JP2012027033A - Apparatus for checking branch circuit connection of distribution board - Google Patents

Apparatus for checking branch circuit connection of distribution board Download PDF

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JP2012027033A
JP2012027033A JP2011197795A JP2011197795A JP2012027033A JP 2012027033 A JP2012027033 A JP 2012027033A JP 2011197795 A JP2011197795 A JP 2011197795A JP 2011197795 A JP2011197795 A JP 2011197795A JP 2012027033 A JP2012027033 A JP 2012027033A
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branch
current
zero
breaker
distribution board
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JP5505887B2 (en
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Tetsuo Furumoto
哲男 古本
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Tempearl Industrial Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a check apparatus capable of saving labor for a connection check of a distribution board and wiring.SOLUTION: A check apparatus is comprised of: a distribution board 1 including a plurality of branch breakers 6-9; a master unit 22 including means 16-20 for measuring a change in electrification current for each of the branch breakers 6-9, and a means 21 for transmitting the electrification current for each of the branch breakers 6-9 in which a change of the electrification current has been measured, to a slave unit 56; the slave unit 56 including a means 49 for receiving a transmit signal from the master unit 22 and a means 50 for displaying the electrification current for each of the branch breakers 6-9; and a load device 45 connected to a wiring terminal for each of the branch breakers 6-9. The branch breaker 6-9 to which the load device 45 is connected, is specified. Furthermore, the master unit 22 includes a zero-phase current measuring means 11 of a trunk, the slave unit 56 includes a resistance means 53 connected between a voltage electrode and a ground electrode of the wiring terminal, and a means 50 for displaying a zero-phase current of the trunk, and the zero-phase current is read by the slave unit 56, thereby confirming a connection state between the ground electrode of the wiring terminal and the ground.

Description

本件の発明は,分電盤の分岐回路の接続チェック装置に係わる。   The present invention relates to a connection check device for a branch circuit of a distribution board.

従来,建物の電気設備工事の竣工検査などにおいて,分電盤の負荷側の配線接続チェックは,分電盤側と接続配線端末側に人を分けて配し,分岐ブレーカー1回路毎に声を掛け合いながら各々の配線が配線設計で指定された分岐ブレーカーに接続されているかを,実際に電気を通電しながらチェックしていた。   Conventionally, in the completion inspection of electrical installation work for buildings, the wiring connection check on the load side of the distribution board is divided between the distribution board side and the connection wiring terminal side, and voices are made for each branch breaker circuit. Checking whether each wiring is connected to the branch breaker specified in the wiring design while actually energizing.

特開2003−107121号公報JP 2003-107121 A

しかしながら,例えば建物が集合住宅などで,分電盤の設置数量がたくさんある場合には,それぞれの分電盤全てについて分岐ブレーカの配線接続をチェックしていくのは,非常に多くの時間と人手がかかる作業となっていた。また,近年はコンセントなどは接地極付きのものが増える傾向にあり,コンセントへの配線極性や接地線の接続チェックも必要になるなど,複雑化する傾向にある。本発明は,上記問題点を解決するために,分電盤に接続される配線について,分岐ブレーカと配線端末間の接続チェックや,コンセントの接続極性と接地の接続チェックが一人で行え,集合住宅などでも検査に要する人手を削減できるような分電盤の分岐回路の接続チェック装置を提供することを目的とするものである。   However, for example, when a building is an apartment house and there are many distribution boards installed, it is very time-consuming and labor-intensive to check the wiring connection of the branch breakers for each distribution board. It was work that took. In recent years, the number of outlets and the like with a grounding electrode tends to increase, and the wiring polarity to the outlet and the connection check of the grounding wire are also required, and the trend tends to be complicated. In order to solve the above-mentioned problems, the present invention enables a single person to check the connection between the branch breaker and the wiring terminal and the connection polarity of the outlet and the ground connection for the wiring connected to the distribution board. It is an object of the present invention to provide a connection check device for a branch circuit of a distribution board that can reduce labor required for inspection.

