JP2016206108A - Current measuring system of switch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology, in which a current measuring system of a switch includes a current sensor for detecting a current flowing through a normal branch switch, and even when a dedicated switch having a large current capacity forms a plurality of plug terminals for each polarity so that the current flowing through each terminal is reduced, the current sensor is used as it is, and the detection of the current value flowing through this dedicated switch having a large current capacity is made possible.SOLUTION: A current measuring system of a switch includes calculation means arranging a plurality of bus line bars 6a, 6b, and 6c on a secondary side of a main switch 2, and at least one or more bus line bars from among them are provided with a plurality of branch bars connected with a primary side terminal of the switch. Each branch bar is installed with a current sensor for measuring the current flowing through the switch connected to the branch bar, and when the switch is a switch 4 of a large capacity type having a plurality of terminals for one polarity, the measurement value of the current sensor arranged in the branch bar connected with this switch of a large capacity type is processed in a summed up manner.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a switch current measurement system having a function of measuring a current flowing through a switch.

  Technology for detecting current by installing a current transformer on the primary side or secondary side of each branch switch as means for measuring the current flowing through a plurality of branch switches arranged in a distribution board (Patent Literature) 1) is disclosed.

  However, these conventional techniques are based on the premise that the current flowing through a normal branch switch having one plug terminal for each pole is detected. A dedicated switch with a large current capacity coexists with the switch, and this dedicated switch with a large current capacity forms a plurality of terminals for each pole to reduce the current flowing through each terminal. In the case of (for example, Patent Document 2), the value of the current flowing through the dedicated switch having a large current capacity cannot be detected.

  For this reason, when the technique of Patent Document 1 is applied, it is necessary to separately provide the current detection means for the dedicated switch as described above, which is disadvantageous in terms of labor and cost.

JP-A-6-165320 JP 2014-17193 A

  The present invention is based on the premise of solving the above problems and detecting a current flowing through a normal branch switch (a branch switch having one terminal for each pole) as a current measuring system for a switch. This is a case where a current sensor is provided and a dedicated switch having a plurality of terminals for one pole is used together with the normal branch switch in the same system, and the current sensor is used as it is. Thus, it is to provide a technology that can detect the value of the current flowing through the dedicated switch.

  In the present invention, as means for solving the above-described problems, at least one bus bar of the plurality of bus bars includes a plurality of branch bars to which the primary terminal of the switch is connected. When a current sensor for measuring a current flowing in a switch connected to the branch bar is provided, and the switch is a dedicated switch having a plurality of terminals for one pole, the dedicated switch The present invention is characterized in that a configuration is provided that includes a calculation means for adding up the measurement values of the current sensors arranged on the connected branch bars.

  According to a second aspect of the present invention, in the current measuring system for a switch according to the first aspect, the calculating means includes a current sensor specifying means for specifying a current sensor whose measurement value is a summation processing target. It is what.

  According to a third aspect of the present invention, in the current measurement system for a switch according to the second aspect, the current measurement system includes a current measurement device that is connected to all the current sensors and receives measurement data thereof. The present invention is characterized in that the function of the current sensor specifying means coexists.

  Among the plurality of bus bars, at least one bus bar has a plurality of branch bars to which the primary terminal of the switch is connected, and each branch bar has a current flowing through the switch connected to the branch bar. According to the present invention, in which a current sensor for measuring the current value is provided, and the present invention adopts a configuration including a calculation means for summing up the measured values of the current sensor, the current measuring system for the switch is an ordinary branch switch (for each pole). This is a case where a current sensor premised on detecting a current flowing in a branch switch having one terminal in the same system and a dedicated switch together with this normal branch switch in the same system. Even when this dedicated switch is formed by forming a plurality of plug terminals for each pole to reduce the current flowing through each terminal, the existing switch is used as it is. Electricity flowing through It is possible to detect the value.

  The calculation means preferably includes a current sensor specifying means for specifying a current sensor whose measurement values are to be added, and is connected to all current sensors and receives current measurement data. It is preferable that a device is provided, and the current measuring device has the function of the current sensor specifying means coexisting.

FIG. 3 is an internal schematic layout diagram of the distribution board according to the first embodiment. It is the figure which decomposed | disassembled and showed the internal machine of the distribution board. It is a whole perspective view of an exclusive switch. It is a perspective view of the plug terminal of a dedicated switch. It is explanatory drawing of an electric current measurement apparatus. It is explanatory drawing of a private space. It is an internal schematic layout diagram of the distribution board of the second embodiment. It is explanatory drawing of an electric current measurement unit.

  Preferred embodiments of the present invention are shown below. In the following embodiments, the current measurement system according to the present invention is configured in a distribution board, but the present invention is not limited to the distribution board.

(Embodiment 1)
As shown in FIG. 1, the distribution board constituting the current measurement system of this embodiment includes a main switch 2, a plurality of branch switches 3, and a dedicated switch 4 having a large current capacity in the case 1. The internal machine 5 is accommodated. Here, the dedicated switch 4 is used to open and close an electric circuit through which a current larger than the breaker capacity of the normal branch switch 3 flows. For example, the dedicated switch 4 is used for a purpose such as for photovoltaic power generation. It is a vessel.

