ventilation fan, a drainage pump, and the like. The breaker 940 is provided to stop power feeding when a leakage or short circuit occurs below the cabinet 100.

  The overcurrent prevention means 220 is connected to the electrical wiring 970 on the power supply side (side closer to the cable 990-1) than the breaker 940 via the electrical wiring 270. Further, the electrical wiring 280 connects the overcurrent prevention means 220 and the heater 210. The reason why the heater 210 is connected to the electrical wiring 970 on the power source side of the breaker 940 is to prevent the inside of the cabinet 100 from condensing even when the breaker 940 is in a disconnected state. An overcurrent prevention means 220 is provided as a countermeasure when the heater 210 fails.

  FIG. 5 is an enlarged view of a portion where the main body 110 and the lid portion 120 are in contact with each other. In this example, the main body 110 has a groove 113 and a convex portion 112, and the packing 111 is provided at the tip of the convex portion 112. If it is a cabinet for electrical wiring, the width | variety of the front-end | tip of a convex part should just be 2-8 mm, the thickness of the packing 111 should just be 0.3-0.7 mm, and the thickness of the packing 121 is 5-6 mm. do it. If the main body 110 and the lid portion 120 are closed, the packing 111 and the packing 121 are in close contact with each other. Since the packing 111 and the packing 121 are rubbers having excellent durability such as silicon rubber, ethylene propylene rubber, and fluorine rubber, even if this state continues for a long time, the packings do not adhere to each other. In FIG. 5, the main body 110 is provided with the convex portion 112, but the lid portion 120 may be provided with the convex portion and the packing 111 of the main body 110 may be flattened.

According to the cabinet 100, two or more fixing parts (the combination of 116-1 and 126-1, and the combination of 116-2 and 126-2) of the packings 111 and 121 provided in both the main body 110 and the lid part 120. The airtightness inside the cabinet 100 can be maintained. Further, the heater 210 can prevent condensation in the cabinet. In addition, you may attach the dew condensation prevention device which penetrates a housing bottom part instead of a heater, and may discharge | emit the humidity inside a housing to the exterior of a housing. In this case, the overcurrent prevention means 220 is also unnecessary. Furthermore, by forming the casing 105 from polycarbonate, the corrosion resistance can be improved while ensuring the strength required for the casing 105. The problem due to corrosion is less likely to occur due to the fact that the substrate 130 is made of resin and the waterproof connectors 150-1 and 150-2 are used. Therefore, the cabinet of the present invention is hardly corroded even in a humid environment. Moreover, it is possible to prevent leakage of the internal electrical wiring over a long period of time.
[Modification]
FIG. 6 is a diagram showing another specific example when a portion where the main body 110 and the lid 120 are in contact with each other is enlarged. There is a notch 122 in the packing 121 ′ of the lid 120. When the main body 110 and the lid portion 120 are closed when the notch 122 is present in this way, the tip portion of the convex portion 112 and the packing 111 are in the state of being in the notch 122 of the packing 121. Even with such a configuration, the same effect as in the first embodiment can be obtained. In FIG. 6, the main body 110 is provided with the convex portion 112, but the lid portion 120 may be provided with a convex portion and the packing 111 of the main body 110 may be flattened.

FIG. 7 is a diagram illustrating a state in which the cabinet 100 is fixed to a ceiling such as a tunnel. 7A is a front view, FIG. 7B is a side view, and FIG. 7C is a plan view with the ceiling omitted. The ceiling 810 is made of concrete or the like. The support member 310 is formed of a resin such as FRP, and is fixed to the ceiling 810 with screws or the like. The cabinet 100 is fixed to the support member 310 with a screw with a seal washer or the like. Thus, if the resin-made support material 310 is used, the problem that a cabinet falls by corrosion of a support material can be solved.
[Modification 1]
FIG. 8 is a diagram illustrating a state in which the cabinet 100 is fixed to a wall surface such as a tunnel. 8A is a front view, FIG. 8B is a side view, and FIG. 8C is a plan view. Wall surface 820 is formed of concrete or the like. The support member 320 is formed of a resin such as FRP, and is fixed to the wall surface 820 with screws or the like. The cabinet 100 is fixed to the support member 320 by a screw with a seal washer or the like. If the resin support member 320 is used in this way, the problem of the cabinet falling due to corrosion of the support member can be solved.
[Modification 2]
FIG. 9 is a diagram illustrating a state in which the cabinet 100 is fixed to a wall surface such as a tunnel. 9A is a front view, FIG. 9B is a side view, and FIG. 9C is a plan view. The support material 330 includes a first support material 331 and a second support material 332 formed of a resin such as FRP. The first support member 331 is fixed to the wall surface 820 with screws or the like. The second support member is fixed to the cabinet 100 with a screw with a seal washer or the like. The cabinet 100 is fixed to the wall surface 820 by fixing the first support member 331 and the second support member 332 with screws or the like. If the resin support member 330 is used in this way, the problem of the cabinet falling due to corrosion of the support member can be solved.