請求項1は,建築物に設置されて配線工事された複数の分岐ブレーカを備えた分電盤と,コンセントや照明器具などの配線端末との接続に関し,前記分電盤内において各分岐ブレーカの負荷側配線に予め設けられ分岐ブレーカ毎に通電電流の変化を測定する手段と,前記通電電流の変化が測定された該分岐ブレーカ毎の通電電流を子機に対して送信する手段を備えたて分電盤側に設けられる親機と,親機からの送信信号を受信する手段と,分岐ブレーカ毎の通電電流を表示する手段を備えて配線端末側に設けられる子機と,分岐ブレーカ毎の配線端末に接続する負荷装置から成り,負荷装置を接続した際の各分岐ブレーカ毎の通電電流の変化から配線端末が接続されている分岐ブレーカを特定することを特徴とする分電盤の分岐回路接続チェック装置を提供するものである。   Claim 1 relates to a connection between a distribution board having a plurality of branch breakers installed in a building and wired and a wiring terminal such as an outlet or a lighting fixture. A means for measuring a change in energization current for each branch breaker provided in advance in the load side wiring, and a means for transmitting the energization current for each branch breaker for which the change in the energization current is measured to the slave unit. A master unit provided on the distribution board side, means for receiving a transmission signal from the master unit, a slave unit provided on the wiring terminal side with means for displaying an energization current for each branch breaker, and each branch breaker A branch circuit of a distribution board comprising a load device connected to a wiring terminal, wherein the branch breaker to which the wiring terminal is connected is specified from a change in energization current for each branch breaker when the load device is connected Connection check There is provided a click device.

請求項2は,前記親機には,前記複数の分岐ブレーカが接続される幹線の零相電流測定手段と,幹線に流れる零相電流を子機に対して送信する手段を備え,前記子機には,アース極を備えた配線端末のうち,電圧極とアース極の間に接続する抵抗手段と,親機からの送信信号を受信する手段と,幹線の零相電流を表示する手段を備え,前記抵抗手段を通じて電圧極とアース極の間に流れる零相電流を前記零相電流測定手段により測定し,該零相電流を子機で読み取ることにより,配線端末のアース極と大地との接続状態を確認することを特徴とする分電盤の分岐回路接続チェック装置を提供するものである。   According to a second aspect of the present invention, the master unit includes: a zero-phase current measuring unit for a trunk line to which the plurality of branch breakers are connected; and a unit for transmitting a zero-phase current flowing through the trunk line to the slave unit. Among the wiring terminals equipped with a grounding electrode, there are provided resistance means connected between the voltage electrode and the earthing electrode, means for receiving a transmission signal from the master unit, and means for displaying the zero-phase current of the main line. The zero-phase current flowing between the voltage electrode and the earth electrode through the resistance means is measured by the zero-phase current measuring means, and the zero-phase current is read by the slave unit, thereby connecting the earth electrode and the ground of the wiring terminal. The present invention provides a branch circuit connection check device for a distribution board characterized by confirming the state.

請求項3は,前記子機は,前記配線端末のL極及びN極の各極ごとに対地電圧の有無を判定する検電器を合わせ持つことを特徴とする分電盤の分岐回路接続チェック装置を提供するものである。   According to a third aspect of the present invention, the cordless panel has a branch circuit connection check device for a distribution board, wherein the cordless handset also has a voltage detector for determining the presence or absence of ground voltage for each of the poles L and N of the wiring terminal. Is to provide.

請求項4は,前記請求項2の抵抗手段の抵抗値は,零相電流値が主幹ブレーカの漏電遮断器の動作感度電流値未満となるような値であることを特徴とする請求項2または請求項3に記載の分電盤の分岐回路接続チェック装置を提供するものである。 According to a fourth aspect of the present invention, the resistance value of the resistance means of the second aspect is such that the zero-phase current value is less than the operation sensitivity current value of the leakage breaker of the main breaker. A branch circuit connection check device for a distribution board according to claim 3 is provided.

請求項5は,前記請求項1の分岐ブレーカ毎の通電電流測定手段は,各分岐ブレーカの負荷側配線のL極とN極に夫々設けられ,往復電流を測定するものであることを特徴とする請求項1または請求項2または請求項3に記載の分電盤の分岐回路接続チェック装置を提供するものである。   According to a fifth aspect of the present invention, the energizing current measuring means for each branch breaker according to the first aspect is provided at each of the L pole and the N pole of the load side wiring of each branch breaker, and measures the round trip current. The branch circuit connection check device for a distribution board according to claim 1 or claim 2 or claim 3 is provided.

