JP4514124B2 - Plug unit with built-in current detector - Google Patents

Description

  The present invention relates to a plug unit with a built-in current detector, which includes a plug unit having a plug terminal for connecting a device such as a breaker or a terminal block to a bus bar.

When measuring a current value or the like in a distribution board or distribution board, as shown in Patent Document 1, it is common to attach a CT to the load side of the main breaker and route the signal line to the measuring instrument. However, with the recent increase in awareness of the environment, there is an increasing demand for providing a current detector in each branch breaker and monitoring the power usage status of the connected load equipment. In such a case, it is conceivable to attach a CT to the load side of the branch breaker. However, since the CT cannot be attached unless wiring on the load side is performed, the CT needs to be attached at the construction site. In particular, in large switchboards, the load side wiring is dense and the load side wiring cable itself is thick, so it is not easy to attach the CT.
Japanese Unexamined Patent Publication No. 2003-111215 (FIGS. 15, 18, 19, etc.)

  The object of the present invention is to solve the above-mentioned conventional problems, and to attach a current detector to an arbitrary unit such as a breaker of a switchboard having a bus bar to which a plug terminal can be connected, a terminal block, etc. at the time of shipment from the factory. Is to provide technology that can

  As a result of repeated studies to solve the above problems, the present inventor has solved the above problems by incorporating a current detector in a plug unit connected to a switchboard having a bus bar capable of connecting a plug terminal. I found that it can be solved. The plug unit includes a plug terminal on the bottom surface of the main body, a breaker attached to the top surface of the main body, a power supply terminal of a device such as a terminal block, and a plug terminal on the bottom, and a breaker and terminal attached to the top surface of the main body. It is equipped with a connection bar that connects the power supply terminal of the equipment such as the base and the plug terminal at the bottom, or it is equipped with a plug terminal on the front part of the main body, and a device such as a breaker or terminal block attached to the rear part of the main body A conductor for connecting the power supply terminal and the plug terminal is provided.

The present invention has been made in this way, and the invention of claim 1 is provided with a plug terminal at the bottom of the main body, and a connection for connecting the power terminal of the breaker attached to the upper surface of the main body and the plug terminal at the bottom. A plug unit equipped with a bar and a current detector built-in plug unit, wherein a Hall element as a current detector is attached to a terminal cover that covers the rising portion of the connection bar. It is a feature. The terminal cover may be provided with a detection signal output terminal of the current detector , and the terminal cover may be provided with a voltage detection means.

  By incorporating the plug unit with built-in current detector of the present invention into the switchboard, the current detector can be incorporated from the factory shipping stage, and installation work on the construction site is not required. Moreover, if the plug unit with a built-in current detector according to the present invention is used, the current detector can be attached to any device connected to the bus bar in the switchboard.

Embodiments of the present invention are shown below together with reference forms . In the first to thirteenth embodiments (or reference embodiments) , the plug unit is provided with a plug terminal on the bottom surface of the main body. In the fourteenth to fifteenth embodiments, the plug unit is connected to the front surface of the main body. It is equipped with. In addition, a Hall element is employed as the current detector. The Hall element is an element that detects a current by utilizing a phenomenon in which a Hall electromotive force V is generated in a direction perpendicular to both H and I when a current I flows through the semiconductor in a direction perpendicular to the magnetic field H in the magnetic field H. is there.

(First reference form )
FIG. 1 is a view showing a first reference embodiment of the present invention, and 1 is a main body of a plug unit. As shown in FIGS. 2 and 3, the main body 1 has a bottomless box shape, and the upper surface 2 is a plane on which a breaker 3 as a device is attached. The device is not limited to the breaker, but may be a terminal block, for example. The lower part of the main body 1 is a cavity, and three plug terminals 4 are arranged therein. Further, on both side surfaces of the lower portion of the main body 1, recesses 6 into which the three-phase bus bars 5 of the switchboard can be inserted are formed in three rows. Therefore, as shown in FIG. 1, the main body 1 can be inserted from above the three-phase bus bar 5 installed in the switchboard, and the three plug terminals 4 can be connected to the respective bus bars 5. And as shown in FIG. 4, the branch circuit of the switchboard is comprised by arrange | positioning the plug unit in parallel on the bus-bar 5 in parallel.

