JP6734492B1 - Distribution board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a distribution board that can use an illuminator and the like in a room while preventing power leakage during a power failure. SOLUTION: In a casing 101 of a distribution board 100A, an earth leakage breaker 2, a plurality of safety breakers 3, an auxiliary earth leakage breaker 4 and an auxiliary outlet 5 are arranged. These configurations 2, 3, 4, and 5 are usually covered with an openable/closable lid of the housing 101. Normally, the earth leakage breaker 2 and each safety breaker 3 are in the ON state, and the auxiliary earth leakage breaker 4 is in the OFF state. During a power failure, the earth leakage breaker 2 is switched to the OFF state, the auxiliary earth leakage breaker 4 is switched to the ON state, and the auxiliary outlet 5 is connected to the external indoor generator 7 by the wiring cable 6. In that case, the wiring cable 6 connected to the auxiliary outlet 5 passes through the through hole provided in the lid of the housing 101. The current supplied from the indoor generator 7 flows into the illuminator 10 in the room through the auxiliary leakage breaker 4 and the safety breaker 3A. [Selection diagram] Figure 2

Description

The present invention relates to a configuration of a distribution board that can cope with a power failure due to a disaster or the like.

On the wall of the building, install a generator connection part that is an outlet and a switching device that is a switch, and switch the switch from the output side of the safety breaker of the distribution board to the generator side in the event of a power failure. Then, a power supply method for directly supplying power from the generator to the emergency lighting via the outlet has been proposed (see, for example, Patent Document 1).

Further, there has been proposed a power supply method for supplying power to an earth leakage breaker in a distribution board from an outdoor generator via an outdoor outlet when a power failure occurs (for example, see Patent Document 2).

Utility model registration No. 3185936 gazette (paragraph 0005, FIG. 1) Japanese Patent No. 5954893 (Japanese Patent Laid-Open No. 2014-3730)

(1) A "power outage" in which power is not supplied from a commercial power source occurs over a long period or a short period of time due to a disaster such as an earthquake, heavy rain, heavy snowfall or typhoon, or due to a shortage of power in the summer There is a case. In the event of a power outage due to such a disaster, the illuminator that is always installed and used in the room of the building will not emit light at all, which is very inconvenient for the person in the building. , I become mentally uneasy. Therefore, even when a power outage occurs due to a disaster, etc., the illuminator that is constantly installed in the room and used daily until the electricity is restored will not be affected by a fire caused by power supply from another power source. It is expected that a power supply system that can be used will be realized only by performing an easy operation that is unlikely to cause trouble.

(2) Furthermore, when there is a power outage due to a disaster or the like, it is the human sentiment that we want to know information or news that informs the social situation such as the situation of the disaster, even though we are in the room. For that purpose, a relatively low power consumption such as a television (hereinafter referred to as "TV")/personal computer (hereinafter referred to as "personal computer") connected to an outlet provided on a wall in the room. It is also expected to realize a power supply system in which electric equipment can be operated and television programs can be viewed or the Internet can be utilized.

(3) Further, from the same viewpoint as (2) above, in order to secure a communication device capable of communicating with the outside, charging of a mobile terminal device such as a mobile phone, a smartphone or a tablet terminal is performed in a room. It is also expected to realize a power supply system that can be realized by connecting to an outlet provided on the inner wall.

(Purpose of the invention)
The present invention has been made in view of such problems, and its main purpose is to be installed in a room at all times until daily restoration of electricity, even in the event of a power outage due to a disaster or the like. It is possible to use electric equipment with relatively low power consumption, such as existing illuminators and televisions, with a relatively easy operation without worrying about electrical troubles such as leakage and with a power outage. The point is to provide a possible distribution board.

A distribution board according to the subject matter of the present invention includes a housing, an earth leakage breaker arranged in the housing, an input portion arranged in the housing, and electrically connected to an output portion of the earth leakage breaker. A safety breaker having an auxiliary leakage breaker disposed in the housing and having an output portion electrically connected to the output portion of the leakage breaker, and the auxiliary leakage current disposed in the housing. An auxiliary outlet electrically connected to the input part of the breaker is provided , the housing has a lid that can be opened and closed, and the lid has a through hole that penetrates the lid, At the time of a power failure of the commercial power source, the auxiliary outlet is electrically connected to a generator outside the housing through a wiring cable passing through the through hole of the lid in a closed state .
Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings together with effects and advantages thereof.