以上のように請求項1の発明では,建築物に設置されて配線工事された複数の分岐ブレーカを備えた分電盤と,コンセントや照明器具などの配線端末との接続に関し,前記分電盤内において各分岐ブレーカの負荷側配線に予め設けられ分岐ブレーカ毎に通電電流の変化を測定する手段と,前記通電電流の変化が測定された該分岐ブレーカ毎の通電電流を子機に対して送信する手段を備えて分電盤側に設けられる親機と,親機からの送信信号を受信する手段と,分岐ブレーカ毎の通電電流を表示する手段を備えて配線端末側に設けられる子機と,分岐ブレーカ毎の配線端末に接続する負荷装置から成り,負荷装置を接続した際の各分岐ブレーカ毎の通電電流の変化から各配線端末が接続されている分岐ブレーカを特定するようにしたので,子機を配線端末の位置まで持ち歩き,電流表示手段で表示される負荷装置を入切したときの電流変化からその配線端末がどの分岐ブレーカに接続されているのかが容易に判別できる。     As described above, the invention according to claim 1 relates to a connection between a distribution board having a plurality of branch breakers installed in a building and wired and a wiring terminal such as an outlet or a lighting fixture. Means for measuring the change in energization current for each branch breaker provided in advance on the load side wiring of each branch breaker, and transmitting the energization current for each branch breaker for which the change in the energization current is measured to the slave unit A master unit provided on the distribution board side with means for receiving, a means for receiving a transmission signal from the master unit, a slave unit provided on the wiring terminal side with means for displaying an energization current for each branch breaker, Because it consists of a load device connected to the wiring terminal for each branch breaker, the branch breaker to which each wiring terminal is connected is specified from the change in the energization current for each branch breaker when the load device is connected. Cordless handset Carry to the position of the wiring terminals, whether they are connected to a load device which is displayed in the current display means from the current change when the Nyusetsu any branch breakers that wiring terminals can be easily discriminated.

請求項2の発明では,前記親機には,前記複数の分岐ブレーカが接続される幹線の零相電流測定手段と,幹線に流れる零相電流を子機に対して送信する手段を備え,前記子機には,アース極を備えた配線端末のうち,電圧極とアース極の間に接続する抵抗手段と,親機からの送信信号を受信する手段と,幹線の零相電流を表示する手段を備え,前記抵抗手段を通じて電圧極とアース極の間に流れる零相電流を前記零相電流測定手段により測定し,該零相電流を子機で読み取ることにより,配線端末のアース極と大地との接続状態を確認するようにしたので,抵抗手段を配線端末の電圧極とアース極に接続した際の子機の電流表示手段の零相電流の表示から配線端末のアース極が確実に接地されているかどうかを判別できる。   In the invention of claim 2, the master unit is provided with a zero-phase current measuring means for the trunk line to which the plurality of branch breakers are connected, and a means for transmitting the zero-phase current flowing through the trunk line to the slave unit, The slave unit includes a resistance means connected between the voltage electrode and the ground electrode, a means for receiving a transmission signal from the master unit, and a means for displaying the zero-phase current of the trunk line among the wiring terminals having a ground electrode. The zero-phase current flowing between the voltage electrode and the earth electrode through the resistance means is measured by the zero-phase current measuring means, and the zero-phase current is read by a slave unit, whereby Therefore, the ground terminal of the wiring terminal is securely grounded from the display of the zero-phase current of the current display means of the slave unit when the resistance means is connected to the voltage terminal and the ground electrode of the wiring terminal. Can be determined.

請求項3の発明では,前記子機は,前記配線端末のL極及びN極の各極ごとに対地電圧の有無を判定する検電器を合わせ持つようにしたので,配線端末がどの分岐ブレーカに接続されているかということと,配線端末のアース極が確実に接地されているかどうかを判別できる。   In the invention of claim 3, since the slave unit has a voltage detector for determining the presence or absence of ground voltage for each of the L pole and N pole of the wiring terminal, the branch terminal is connected to which branch breaker. It is possible to determine whether it is connected and whether the ground terminal of the wiring terminal is securely grounded.