  As shown in FIG. 2, three bus bars 6a, 6b, and 6c are stacked on the secondary side of the main switch 2. In the present embodiment, the bus bar 6a is a neutral pole (N pole), and the bus bars 6b and 6c are voltage poles (in order, L1 and L2 poles).

  The bus bars 6b and 6c, which are voltage electrodes, have a comb shape, and a plurality of branch bars 7 connected to the primary terminals of the branch switch 3 and the dedicated switch 4 are formed. The side surface on which the branch bar 7 is not formed can be used as a flat planar connection portion 17.

  In the present embodiment, the branch bar 7 of the bus bar 6b and the branch bar 7 of the bus bar 6c are arranged in opposite directions, respectively. In this embodiment, only one end of the branch bar 7 and the bus bar 6b, 6c is integrally formed in a comb shape. However, the branch bar 7 is screwed to the bus bar 6b, 6c, or the bus bar It can also be set as the shape which made the branch bar 7 protrude from the both ends of 6b and 6c.

  The uppermost bus bar 6a is formed in a size that covers the branch bar 7 formed in the middle bus bar 6b and the lower bus bar 6c.

  Here, the branch switch 3 and the dedicated switch 4 are plug-in type as shown in FIG. 3 and FIG. 5, and three bus bar 6a, 6b, which will be described later, are provided on the primary terminal side of each switch. A recess 30 is formed at a position corresponding to 6c. Plug terminals 3a and 25 are formed inside the recess 30, and the plug terminals 3a and 25 are connected to the branch bar 7. Further, in the concave portion 30 where the plug terminals 3a and 25 are not formed, the plane connecting portion 17 of the bus bars 6b and 6c is inserted.

  Since the bus bars 6a, 6b, 6c are connected to the terminal part of the main switch 2 via a main lead bar (not shown), as shown in FIG. 2, at one end of the bus bars 6a, 6b, 6c, A main lead bar connecting portion 14 used for connection with the main lead bar is formed. At the other end of the bus bars 6a, 6b, 6c, a functional device connection portion 16 used for connection with a functional device (a current measuring device 15 or the like described later) is formed. The functional device connection portion 16 is formed wider than the branch bar 7 so that a current sensor 18 described later cannot pass through.

  As shown in FIG. 2, the bus bars 6a, 6b, and 6c are fixed to a bar support base 8, and spacers 9 that support the bus bars with a space between the bus bars are arranged between the bus bars. .

  The branch switch 3 and the dedicated switch 4 are attached to the mounting base 10, and when connecting the branch switch 3 and the dedicated switch 4 to the branch bar 7, the direction of the bus bars 6a, 6b, 6c The branch bar 7 can be inserted into the plug terminals 3 a and 25 of the branch switch 3 and the dedicated switch 4.

  As shown in FIG. 2, the mounting base 10 has mounting portions 11 and 12 for mounting the branch switch 3 and the dedicated switch 4 on both sides of the bus bars 6a, 6b and 6c.

The attachment portion 11 and the attachment portion 12 are connected to each other by a connecting portion (hereinafter referred to as a recess portion 13) formed so as to be recessed from the attachment portions 11 and 12. The concave portion 13 is formed in a concave shape in order to ensure insulation from the bus bar 6c. In the present embodiment, the recess 13 is used as a bar support mounting portion for mounting the bar support 8.

  In the present embodiment, as shown in FIG. 2, each branch bar 7 is provided with a current sensor 18 that measures the current flowing through the branch switch 3 and the dedicated switch 4 connected to the branch bar 7. Yes. As shown in FIGS. 1 and 5, each current sensor 18 is connected to the current measuring device 15 by a communication line 29. This current measuring device 15 is provided with a calculation processing function for performing a usage status display of each branch switch 3, an alarm notification due to excessive use of current, and calculating electric power from the measured current value. The measurement value of the current sensor 18 can be displayed on the display unit provided in the current measurement device 15, or transmitted to an external display device via the current measurement device 15 and displayed. In the present embodiment, the current measuring device 15 is arranged in the panel of the distribution board, but it can also be arranged outside the distribution board.

  Since the branch switch 3 includes one plug terminal 3a for one pole and is connected to one branch bar 7, the current value is measured by the current sensor 18 disposed on the branch bar 7. Can do.

  On the other hand, as shown in FIGS. 3 and 4, the dedicated switch 4 according to the present embodiment has two currents per one pole so as to avoid a single pole concentration of current and avoid a temperature rise in the distribution board. Since the structure including two plug terminals 25 is adopted and connected to two adjacent branch bars 7, the types and lengths of the conductors constituting the electric circuit connected to each plug terminal 25 are the same (= the resistance is the same). ), The current flowing through each plug terminal 25 is about half of the current flowing through the dedicated switch 4, and the current value measured by each current sensor 18 is directly used as the current value flowing through the dedicated switch 4. Cannot be used as Therefore, in the present embodiment, the current measuring device 15 is provided with calculation means for adding the measured values of the current sensors, so that the current value flowing through the dedicated switch 4 can be calculated using the existing current sensor as it is. Detectable. In this embodiment, the calculation means is provided in the current measuring device 15 formed in the panel, but may be installed outside the distribution board. For example, based on the current value transmitted via the current measuring device 15, arithmetic processing is performed by an arithmetic processing device such as an external PC.