It is a figure which shows typically the structure and usage condition of the electricity distribution panel which concerns on Embodiment 1 of this invention. It is a figure which shows typically the structure and usage condition of the electricity distribution panel which concerns on Embodiment 2 of this invention. FIG. 11 is a perspective view schematically showing an outer appearance of a distribution board casing according to Embodiment 3 of the present invention when the distribution board is viewed from below. It is a figure which shows typically the structure and usage condition of the electricity distribution panel which concerns on the modification (1) of this invention.

(Embodiment 1)
<Composition of distribution board>

The distribution board according to the present embodiment is a case where a "limiter space", which is an installation space for mounting an ampere breaker (current limiter), is provided in advance in the distribution board.

FIG. 1 is a diagram schematically showing a configuration inside a casing (box) 101 of such a distribution board 100. As shown in FIG. 1, in a casing 101 of a distribution board 100, an ampere breaker (current limiter) 1, an earth leakage breaker (earth leakage breaker) 2, and a plurality of safety breakers ( A circuit breaker 3), an auxiliary leakage breaker (leakage breaker) 4, an auxiliary outlet 5, and branch wirings 14, 15 and 16 are provided. In the present embodiment, the casing 101 of the distribution board 100 has a lid for covering the above-described respective constituent elements 1, 2, 3, 4, 5, 14, 15, 16 in the distribution board 100. I haven't. Among the above components of the distribution board 100, the ones that operate at the time of power failure are the auxiliary outlet 5, the auxiliary leakage breaker 4, and the safety breakers 3 (3A, 3B) as described later. Components outside the distribution board 100 are commercial power supply 12, ammeter 13, wiring cable 6, indoor generator 7, electric equipment such as a vacuum cleaner/TV installed on the wall of each room (excluding illuminators). .) outlets 11 and 11A. Further, as an external component of the distribution board 100, an illuminator (LED illuminator or the like) 10 that is attached to the ceiling surface of each room and is always used, and on a branch circuit from the safety breaker 3A to the illuminator 10. There is an illuminator switch 8 provided, and an illuminator outlet 9 provided on the ceiling surface of each room and electrically and mechanically connected to the illuminator 10. The illuminator outlet 9A is for a Japanese-style room, and is for an illuminator when the illuminator switch 8 for turning on and off the illuminator 10 is not provided on the wall of the Japanese-style room. It is an outlet. Further, as an external component of the distribution board 100, it consumes less power than an air conditioner, a microwave oven, etc., and is an electric product for a TV or a personal computer 17 that is constantly connected to an outlet 11A and is used for charging. There is a mobile terminal device (mobile phone/smartphone/tablet terminal) 18 connected to the outlet 11A.

In the distribution board 100 according to the present embodiment, the plurality of safety breakers 3 are 1) a safety breaker 3A having a cutoff function for protecting the safety of the branch circuit up to the illuminator 10 in each room, and 2) each. It consists of a safety breaker 3B having a shut-off function for protecting the safety of the branch circuit up to the outlet 11 of the room. Of these, the input portion of the safety breaker 3A is connected to the branch wiring 15 which is a neutral wire for grounding and the branch wiring 16 which is one of the voltage side electric wires, and the output portion of the safety breaker 3A is It forms one end of the branch circuit to the illuminator 10 in the corresponding room. On the other hand, the input section of the safety breaker 3B is connected to the branch wiring 15 and the branch wiring 14 which is the other voltage side electric wire, and the output section of the safety breaker 3B is connected to the outlet 11 of the corresponding room. It forms one end. Alternatively, the input portion of the safety breaker 3B is connected to the branch wiring 15 and the branch wiring 16 which is one of the voltage side electric wires, and the output portion of the safety breaker 3B is connected to a TV or a computer 17 in a room. It forms one end of the branch circuit to the outlet 11A. When the electric equipment used is an air conditioner, although not shown in FIG. 1, the input parts of the safety breaker 3 are the branch wiring 16 which is one voltage side electric wire and the other voltage side electric wire. It is connected to the branch wiring 14.