請求項4の発明では,前記請求項2の抵抗手段の抵抗値は,零相電流値が主幹ブレーカの漏電遮断器の動作感度電流値未満となるような値とすることで配線端末のアース極の接続状態確認の際に,主幹の漏電遮断器が遮断動作することがない。   According to a fourth aspect of the present invention, the resistance value of the resistance means of the second aspect is set such that the zero-phase current value is less than the operation sensitivity current value of the leakage breaker of the main breaker. When checking the connection status, the main earth leakage breaker will not shut off.

請求項5の発明では,前記の分岐ブレーカ毎の通電電流測定手段は,各分岐ブレーカの負荷側配線のL極とN極に夫々設けられ,往復電流を測定するようにしたので,配線端末が,分岐ブレーカ同士をまたがって配線しているような場合も判別できる。 According to the invention of claim 5, the energizing current measuring means for each branch breaker is provided at each of the L pole and N pole of the load side wiring of each branch breaker and measures the round trip current. , It is also possible to discriminate cases where wiring is performed across branch breakers.

本件発明による第一の実施例の図Diagram of the first embodiment according to the present invention 本件発明請求項5の実施例の図Figure of embodiment of claim 5 of the present invention 表示器の表示例の図Figure of display example of display unit

以下,本発明の実施の形態について,図面を用いて詳細に説明する。   Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

図1に本件発明のチェック装置の実施例を示す。図1において1は分電盤で,5は主幹ブレーカ,6〜9は複数の分岐ブレーカ,2〜4はL1,N,L2極の幹線の導体,10はアース端子である。23〜31は分電盤1から引き出された各分岐ブレーカに接続される分岐配線で,34,35,36,39は各配線の端末で,34と35は照明,32と33は照明ON/OFF用の手元スイッチ,36と39はコンセントで,そのうち39は接地極付きのものである。   FIG. 1 shows an embodiment of the check device of the present invention. In FIG. 1, 1 is a distribution board, 5 is a main trunk breaker, 6 to 9 are a plurality of branch breakers, 2 to 4 are trunk conductors of L1, N, and L2 poles, and 10 is a ground terminal. Reference numerals 23 to 31 denote branch wirings connected to the branch breakers drawn from the distribution board 1, 34, 35, 36 and 39 are terminals of the respective wirings, 34 and 35 are illuminations, 32 and 33 are illumination ON / OFF Hand switches for OFF, 36 and 39 are outlets, of which 39 are grounded.

図1において,11は幹線2,3,4の零相電流を測定するための零相変流器,12〜15はそれぞれ分岐ブレーカ6〜9の通電電流を個別に測定するための変流器で,親機22に接続される。16は零相変流器11が接続される零相電流検出回路,17〜20は変流器12〜15が接続される電流検出回路である。なお,本例では,分岐ブレーカが4つの場合を例示しているが,先の12〜15の変流器と17〜20の電流検出回路は,分岐ブレーカの数分用意されるものであり,分岐ブレーカの数やそれぞれの配線端末は図1に限定されるものではない。21は,零相電流と各分岐ブレーカの通電電流を子機56に対して送信する送信回路であり,零相電流と各分岐ブレーカの通電電流の電流値を個別にデータとして送信する。22が親機である。   In FIG. 1, 11 is a zero-phase current transformer for measuring the zero-phase currents of the main lines 2, 3, and 4, and 12 to 15 are current transformers for individually measuring the energization currents of the branch breakers 6 to 9, respectively. Thus, the main unit 22 is connected. Reference numeral 16 denotes a zero-phase current detection circuit to which the zero-phase current transformer 11 is connected, and reference numerals 17 to 20 denote current detection circuits to which the current transformers 12 to 15 are connected. In this example, the number of branch breakers is four. However, the current transformers 12 to 15 and the current detection circuits 17 to 20 are prepared for the number of branch breakers. The number of branch breakers and the respective wiring terminals are not limited to those shown in FIG. Reference numeral 21 denotes a transmission circuit that transmits the zero-phase current and the energization current of each branch breaker to the slave unit 56, and individually transmits the zero-phase current and the current value of the energization current of each branch breaker as data. Reference numeral 22 denotes a master unit.