  The main body 1 is provided with three connection bars 7. As shown in FIG. 2, these connection bars 7 include a horizontal portion 8, a rising portion 9, and a bent portion 10, and a plug terminal 4 is attached to the tip of the horizontal portion 8. The bent portion 10 is a connecting portion with the power supply terminal 11 of the breaker 3 attached to the upper surface 2 of the main body 1. If the bent portion 10 is connected to the power supply terminal 11 with the screw 12, the power supply terminal 11 of the breaker 3 is used. Are connected to the plug terminal 4 at the bottom, and power can be supplied to the breaker 3 from the three-phase bus bar 5. In addition, since it is dangerous if the raising part 9 and the bending part 10 of the connection bar 7 are exposed to the outside, a resin-made hollow terminal cover 13 is detachably attached.

  The plug unit itself described above is known, but in the present invention, a current detector is mounted on such a plug unit. In the first embodiment, the current detector is a Hall element 14 and is arranged along the rising portion 9 of the connection bar 7 as shown in FIG. A signal amplification circuit 15 of the Hall element 14 is disposed inside the terminal cover 13 extended outward, and a detection signal output terminal 16 is disposed on the upper surface thereof. In FIG. 1, only one connection bar 7 is shown, but the same structure can be used for the three connection bars 7. The power supplied to the signal amplifier circuit is obtained by rectifying the power drawn from the connection bar 7.

  By using such a plug unit with a built-in current detector, the current flowing through the breaker 3 can be detected by the Hall element 14, and the measured value can be taken out from the detection signal output terminal 16. As shown in FIGS. 4 and 5, the voltage can be extracted by attaching a voltage detection terminal block 17 on the bus bar 5 of the switchboard. The voltage detection terminal block 17 has a copper piece embedded in the hole 18 in contact with the bus bar 5 and can insert a measuring instrument plug to measure the voltage. As shown in FIG. A screw hole may be used, and the voltage detection lead wire 19 may be attached by a screw 20. If the voltage is measured in addition to the current in this way, the power can be displayed on the measuring instrument. Note that the voltage detection terminal block 17 of FIG. 5 can also be used as a secondary feed terminal block of a switchboard.

( First embodiment )
FIG. 6 is a diagram showing a first embodiment of the present invention. In the first reference form shown in FIG. 1, the Hall element 14 is arranged along the rising portion 9 of the connection bar 7, but in the first embodiment, the Hall element 14 is arranged on the inner surface of the terminal cover 13. The positions of the signal amplifier circuit 15 and the detection signal output terminal 16 are the same as in the first reference embodiment . When the Hall element 14 is provided on the terminal cover 13 in this way, if only the terminal cover 13 of the plug unit is replaced, a plug unit with a built-in current detector is obtained, and application to an existing switchboard is facilitated.

( Second reference form )
FIG. 7 is a diagram showing a second reference embodiment of the present invention. In the second embodiment , the Hall element 14 is attached to the front surface of the power supply side terminal portion of the breaker 3. Other configurations are the same as those in the first reference embodiment . If the Hall element 14 is provided in the breaker 3 as described above, the distance between the Hall element 14 and the rising portion 9 of the connection bar 7 can be accurately determined with a simple structure. The variation in distance is eliminated, and the current detection accuracy can be improved.

( Third reference form )
FIG. 8 is a diagram showing a third reference embodiment of the present invention. In the third embodiment , the hall element 14 is attached to the rising portion 9 of the connection bar 7 via the insulator 21. Accordingly, the distance between the Hall element 14 and the conductor (connection bar 7) can be accurately determined with a simple configuration, and the current detection accuracy can be improved.

( Second Embodiment )
FIG. 9 shows a second embodiment . In the second embodiment , one end of an elastic body 31 such as a spring is attached to the terminal cover 13, and the hall element 14 is attached to the other end so that the hall element 17 contacts the rising portion 9 of the connection bar 7. It is a thing. An insulator 32 is attached to the surface where the Hall element 14 contacts the connection bar 7. Thereby, since the Hall element 14 is pressed against the rising portion 9 of the connection bar 7 by the spring, the distance between the Hall element 14 and the conductor (connection bar 7) can be accurately determined, and the detection accuracy is improved. Can do.