As is well known, the ampere breaker 1 in the casing 101 of the distribution board 100 is a breaker that automatically cuts off a circuit or electricity when a current more than a rating defined by a contract with a power company flows. (Circuit breaker). The input section of the ampere breaker 1 is electrically connected to the commercial power supply 12 via an ammeter 13.

Further, as is well known, the earth leakage breaker 2 having an input portion electrically connected to the output portion of the ampere breaker 1 has a failure such as a wiring in a building or an electric product connected to the outlets 9, 11, 11A. Is a breaker (circuit breaker) that automatically detects and cuts off a circuit or electricity when a leakage occurs. As described above, the output part of the earth leakage breaker 2 is connected to the input part of each safety breaker 3 through the connection with each branch wiring 14, 15, 16.

Further, the auxiliary earth leakage breaker 4 in the casing 101 of the distribution board 100 is a circuit breaker used exclusively during a power failure of the commercial power supply 12, and an output portion electrically connected to the above-mentioned output portion of the earth leakage breaker 2. Have. This auxiliary earth leakage breaker 4 also has the same interruption function as the earth leakage breaker 2, and is connected to the wiring in the building or to each illuminator 10 connected to the outlets 9, 9A, 11A, and the TV/PC 17. A breaker is a breaker that automatically detects a leakage and shuts off a circuit or electricity when a leakage occurs due to a failure or the like.

The output end of the auxiliary outlet 5 is electrically connected to the input portion of the auxiliary earth leakage breaker 4, and the plug 6A on one end side of the external wiring cable 6 is connected to the auxiliary outlet 5 only during a power failure. Plugged into.

Here, the indoor power generator 7 is a known compact power generator that can be installed indoors, and various types of products are commercialized as the indoor power generator 7. For example, a storage battery with a solar panel (lithium ion battery) can be used as the indoor power generator 7. Alternatively, a generator that operates with a cassette cylinder for a cassette stove can be used as the indoor generator 7. In this case, it is possible to continue to use the generator by purchasing and replacing the cassette cylinder each time.

<Behavior and advantages of distribution board>
(1) Normal time (no power failure)
In the normal time when the commercial power source 12 is not out of power, the ampere breaker 1, the earth leakage breaker 2 and all the safety breakers 3 in the casing 101 of the distribution board 100 are set so that their respective handles are “on” side. Therefore, it is in the "ON state". On the other hand, since the handle of the auxiliary earth leakage breaker 4 in the housing 101 of the distribution board 100 is set to the “turn off” side, it is in the “OFF state”. Therefore, the current supplied from the commercial power source 12 into the housing 101 of the distribution board 100 flows to the branch circuit formed by each safety breaker 3 through the ampere breaker 1 and the earth leakage breaker 2, and each outlet 9 , 9A, 11 and 11A are electrically connected to the respective illuminators 10 and/or electric devices such as the television/PC 17, or are in operation.