45は,36や39のコンセントなどに接続する負荷装置で,ターミナル43,44を有する。より具体的には,抵抗器でもよいしヘヤドライヤーのような電気製品でもよい。46,47は同じくコンセントなどに接続するターミナル,48はコンセントなどの接地極に接続するターミナルである。51は電圧計でターミナル46,47間の電圧を測定するが,なくてもよい。54と55は検電器で,ターミナル46と47の大地に対する電圧の有無をチェックする。図では検電器は2つ用いるようになっているが,ひとつの検電器でターミナル46,47を切り替えるようにしてもよい。53はターミナル46と48間にスイッチ51を介して接続される抵抗器である。56は子機である。   A load device 45 is connected to an outlet 36 or 39 and has terminals 43 and 44. More specifically, a resistor or an electrical product such as a hair dryer may be used. Similarly, 46 and 47 are terminals connected to an outlet and the like, and 48 is a terminal connected to a grounding electrode such as an outlet. Although 51 is a voltmeter and measures the voltage between the terminals 46 and 47, it does not need to be. 54 and 55 are voltage detectors that check the presence or absence of voltage to the ground of terminals 46 and 47. Although two voltage detectors are used in the figure, the terminals 46 and 47 may be switched by one voltage detector. A resistor 53 is connected between the terminals 46 and 48 via the switch 51. Reference numeral 56 denotes a slave unit.

49は前記の送信回路21から送信されるデータを受信する受信回路,50は表示器で,先の零相電流や各分岐ブレーカ毎の通電電流を表示するもので,値として表示してもよいし,閾値を設けてランプ表示としてもよい。なお,送受信の通信媒体については,電波などの無線方式としてもよいし,有限の電線でもよいし,電灯線搬送などを用いてもよい。   49 is a receiving circuit for receiving data transmitted from the transmitting circuit 21, and 50 is a display for displaying the previous zero-phase current and the energizing current for each branch breaker, which may be displayed as values. However, a threshold value may be provided for lamp display. Note that the transmission / reception communication medium may be a radio system such as radio waves, a finite electric wire, or a power line conveyance.

以上のような構成において,分電盤の負荷側の配線チェック方法について述べる。まず,分電盤の幹線導体と各分岐ブレーカの負荷側配線に図1の変流器11〜15をクランプさせて主幹,分岐の各ブレーカは全てONにしておく。次に子機56,負荷装置45を持って,照明やコンセントなどの設置場所に移動する。34の照明がどの分岐ブレーカに接続されているかを調査するには,表示器50を見ながら手元スイッチ32を入切させる。すると親機側では,12の変流器が電流の変化を検知し,親機22から子機55に対して12の変流器電流値が送信され,測定者は表示器50の12の変流器を取付けた分岐ブレーカの電流表示の変化から照明34は変流器12を取付けた分岐ブレーカすなわち6に接続されていることが判明する。35の照明についても同様である。図3に表示器の表示の一例を示す。先の34の照明を入切した場合では,入切操作に合わせて分岐ブレーカ6の電流表示値が変化するので,照明34は分岐ブレーカ6に接続されていると判断できる。図3は一例であって,先に述べたように電流値を表示しなくても閾値を設けてある幅で電流値が変化したとき,その分岐ブレーカに対応するランプが点滅するようにしてもよい。   A method of checking the wiring on the load side of the distribution board in the above configuration will be described. First, the current transformers 11 to 15 shown in FIG. 1 are clamped to the trunk line conductor of the distribution board and the load side wiring of each branch breaker, and the main and branch breakers are all turned on. Next, the handset 56 and the load device 45 are held and moved to an installation place such as an illumination or an outlet. In order to investigate which branch breaker is connected to the lighting 34, the hand switch 32 is turned on and off while looking at the display 50. Then, on the master unit side, the twelve current transformers detect the change in current, and the master unit 22 transmits the twelve current transformer current values to the slave unit 55, and the measurer displays the twelve current transformers on the display unit 50. It can be seen from the change in the current display of the branch breaker with the current transformer that the illumination 34 is connected to the branch breaker or 6 with the current transformer 12 attached. The same applies to 35 illuminations. FIG. 3 shows an example of display on the display. When the previous illumination 34 is turned on / off, the current display value of the branch breaker 6 changes in accordance with the on / off operation, so that it can be determined that the illumination 34 is connected to the branch breaker 6. FIG. 3 shows an example. As described above, when the current value changes within a certain width even if the current value is not displayed, the lamp corresponding to the branch breaker may blink. Good.