( 4th reference form )
FIG. 10 is a diagram showing a fourth reference embodiment of the present invention. In the fourth reference embodiment , the iron core 22 is provided around the rising portion 9 of the connection bar 7, and the Hall element 14 is attached to the notch portion of the iron core 22. As a result, there is no leakage magnetic flux, so even if the position of the conductor and the iron core 22 is slightly shifted, highly accurate current detection is possible, and current detection accuracy can be improved.

( Third embodiment)
In each of the above embodiments, the detection signal output terminal 16 is provided on the terminal cover 13, but in the third embodiment shown in FIG. 11, the detection signal output terminal 16 is provided on the upper surface of the rear portion (load side) of the plug unit. Arranged. In this case, it is preferable to route the signal line 23 to the lower part of the breaker mounting surface of the main body 1 as shown. Thereby, the signal line 23 can be pulled out from the load side of the breaker 3, and the signal line 23 can be easily wired in the switchboard.

( Fourth embodiment)
FIG. 12 is a diagram showing a fourth embodiment of the present invention. In the embodiment and the reference embodiment, when voltage detection is necessary, the voltage detection means is provided outside the plug unit. In the fourth embodiment, the voltage detection unit 24 that contacts the connection bar 7 is connected to the plug unit. Provided above. An arithmetic circuit 25 that calculates electric power from current and voltage is provided in the terminal cover 13. The detection signal output terminal 26 connected to the arithmetic circuit 25 outputs current, voltage, and power to the outside. The detection signal output terminal 26 may be arranged at the rear part of the plug unit as in the seventh embodiment.

( Fifth embodiment)
FIG. 13 is a diagram showing a fifth embodiment of the present invention. In this embodiment, the terminal block 27 is formed on the upper surface of the rear portion (load side) of the plug unit main body 1. The terminal block 27 includes a load terminal 29 for connecting the load wiring and a conductive bar 28 for connecting the load terminal of the device. The Hall element 14 is disposed adjacent to the conductive bar 28. A signal amplifier circuit 15 and a detection signal output terminal 16 are also provided on the terminal block 27. The terminal block 27 can be incorporated with voltage detection means and an arithmetic circuit for calculating electric power from current and voltage, and a display section for each measurement result can be provided.

( 5th reference form )
In the fifth reference embodiment shown in FIG. 14, CT30 is used as a current detector. That is, the rising portion 9 of the connection bar 7 passes through the CT 30, and the detection signal output terminal 16 is provided on the terminal cover 13. The voltage is separately detected by a voltage detection terminal block 17 as shown in FIG. 5, and the current, voltage, and power are calculated and displayed by a measuring instrument.

( Sixth reference form )
In the sixth reference form shown in FIG. 15, the detection signal output terminal 16 in the fifth reference form is provided at the rear part of the plug unit. Similarly to the seventh embodiment, the signal line 23 is routed to the lower part of the breaker mounting surface of the main body 1. Thereby, the signal line 23 can be pulled out from the load side of the breaker 3, and the signal line 23 can be easily wired in the switchboard.

( Seventh embodiment )
In the seventh embodiment shown in FIG. 16, a CT 30 is used as a current detector, and a voltage detection unit 24 that contacts the connection bar 7 is provided. Except for using CT30 as the current detector, this embodiment is the same as the fourth embodiment shown in FIG.

( Eighth reference form )
The eighth reference form shown in FIG. 17 is obtained by replacing the current detector in the fifth embodiment with a CT 30 from the Hall element 14.

( Ninth Reference Form )
FIG. 18 shows a ninth reference form , and reference numeral 41 denotes a main body of the plug unit. The main body 41 is formed with three concave portions 43 into which three bus bar bars 42 that are horizontally stacked from the bottom surface of the switchboard can be inserted, and each concave portion is provided with a plug terminal 44 and a rear surface. A connection terminal 45 that can be electrically and mechanically connected to the breaker 3 is formed.