(2) At the time of power failure When the commercial power supply 12 has a power failure due to a disaster or the like, first, the respective handles of the ampere breaker 1 and the earth leakage breaker 2 in the casing 101 of the distribution board 100 are on the “off” side. Then, the ampere breaker 1 and the earth leakage breaker 2 are both set to the “OFF state”. Then, the handle of the auxiliary earth leakage breaker 4 in the casing 101 of the distribution board 100 is lifted to the “enter” side, and the state of the auxiliary earth leakage breaker 4 is changed from the “OFF state” to the “ON state”. To be done. Then, the other plug 6B of the wiring cable 6 is inserted into the outlet 7A of the indoor generator 7 outside the distribution board 100, and on the other hand, the auxiliary outlet 5 in the casing 101 of the distribution board 100 is wired. One plug 6A of the cable 6 is inserted. As a result, the auxiliary leakage breaker 4 in the housing 101 of the distribution board 100 electrically connects to the indoor generator 7 outside the distribution board 100 via the auxiliary outlet 5 also in the housing 101. It will be connected. Therefore, when the switch (not shown) of the indoor generator 7 is turned on to change the state of the indoor generator 7 from the "OFF state" to the "ON state", the power is supplied from the indoor generator 7. The electric current flows into the auxiliary outlet 5 in the casing 101 of the distribution board 100 through the wiring cable 6, and further, through the auxiliary leakage breaker 4, each safety breaker 3A connected to the branch wirings 15 and 16. , 3B flows to the branch circuit to each room. As a result, the illuminator 10 in each room is turned on or off according to the on/off operation of the switch 8 or the remote controller (not shown) of the illuminator 10 in each room. With this, even during a power failure, the illuminators 10 in all the rooms or some of the rooms can be turned on until the amount of electricity stored in the indoor generator 7 is exhausted, and the resident of the building can illuminate. It is mentally stable under the brightness of 10 and can work in the lighted room. Moreover, the resident activates the television or the personal computer 17 by inserting the plug of the wiring cable of the television 17 or the personal computer 17 connected to the Internet into the outlet 11A during a power outage due to a disaster or the like, and through the screen of the television or the personal computer 17, You can get information or news about the situation such as disaster or social situation. In addition, the resident can also charge the mobile terminal such as the smartphone 18 through the outlet 11A, and thus can ensure the usable state of the smartphone 18 even during a power failure. In this way, even in the state of blackout, residents can communicate with people outside the building such as telephone and e-mail, and more information than SNS etc. via the Internet. You can get to know Therefore, even in the anxiety of power failure, residents can recover and maintain their mental stability. If a leakage occurs during a power failure, the auxiliary leakage breaker 4 in the casing 101 of the distribution board 100 instantly detects the leakage and the current supplied from the indoor generator 7 is detected. Can be automatically shut off to ensure the safety of the resident from electrical trouble. In this case, the resident removes the cause of the electric leakage (for example, the failure of the illuminator 10 in a certain room), and then lifts the fallen handle of the auxiliary electric leakage breaker 4 to remove the auxiliary electric leakage breaker 4. The state of is set to "ON state" again. As a result, the resident can still obtain the above-mentioned respective advantages such as lighting of the illuminator 10 in the room during the power failure. As described above, due to the above-described operation and action of the distribution board 100, the distribution board 100 is always installed in the room for daily use until the electricity is restored even in the event of a power failure due to a disaster or the like. Electric appliances with relatively low power consumption, such as existing illuminators and televisions, can be used without fear of causing electrical troubles such as leakage and with relatively easy operation.

(3) At the time of power failure recovery When the power failure condition is resolved and the non-power failure condition is recovered, the resident first turns off the indoor power generator 7 by turning off the indoor power generator 7. After setting to the state, the plug 6A of the wiring cable 6 is pulled out from the auxiliary outlet 5 in the housing 101 of the distribution board 100. As a result, the electrical connection state between the auxiliary outlet 5 in the casing 101 of the distribution board 100 and the external indoor generator 7 is completely electrically disconnected (OFF state), and the auxiliary leakage current is generated. The current flowing from the breaker 4 to the side of the branch circuit formed by each safety breaker 3A disappears. Therefore, the resident sets the state of the auxiliary leakage breaker 4 to the “cut-off state (OFF state)” by lowering the handle of the auxiliary leakage breaker 4 to the lower side. Then, the resident lifts the respective handles of the ampere breaker 1 and the earth leakage breaker 2 in the casing 101 of the distribution board 100 to set the breakers 1 and 2 to the “entering state (ON state)”. As a result, the restored current from the commercial power source 12 flows through the ampere breaker 1 and the earth leakage breaker 2 to each branch circuit side formed by each safety breaker 3. In this way, it is relatively easy for the residents to perform the operations when the power is restored.