次に,配線端末がコンセントの場合について説明する。45の負荷装置のターミナル43,44をコンセント36のターミナル37,40に接続する。負荷機器45には電流が流れるから,先の照明の場合と同様に表示器の電流表示の変化からコンセント36は分岐ブレーカ8に接続されていることが判明する。なお,43と44のターミナルは46と47のターミナルと共用してスイッチで負荷装置の電源を入切するようにしてもよい。仮に各分岐ブレーカの負荷に先の照明や負荷装置以外の機器(例えば冷蔵庫など)が接続され使用中であっても,分岐ブレーカの特定は容易に行える。すなわち,表示器50の表示は照明34や負荷装置45の入切に連動するが,その他の機器の通電電流は入切操作に連動しないからである。入切操作と合わせて電流が変化する分岐ブレーカがその配線端末が接続されている分岐ブレーカである。   Next, the case where the wiring terminal is an outlet will be described. The terminals 43 and 44 of the 45 load devices are connected to the terminals 37 and 40 of the outlet 36. Since a current flows through the load device 45, it is found that the outlet 36 is connected to the branch breaker 8 from the change in the current display of the indicator as in the case of the previous illumination. The terminals 43 and 44 may be shared with the terminals 46 and 47, and the load device may be turned on and off with a switch. Even if a device other than the previous lighting or load device (for example, a refrigerator) is connected to the load of each branch breaker and is in use, the branch breaker can be easily identified. That is, the display on the display device 50 is linked to the turning on / off of the illumination 34 and the load device 45, but the energization current of other devices is not linked to the turning on / off operation. A branch breaker in which the current changes in accordance with the on / off operation is a branch breaker to which the wiring terminal is connected.

次に,コンセントの接続極性が正しいかどうかをチェックするには,ターミナル46,47がコンセント36のターミナル37,40に接続された状態で検電器54,55の表示を確認する。46が37に47が40に接続された状態では,54の検電器が電圧があることを表示し,55の検電器は表示しないから極性接続は正しいと判別できる。もし逆の場合は37のターミナルがN極に38のターミナルがL極につながっており,また両方の検電器が点灯していれば,37と40の両方のターミナルがL極に接続されていることになって接続間違いであると判別できる。   Next, in order to check whether the connection polarity of the outlet is correct, the displays of the voltage detectors 54 and 55 are confirmed while the terminals 46 and 47 are connected to the terminals 37 and 40 of the outlet 36. In a state in which 46 is connected to 37 and 47 is connected to 40, 54 voltage detectors display that there is voltage, and 55 voltage detectors do not display, so that it is possible to determine that the polarity connection is correct. If the opposite is true, 37 terminals are connected to the N pole and 38 terminals are connected to the L pole, and if both voltage detectors are lit, both the 37 and 40 terminals are connected to the L pole. As a result, it can be determined that the connection is wrong.

さらに,39のような接地極付きのコンセントの場合の接地極のターミナル42が確実にアースにつながっているかどうかのチェック方法について説明する。46を38,47を41,48を42のターミナルに接続し,スイッチ52を入れる。もし配線に間違いがなければ,L2極から大地に向けて抵抗器53の値によって定まる電流が流れるから,零相変流器11がその電流を検出し,表示器50がその電流を表示するから,その表示から,確実にアースに接続されているかどうかが判別できる。すなわち,もし配線間違いで,42のターミナルがN極に接続されている場合は,抵抗53によって流れる電流はL,Nの往復電流となるから,零相変流器11は電流を検知しない。また,ターミナル42がアースに確実に接続されていない場合も電流が流れないから零相変流器11は電流を検知しない。先の抵抗器53の抵抗値は,主幹ブレーカ5が漏電遮断器である場合,その動作感度電流未満に設定すると,測定のたびに主幹ブレーカが遮断動作せず都合がよい。   Further, a method for checking whether or not the terminal 42 of the ground electrode in the case of an outlet with a ground electrode such as 39 is surely connected to the ground will be described. 46 is connected to 38, 47 is connected to 41, 48 is connected to 42 terminals, and the switch 52 is turned on. If there is no mistake in wiring, a current determined by the value of the resistor 53 flows from the L2 pole to the ground, so the zero-phase current transformer 11 detects the current and the display 50 displays the current. From the display, it can be determined whether it is securely connected to the ground. That is, if 42 terminals are connected to the N pole due to a wiring mistake, the current flowing through the resistor 53 is a reciprocating current of L and N, so the zero-phase current transformer 11 does not detect the current. Further, even when the terminal 42 is not securely connected to the ground, no current flows, so the zero-phase current transformer 11 does not detect the current. When the main breaker 5 is an earth leakage breaker, the resistance value of the resistor 53 is set to be less than the operation sensitivity current, which is convenient because the main breaker does not cut off every measurement.