  In addition, a hall element 47 that is a current detector is disposed adjacent to a conductive bar 46 that connects the plug terminal 44 and the connection terminal inside the main body 41, and a signal amplification circuit 48 of the hall element 47 is disposed in the vicinity thereof. In addition, a detection signal output terminal 49 is provided on the upper surface of the main body 41.

  By using such a plug unit with built-in current detector, the current flowing through the breaker 3 can be detected by the Hall element 47, and the measured value can be taken out from the detection signal output terminal 49 to the outside. Further, if the voltage of the bus bar 42 is detected via the secondary feed terminal block 50 as shown in FIG. 19, it is possible to calculate and display the power with a measuring instrument.

( 10th reference form )
FIG. 20 shows a tenth reference embodiment , in which CT51 is used as a current detector. That is, the conductive bar 46 penetrates the CT. Except for using CT51 as the current detector, it is the same as the ninth embodiment shown in FIG.

  Even if the plug unit with a built-in current detector of any of the embodiments described above is used, the current detector can be incorporated into the switchboard at the shipping stage from the factory, and the conventional installation work on the construction site is unnecessary. . Further, there is an advantage that the current detector can be attached to an arbitrary breaker in the switchboard simply by replacing the plug unit with the plug unit incorporating the current detector of the present invention.

FIG. 3 is a partial cross-sectional view showing a first reference form . It is sectional drawing of a plug unit. It is a bottom perspective view of the plug unit. It is a top view of the switchboard incorporating a plug unit. It is a perspective view of a terminal block for voltage detection. It is a fragmentary sectional view showing a 1st embodiment. It is a fragmentary sectional view showing the 2nd reference form . It is a fragmentary sectional view showing the 3rd reference form . It is a fragmentary sectional view showing a 2nd embodiment. It is a fragmentary sectional view showing the 4th reference form . It is a fragmentary sectional view showing a 3rd embodiment. It is a fragmentary sectional view showing a 4th embodiment. It is a fragmentary sectional view showing a 5th embodiment. It is a fragmentary sectional view showing the 5th reference form . It is a fragmentary sectional view showing the 6th reference form . It is a fragmentary sectional view showing the 7th reference form . It is a fragmentary sectional view showing the 8th reference form . It is a fragmentary sectional view showing the 9th reference form . It is a perspective view of a secondary feed terminal block. It is a fragmentary sectional view showing the 10th reference form .

DESCRIPTION OF SYMBOLS 1 Main body of plug unit 2 Upper surface 3 Breaker 4 Plug terminal 5 Bus bar 6 Recessed part 7 Connection bar 8 Horizontal part 9 Raising part 10 Bending part 11 Power supply terminal 12 Screw 13 Terminal cover 14 Hall element 15 Signal amplification circuit 16 Detection signal output terminal 17 Voltage detection terminal block 18 Hole 19 Voltage detection lead wire 20 Screw 21 Insulator 22 Iron core 23 Signal line 24 Voltage detection unit 25 Operation circuit 26 Detection signal output terminal 27 Terminal block 28 Conductive bar 29 Load side terminal 30 CT
31 Elastic body 32 Insulator 41 Main body 42 of plug unit Bus bar 43 Recess 44 Plug terminal 45 Connection terminal 46 Conductive bar 47 Hall element 48 Signal amplification circuit 49 Signal detection output terminal 50 Secondary feed terminal block 51 CT

Claims (3)

Provided with a plug terminal on the bottom of the body, the plug unit having a connection bar for connecting the plug terminal of the power supply terminal and the bottom of the breaker attached to the upper surface of the main body, the current detector built plug to internal current detector A plug unit with a built- in current detector, characterized in that a Hall element that is a current detector is attached to a terminal cover that covers the rising portion of the connection bar . 2. The plug unit with a built-in current detector according to claim 1, wherein a detection signal output terminal of the current detector is provided on the terminal cover . The plug unit with a built-in current detector according to claim 1 or 2, wherein the terminal cover is provided with voltage detecting means .

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