(Embodiment 2)
The distribution board according to the present embodiment is of a type that does not have a “limiter space” in the housing of the distribution board as compared with distribution board 100 according to the first embodiment. Therefore, the ampere breaker does not exist in the casing of the distribution board. Here, FIG. 2 is a diagram showing components inside the housing 101 of the distribution board 100A according to the present embodiment. Each component of FIG. 2 corresponds to each component of FIG. 1 except that the ampere breaker 1 of FIG. 1 does not exist, and is the same. Therefore, in the present embodiment, with respect to the description of the configuration, operation, and action of each component in the casing 101 of the distribution board 100A of FIG. 2, the casing 101 of the distribution board 100 in the first embodiment is described. The description of the configuration, operation or action of each corresponding component in the above is cited.

In the distribution board 100A of FIG. 2 as well, when the commercial power supply 12 is in a power failure state, the auxiliary earth leakage breaker 4 is changed and set to the “entering state (ON state)” due to a mistake of the earth leakage breaker 2 of the main body. As a result, when the indoor generator 7 is electrically connected to the auxiliary outlet 5 via the wiring cable 6, the current supplied from the indoor generator 7 is passed through the auxiliary leakage breaker 4 to each safety breaker 3A. Flows to each branch circuit formed by. As a result, the illuminator 10 in each room can be turned on. Similarly, other electric devices with relatively low power consumption (TV/PC 17, smartphone 18, etc.) can be activated and charged, respectively. Therefore, also in the present embodiment, the operation and action of the distribution board 100A allows the distribution board 100A to be constantly installed in the room until the electricity is restored, even in the event of a power failure due to a disaster or the like. It is possible to use electrical equipment with relatively low power consumption, such as illuminators and televisions, which are used daily, with a relatively easy operation without fear of causing electrical troubles such as leakage. To do.

(Embodiment 3)
The distribution board according to the present embodiment is commonly applicable to the distribution boards 100, 100A, 100B according to the first and second embodiments described above and the modification (1) described later, The case 101 has the following features.

<Characteristic point 1>
The distribution board according to the present embodiment has a housing 101 having a lid that can be opened and closed. The lid has a through hole penetrating the lid. The position and shape of the through hole are basically arbitrary. When the commercial power supply 12 fails, the auxiliary outlet 5 in the casing 101 of the distribution board generates electricity outside the casing 101 through an external wiring cable 6 that passes through the through hole of the closed lid. It is electrically connected to the machine 7. In other words, the through hole of the lid has at least an opening size that allows the entire wiring cable 6 to pass through the through hole.

<Characteristic point 2>
The lid of the casing 101 of the distribution board according to the present embodiment further includes an openable/closable lid for the through hole, and the through hole lid is used for the through hole when the commercial power source 12 is not interrupted. Is in the closed state.

<Embodiment>
FIG. 3 is a perspective view of the distribution board 100, 100A, 100B according to the present embodiment schematically showing the appearance of the housing 101 when the distribution board 100, 100A, 100B is viewed from below. .. In FIG. 3, the housing 101 has a lid 102 that can be opened and closed in the direction indicated by arrow A. When the lid 102 is closed, the lid 102 entirely covers the respective components of the distribution boards 100, 100A, 100B arranged in the housing 101. However, the lid 102 is provided with a through hole 103 penetrating a portion of the lid 102 facing or facing the auxiliary outlet 5 described above. The through hole 103 has a through hole lid 104 that is openable and closable and is normally closed when the commercial power source 12 is not interrupted.

FIG. 3 shows the auxiliary outlet 5 in the housing 101 with the lid 102 closed and the indoor generator 7 arranged outside the housing 101 when the commercial power supply 12 is in a power failure. Are schematically shown to be electrically connected using the wiring cable 6. As shown in FIG. 3, the through-hole lid 104 is completely opened, and as a result, the auxiliary outlet 5 in the housing 101, which is closed by the lid 102, is exposed. Then, the plug 6A at one end of the wiring cable 6 is inserted into the auxiliary outlet 5, and the main body of the wiring cable 6 penetrates through the through hole 103 and projects to the outside from the lid 102 of the housing 101. Then, the plug 6B at the other end of the wiring cable 6 is inserted into the outlet 7A of the indoor generator 7. As a result, the electrical connection between the auxiliary outlet 5 and the auxiliary leakage breaker 4 in the housing 101 and the indoor generator 7 is realized. Unlike FIG. 3, when the through hole 103 is provided in a portion of the lid 102 other than the portion facing the auxiliary outlet 5, the lid 102 is slightly lifted and slightly opened. In this state, the plug 6A of the wiring cable 6 is inserted into the auxiliary outlet 5 and the wiring cable 6 is set so as to pass through the through hole 103, and then the lid 102 is completely closed.