In the present embodiment, the current measuring device 15 has a function of specifying a current sensor whose measurement value is a target of the summing process together with the calculation means. Specifically, as shown in FIG. 5, the current measuring device 15 is provided with an ON-OFF switch 26 assigned a current sensor number, and measurement is performed by a current sensor 18 corresponding to the current sensor number where the switch is switched to the ON side. The current values to be processed are summed up. Specifically, the summing process is performed only when both the adjacent switches are switched to the ON side in the current sensor number where the ON-OFF switch 26 is switched. For example, even if the switch is switched to the ON side by skipping one, it is preferable not to perform the summing process in that case. The means for specifying the current sensor 18 to be subjected to the summation process is not limited to the method of providing the current measurement device 15 with the ON-OFF switch 26, and an external display device (PC or server) connected to the current measurement device 15. A setting screen may be provided and selected. Even in the method of selecting on the setting screen of the external display device, it is preferable that the summing process is performed only when adjacent to each other as described above. Further, as shown in FIG. 6, a dedicated space 27 in which the dedicated switch 4 is disposed is provided in the distribution board in advance, and the branch bar 7 connected to the switch disposed in the dedicated space 27. The current sensor 28 is automatically added to the current sensor 28. The current sensor 28 is automatically added to the current measurement device 15 and the current sensor 18 is used as the current measuring device 15 to detect the measurement transition over time. If the movements of the current sensors 18 coincide with each other, it can be determined that the adjacent current sensor 18 is also connected to the dedicated switch 4, and an optimal method such as a method of calculating automatically can be selected as appropriate.
The position of the dedicated space 28 can be selected as appropriate depending on the use of the dedicated switch 4. For example, since the switch for cooperation used for photovoltaic power generation such as the dedicated switch 4 of the present embodiment is determined to be attached to the end of the distribution board, the dedicated space 28 is provided at the end of the distribution board. It is preferable to set in the part.

(Embodiment 2)
In the first embodiment, the embodiment has been described in which each branch bar 7 is provided with a current sensor 18 that measures the current flowing through the branch switch 3 and the dedicated switch 4 connected to the branch bar 7. As another embodiment, as shown in FIGS. 7 and 8, a current detection sensor unit 19 obtained by unitizing a plurality of current sensors 18 may be disposed on the branch bar 7.

  As shown in FIG. 8, the current detection sensor unit 19 is configured by covering a current measurement board 20 including a plurality of current sensors 18 on a single board with a case 21. Here, the type of the current sensor 18 is not particularly limited, but, for example, CT or the like can be used. The current detection board 20 is formed with a passage hole portion 22 penetrating the current sensor 18, and the case 21 is also formed with a passage hole portion 23 at a position corresponding to the passage hole portion 22. The shape of the passage hole 23 is not limited to the embodiment, and the passage hole 23 may be a notch depending on the type of the current sensor 18 and can be inserted from above the branch bar 8.

  As shown in FIG. 7, the current detection sensor unit 19 is disposed on the primary side of the branch switch 3 or the dedicated switch 4 by inserting the branch bar 7 into the passage holes 22 and 23. An opening 24 through which the communication line 29 is output is formed at one of the left and right ends of the current detection sensor unit 19. The communication line output from the opening 24 is connected to the current measuring device 15 described above. In the current measuring device 15, as in the first embodiment, display of measured values by the current sensor 18, addition processing, and the like are performed.

DESCRIPTION OF SYMBOLS 1 Case 2 Main switch 3 Branch switch 3a Plug terminal 4 Dedicated switch 5 Internal unit 6a, 6b, 6c Bus bar 7 Branch bar 8 Bar support base 9 Spacer 10 Mounting base 11, 12 Mounting part 13 Concave part 14 Lead lead bar Connection unit 15 Current measuring device 16 Functional device connection unit 17 Planar connection unit
18 Current sensor 19 Current detection sensor unit 20 Current measurement board 21 Case 22 Passing hole 23 Passing hole 24 Opening 25 Plug terminal 26 ON-OFF switch 27 Dedicated space 28 Current sensor 29 Communication line 30 Recess

Claims (3)

Among the multiple bus bars, at least one bus bar has
It has multiple branch bars to which the primary terminal of the switch is connected,
Each branch bar has
A current sensor that measures the current flowing through the switch connected to the branch bar is arranged,
The switch is
When it is a dedicated switch with multiple terminals for one pole,
A current measuring system for a switch comprising a calculation means for summing up the measured values of a current sensor disposed on a branch bar to which the dedicated switch is connected. The computing means is
The current measuring system for a switch according to claim 1, further comprising: a current sensor specifying unit that specifies a current sensor whose measurement value is a summation process target. It has a current measurement device that is connected to all current sensors and receives their measurement data.
The current measuring system for a switch according to claim 2, wherein the function of the current sensor specifying means coexists with the current measuring device.