以上の図1の説明において,例えば,24の配線が分岐ブレーカ7のN極側に接続されている場合,配線としては間違いであるが,照明34は分岐ブレーカ6に接続されていると判定できて,間違いを判定できないことが想定される。その場合,図2に示すように,通電電流は往復を測定するようにしてもよい。図2の例では,各分岐ブレーカの両方の極の配線にそれぞれ変流器12,12‘,13,13’,14,14‘,15,15’が取付けられており,通電電流検出回路17,18,19,20はそれぞれの変流器の検出電流を検出し,送信回路21で受信回路49に送信し,表示器50は各分岐ブレーカの往路と復路のそれぞれの電流を表示するようにする。このようにすれば,先の例の場合,通電電流は分岐回路6と7の両方に現れ,配線間違いであると判定できる。
In the above description of FIG. 1, for example, when 24 wires are connected to the N pole side of the branch breaker 7, it can be determined that the illumination 34 is connected to the branch breaker 6, although the wiring is wrong. Therefore, it is assumed that mistakes cannot be judged. In that case, as shown in FIG. 2, the energization current may be measured in a reciprocal manner. In the example of FIG. 2, current transformers 12, 12 ′, 13, 13 ′, 14, 14 ′, 15, 15 ′ are respectively attached to the wirings of both poles of each branch breaker. , 18, 19 and 20 detect the detected currents of the respective current transformers and transmit the detected currents to the receiving circuit 49 by the transmission circuit 21, and the display 50 displays the respective currents of the forward path and the return path of each branch breaker. To do. In this way, in the case of the previous example, the energization current appears in both the branch circuits 6 and 7, and it can be determined that the wiring is wrong.

1 分電盤
2,3,4 主導体
5 主幹ブレーカ
6,7,8,9 分岐ブレーカ
8,9,10 配線
10 アース端子
11 零相変流器
12〜15 変流器
16 零相電流検知回路
16〜20 分岐ブレーカの通電電流検知回路
21 送信回路
23〜31 分岐ブレーカの負荷側の配線
32,33 手元スイッチ
34,35 照明
36,39 コンセント
37,38,40,41 コンセントのターミナル
42 コンセントのアース極のターミナル
45 負荷装置
43,44 負荷装置のターミナル
46〜48 子機のターミナル
49 受信回路
50 表示手段
52 スイッチ
53 抵抗手段
54,55 検電器
56 子機

1 Distribution board 2, 3, 4 Main conductor 5 Main breaker 6, 7, 8, 9 Branch breaker 8, 9, 10 Wiring 10 Ground terminal 11 Zero-phase current transformer 12-15 Current transformer 16 Zero-phase current detection circuit 16 to 20 Branching breaker energization current detection circuit 21 Transmission circuit
23-31 Branch breaker load side wiring
32, 33 Hand switch 34, 35 Lighting 36, 39 Outlet 37, 38, 40, 41 Outlet terminal 42 Outlet ground terminal 45 Load device 43, 44 Load device terminal 46-48 Slave terminal 49 Receiver circuit 50 Display means 52 Switch 53 Resistance means 54, 55 Voltage detector 56 Child machine

Claims (5)