As shown in FIG. 3, in a normal state (when there is no power outage), the distribution board 100, 100A, 100B is in a state in which the lid 102 and the through hole lid 104 are completely closed. Therefore, each component in the housing 101 is covered with the lid 102 and is not exposed to the external space. Therefore, as an advantage of the present embodiment, (1) each component inside the casing 101 of the distribution board 100, 100A, 100B is in a state of being protected from intrusion of moisture and dust from the outside, and (2) The body of the resident is prevented from coming into contact with each component inside the casing 101 of the distribution boards 100, 100A, 100B.

(Modification)
(1) The earth leakage breaker itself is sold on the market by itself. FIG. 4 is a diagram showing components inside the housing 101 of the distribution board 100B configured in view of such a viewpoint. As shown in FIG. 4, in the case 101 of the distribution board 100B according to the present modification, the output portion of the auxiliary outlet 5 is electrically connected to the output portion of the earth leakage breaker 2 through the wiring 19. It is connected to the. On the other hand, the auxiliary leakage breaker 4 is arranged outside the housing 101 of the distribution board 100B. In this configuration, the plug 6A of the wiring cable 6 is inserted into the auxiliary outlet 5, the plug 6C is inserted into the auxiliary outlet 5A of the auxiliary earth leakage breaker 4, and the plug 6D of the wiring cable 6 is attached to the auxiliary earth leakage breaker 4. The plug 6B is inserted into the outlet 7A of the indoor generator 7. It goes without saying that, in this modification as well, the operations and advantages described in the first and second embodiments can be similarly obtained. The configuration of this modification may be applied to a distribution board equipped with the ampere breaker 1 as shown in FIG. 1, and the same operation and advantage can be obtained.

(2) Although the subject matter of the present invention has been described in each of the first, second, third, and modified examples (1), the distribution board of the single-phase three-wire wiring has been described. The subject matter can be applied to a distribution board of single-phase two-wire type wiring with the same configuration as in the first, second, third or modified example (1). In that case as well, the operations and effects described in the first, second, third embodiments or the modification example (1) can be similarly obtained.

(3) In the first, second, third, and modified examples (1), as an “external generator” electrically connected to the auxiliary outlet 5 in the distribution boards 100, 100A, 100B, The indoor generator 7 is applied. However, instead of this, a small generator that is placed outdoors when used and indoors when not used, or a small or large outdoor generator that is always placed outdoors may be applied.

(4) The distribution board according to the present invention may also be provided with a breaker having a seismic function of detecting an earthquake having a seismic intensity of 5 or more and automatically interrupting the current.

(5) Regarding Embodiments 1 (FIG. 1), 2 (FIG. 2) and Modified Example (1) (FIG. 4), an additional auxiliary leakage breaker and an auxiliary outlet are provided on the safety breaker 3B side as well. An additional auxiliary outlet may be further provided. In this case, a through-hole and a through-hole cover corresponding to the through-hole 103 and the through-hole cover 104 in FIG.

(Appendix)
Although the embodiments of the present invention have been disclosed and described in detail above, the above description illustrates the applicable aspects of the present invention, and the present invention is not limited thereto. That is, various modifications and/or variations to the described aspects may be considered without departing from the scope of the invention.

INDUSTRIAL APPLICABILITY The present invention is suitable for application to, for example, a distribution board that can supply power to an illuminator in a room or an outlet in a room during a power failure due to a disaster or the like until power is restored.