Experimental results The results of experiments confirming the airtightness of the cabinet of the present invention are shown below. In this experiment, the pressure inside the housing was examined after pressurizing the housing to 6 Kpa and stopping the pressurization. FIG. 10 shows the result of packing with a gasket cut and no fixing part, silicon rubber packing, FIG. 11 shows the result of packing with a packing cut and fixing part, and silicon rubber packing, and FIG. 12 shows the result of packing with no silicon packing and fixing part. None, the result of urethane packing, Fig. 13 shows the result of packing with no slit, with fixing part, urethane packing, and Fig. 14 shows the result of packing with silicon rubber without slitting, with fixing part Yes. In addition, with a fixing | fixed part is a case where two fixing | fixed parts are provided. Moreover, (A) of each figure is when there is no packing on the main body side, (B) is when the width of the tip of the convex portion on the main body side is 0.7 mm, and (C) is the width of the tip of the convex portion on the main body side. Is 0.5 mm.

  From FIG. 10 and FIG. 12, it can be seen that when there is no fixing portion, it cannot withstand pressurization up to 6 Kpa. From FIG. 13 and FIG. 14, it can be seen that silicon rubber is superior to urethane as the packing. From FIG. 11 and FIG. 13, it can be seen that the airtightness can be further improved by providing the convex portion. In addition, although it is subtle, it can be seen that the case without the cut does not depend on the width of the tip of the convex portion and the like, and the airtightness can be stably secured.

  From these experimental results, it can be seen that the airtightness of the cabinet can be enhanced by providing packing on both the main body and the lid part and providing two or more fixing parts. It can also be seen that if silicon rubber is used for the packing, good results can be expected in terms of improving airtightness.

100, 900 Cabinet 105, 905 Housing 110, 910 Main body 111 Packing 112 Protruding part 113 Groove 116, 126 Fixing part 120, 920 Cover part 121, 921 Packing 130, 930 Substrate 150 Waterproof connector 210 Heater 220 Overcurrent prevention means 270, 280 , 970 Electrical wiring 310, 320, 330 Support material 331 First support material 332 Second support material 940 Breaker 950 Connector 960 Knob

Claims (7)

A cabinet for electrical wiring,
A housing having a main body and a lid portion formed of polycarbonate, and two or more fixing portions for maintaining the closed state of the main body and the lid portion;
A resin substrate disposed in the housing for electrical wiring;
A heater disposed in the housing and preventing dew condensation inside the housing;
An overcurrent prevention means disposed on the substrate and preventing an overcurrent from flowing through the heater;
A waterproof connector disposed on the wall surface of the main body and sealingly connecting an external electrical wiring and an internal electrical wiring;
With
The main body includes a packing made of rubber having excellent durability at a portion in contact with the lid portion,
The lid portion also includes a packing made of rubber having excellent durability in a portion that comes into contact with the main body,
When the lid is in a closed state, the packing of the main body and the packing of the lid are in contact with each other. A cabinet for electrical wiring,
A housing having a main body and a lid portion formed of polycarbonate, and two or more fixing portions for maintaining the closed state of the main body and the lid portion;
A resin substrate disposed in the housing for electrical wiring;
An anti-condensation device disposed within the enclosure and preventing condensation within the enclosure;
A waterproof connector disposed on the wall surface of the main body and sealingly connecting an external electrical wiring and an internal electrical wiring;
With
The main body includes a packing made of rubber having excellent durability at a portion in contact with the lid portion,
The lid portion also includes a packing made of rubber having excellent durability in a portion that comes into contact with the main body,
When the lid is in a closed state, the packing of the main body and the packing of the lid are in contact with each other. The cabinet according to claim 1 or 2,
A cabinet characterized in that the rubber having excellent durability is any one of silicon rubber, ethylene propylene rubber, and fluorine rubber. The cabinet according to any one of claims 1 to 3,
The lid of the lid portion is formed in a flat shape, and the packing of the main body is formed in a convex portion having a tip width of 2 to 8 mm. The cabinet according to claim 4,
The thickness of the packing of the main body is 0.3 to 0.7 mm. The cabinet according to any one of claims 1 to 3,
The cabinet according to claim 1, wherein the packing of the main body is formed in a flat shape, and the packing of the lid portion is formed as a convex portion having a tip width of 2 to 8 mm. The cabinet according to claim 6,
The cabinet characterized in that the thickness of the lid packing is 0.3 to 0.7 mm.

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