建築物に設置されて配線工事された複数の分岐ブレーカを備えた分電盤と,コンセントや照明器具などの配線端末との接続に関し,
前記分電盤内において各分岐ブレーカの負荷側配線に予め設けられ分岐ブレーカ毎に通電電流の変化を測定する手段と,前記通電電流の変化が測定された該分岐ブレーカ毎の通電電流を子機に対して送信する手段を備えて分電盤側に設けられる親機と,
親機からの送信信号を受信する手段と,分岐ブレーカ毎の通電電流を表示する手段を備えて配線端末側に設けられる子機と,
分岐ブレーカ毎の配線端末に接続する負荷装置から成り,
負荷装置を接続した際の各分岐ブレーカ毎の通電電流の変化から各配線端末が接続されている分岐ブレーカを特定することを特徴とする分電盤の分岐回路接続チェック装置。 Regarding the connection between a distribution board with multiple branch breakers installed in a building and wired, and wiring terminals such as outlets and lighting fixtures,
Means for measuring a change in energization current for each branch breaker provided in advance in the load-side wiring of each branch breaker in the distribution board, and the energization current for each branch breaker in which the change in the energization current is measured as a slave unit A master unit provided on the distribution board with means for transmitting to
A slave unit provided on the wiring terminal side having means for receiving a transmission signal from the master unit and means for displaying an energization current for each branch breaker;
It consists of a load device connected to the wiring terminal for each branch breaker,
A branch circuit connection check device for a distribution board, wherein a branch breaker to which each wiring terminal is connected is specified from a change in energization current for each branch breaker when a load device is connected. 前記親機には,前記複数の分岐ブレーカが接続される幹線の零相電流測定手段と,幹線に流れる零相電流を子機に対して送信する手段を備え,
前記子機には,アース極を備えた配線端末のうち,電圧極とアース極の間に接続する抵抗手段と,親機からの送信信号を受信する手段と,幹線の零相電流を表示する手段を備え,
前記抵抗手段を通じて電圧極とアース極の間に流れる零相電流を前記零相電流測定手段により測定し,該零相電流を子機で読み取ることにより,配線端末のアース極と大地との接続状態を確認することを特徴とする請求項1記載の分電盤の分岐回路接続チェック装置。 The master unit includes a main-phase zero-phase current measuring unit to which the plurality of branch breakers are connected, and a unit for transmitting a zero-phase current flowing in the main line to the sub-unit.
The cordless handset displays the resistance means connected between the voltage pole and the earth pole, the means for receiving the transmission signal from the master machine, and the zero-phase current of the main line among the wiring terminals having the earth pole. With means,
The zero-phase current flowing between the voltage electrode and the earth electrode through the resistance means is measured by the zero-phase current measuring means, and the zero-phase current is read by a slave unit, whereby the connection state between the earth electrode of the wiring terminal and the ground The branch circuit connection check device for a distribution board according to claim 1, wherein: 前記子機は,前記配線端末のL極及びN極の各極ごとに対地電圧の有無を判定する検電器を合わせ持つことを特徴とする請求項1または請求項2に記載の分電盤の分岐回路接続チェック装置。 3. The distribution board according to claim 1, wherein the slave unit includes a voltage detector for determining the presence or absence of a ground voltage for each of the L pole and the N pole of the wiring terminal. Branch circuit connection check device. 前記抵抗手段の抵抗値は,零相電流値が主幹ブレーカの漏電遮断器の動作感度電流値未満となるような値であることを特徴とする請求項2または請求項3に記載の分電盤の分岐回路接続チェック装置。 4. The distribution board according to claim 2, wherein the resistance value of the resistance means is a value such that a zero-phase current value is less than an operation sensitivity current value of a leakage breaker of a main breaker. Branch circuit connection check device. 前記分岐ブレーカ毎の通電電流測定手段は,
各分岐ブレーカの負荷側配線のL極とN極に夫々設けられ,往復電流を測定するものであることを特徴とする請求項1または請求項2または請求項3または請求項4に記載の分電盤の分岐回路接続チェック装置。

The energizing current measuring means for each branch breaker is:
5. The component according to claim 1, 2, 3, or 4, wherein the branch circuit breaker is provided at each of the L pole and the N pole of the load side wiring of each branch breaker and measures a round-trip current. A check system for branch circuit connection of electrical boards.

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JPH05199624A (en) * 1991-08-12 1993-08-06 Seiji Yamamoto Branch breaker specifying unit and intermittent load unit for wiring in building
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JP2021067530A (en) * 2019-10-21 2021-04-30 河村電器産業株式会社 Power distribution board connection inspection device
JP7270521B2 (en) 2019-10-21 2023-05-10 河村電器産業株式会社 Distribution board connection inspection device

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