100, 100A, 100B Distribution board 101 Distribution board housing 102 Distribution board housing lid 103 Through hole 104 Through hole lid A Distribution board housing lid opening direction 1 Ampere breaker 2 Leakage breaker 3 Safety Breaker 4 Auxiliary Leakage Breaker 5 Auxiliary Outlet 6 Wiring Cable 7 Indoor Generator 8 In-Room Illuminator Switch 9 In-Room Illuminator Outlet 10 In-Room Illuminator 11 In-Room Outlet 12 Commercial Power 14, 15 , 16 branch wiring 17 wiring

Claims (6)

A housing,
An earth leakage breaker that is disposed in the housing, and that is in an energized state and a non-energized state during non-power failure and commercial power failure of the commercial power supply, respectively .
A safety unit that is provided in the housing and has an input unit that is electrically connected to the output unit of the earth leakage breaker through a connection with branch wiring, and that is in an energized state when the commercial power source is uninterrupted and during a power outage. With a breaker,
The output section of the earth leakage breaker and the output section electrically connected only to the input section of the safety breaker, which are disposed in the housing and are connected to the branch wiring , have a non-power failure of the commercial power source. An auxiliary earth leakage breaker that is de-energized and energized during a power failure and a power failure, respectively
Wherein arranged in the housing and electrically the housing of the external generator electrically connected to an output portion connected to Ru and at the time of power failure of the commercial power source only in the input of the auxiliary earth leakage breaker A distribution board , comprising an input section, and an auxiliary outlet that is in a non-energized state and an energized state when the commercial power source is in a non-power failure state and a power failure state, respectively . A housing,
An earth leakage breaker arranged in the housing,
A safety breaker having an input section disposed in the housing and electrically connected to an output section of the earth leakage breaker,
An auxiliary earth leakage breaker having an output portion disposed in the housing and electrically connected to the output portion of the earth leakage breaker,
An auxiliary outlet disposed in the housing and electrically connected to an input portion of the auxiliary earth leakage breaker;
Is equipped with
The case has a lid that can be opened and closed,
The lid has a through hole penetrating the lid,
At the time of a power failure of the commercial power supply, the auxiliary outlet is electrically connected to a generator outside the housing through a wiring cable passing through the through hole of the lid in a closed state, Distribution board. The distribution board according to claim 2,
The distribution board, wherein the lid of the housing further includes a through-hole lid that is openable and closable in a state where the through-hole is closed when the commercial power supply is not interrupted. A housing,
An earth leakage breaker that is disposed in the housing, and that is in an energized state and a non-energized state during non-power failure and commercial power failure of the commercial power supply, respectively.
A safety unit that is provided in the housing and has an input unit that is electrically connected to the output unit of the earth leakage breaker through a connection with branch wiring, and that is in an energized state when the commercial power source is uninterrupted and during a power outage. With a breaker,
An output unit disposed in the housing, electrically connected only to the output unit of the earth leakage breaker and the input unit of the safety breaker through a connection with the branch wiring, and at the time of a power failure of the commercial power supply. An auxiliary unit having an input unit electrically connected to an auxiliary earth leakage breaker and a generator outside the housing, and being in a non-energized state and an energized state when the commercial power source is out of power and during a power failure, respectively. Outlet for
A distribution board characterized by being equipped with . A housing,
An earth leakage breaker arranged in the housing,
A safety breaker having an input section disposed in the housing and electrically connected to an output section of the earth leakage breaker,
An auxiliary outlet that is disposed in the housing and is electrically connected directly to the output portion of the earth leakage breaker through wiring ,
The case has a lid that can be opened and closed,
The lid has a through hole penetrating the lid,
At the time of a power failure of the commercial power supply, the auxiliary outlet is electrically connected to the output portion of the auxiliary earth leakage breaker outside the housing through a wiring cable that passes through the through hole of the lid that is closed. A distribution board characterized by the following. The distribution board according to claim 5,
The distribution board , wherein the lid of the casing further includes a through-hole lid that is openable and closable in a state where the through-hole is closed when the commercial power supply is not interrupted .

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