JP7068830B2 - Distribution board judgment system - Google Patents

Description

The present invention relates to a distribution board determination system that determines the direction of a current transformer installed in a distribution board and further determines the voltage of a branch electric circuit.

In order to manage the power used in the home, a current sensor is placed in each branch line to measure the branch current, and the consumption of each branch line (electrical equipment connected to) is based on this current value. There is a power management system that measures power and displays it on a dedicated display device.
In the distribution board used in such a system, a current transformer may be used as a current sensor, but since the current transformer is attached to the electric wire by the operator, it is easy for connection errors to occur. ..
Therefore, as a device for determining this connection error, for example, there is a power measurement system disclosed in Patent Document 1. Patent Document 1 has a function of detecting when two current transformers are mistakenly attached to the same branch circuit.

On the other hand, there is a technique called AR (Augmented Reality) that adds information by a computer to an object in real space. With this technology, information about the shooting target created by the computer can be superimposed and displayed on the image that is actually being shot, so it is easier to grasp the information between the shooting targets, and thus the shooting target. Is attracting attention as a method for recognizing (see, for example, Patent Document 2).

JP-A-2017-106937 Japanese Unexamined Patent Publication No. 2016-1428887

The power measurement system for determining the connection error of the current transformer was able to detect the double assembly of the current transformer. However, the orientation and mounting location of individual current transformers still relied on visual inspection.
In addition, the distribution board for home use is a single-phase three-wire system, and 100V and 200V branch electric circuits are mixed, and these voltages are also visually determined. Therefore, in recent years, distribution boards with many branch electric circuits have increased the burden on the operator for determination, and connection errors are likely to occur.

Therefore, in view of such a problem, it is an object of the present invention to provide a distribution board determination system capable of determining a current transformer with a simple operation and further determining a voltage of a branch electric circuit.

In order to solve the above problems, the distribution board determination system according to the invention of claim 1 includes distribution board data including data on the branch breaker mounting position for each distribution board product number and the distribution board mounting position and orientation. Distribution board data storage unit where and is stored, a judgment unit that judges the distribution board by comparing the stored distribution board data with the image of the distribution board to be checked, and an image that displays the judgment result. A distribution board check device equipped with an image generation unit that generates images, a camera that acquires images of the distribution board to be checked, a display that displays captured images, and transmission of captured images to the distribution board check device. It has a communication terminal equipped with a communication function, and the distribution board check device extracts information on the position and orientation of the current transformer from the image taken by the camera transmitted from the communication terminal and distributes the distribution. Along with making a comparison and judgment with the information registered in the board data storage unit, the judgment image generated by the image generation unit is returned to the communication terminal, and the judgment image is popped up and displayed on the image displayed by the communication terminal. It is characterized by that.
According to this configuration, the assembled state of the current transformer can be determined only by photographing the distribution board, and it is not necessary to determine each individual current transformer, and the burden on the operator can be reduced. Further, since the determination result is displayed on the image of the distribution board being photographed, it is easy to grasp the determination result.

According to the second aspect of the present invention, in the configuration according to the first aspect, the image generation unit indicates the vicinity of the determined portion or the determined portion on the image in which the entire distribution board is displayed. It is characterized by displaying with.
According to this configuration, the determination result is displayed in the vicinity of the checked portion on the image or in a form indicating the checked portion, so that it is easy to grasp the location when an error is detected.

According to the third aspect of the present invention, in the configuration according to claim 1 or 2, if the distribution board data storage unit is a product number provided with a measurement unit for calculating the power consumption of the branch circuit. Information on the position and the voltage setting unit of the branch electric circuit provided by the measurement unit is accumulated, and the determination unit is a transmitted image when the distribution board to be checked is a product number equipped with the measurement unit. Read the setting contents of 100V / 200V by the voltage setting unit of the measurement unit and the information of the connection confirmation display window of each branch breaker, and the voltage set by the voltage setting unit and the connection of the corresponding branch breaker match. It is characterized in that the image generation unit generates a determination image according to the determination result of the determination unit.
According to this configuration, it is possible to determine whether or not each branch breaker is connected according to the setting contents of 100V / 200V of the measurement unit, and if there is a connection error, it can be easily recognized.

According to the invention of claim 4, in the configuration according to any one of claims 1 to 3, if the distribution board is a product number provided with a primary feed terminal block in the distribution board data storage unit, the primary feed terminal is provided. The position information of the stand is accumulated, and if the distribution board to be checked has a part number equipped with a primary feed terminal block, the determination unit determines the mounting position, and the image generation unit determines the primary feed terminal block. It is characterized in that a judgment image is generated according to the judgment result of.
According to this configuration, if there is a primary feed terminal block, its position and the like can be determined, and an assembly error can be prevented.

The invention according to claim 5 is characterized in that, in the configuration according to any one of claims 1 to 4, the distribution board check device is a server arranged on the cloud, and the communication terminal is a smartphone.
According to this configuration, by providing the distribution board data storage unit and the determination unit in the server arranged on the cloud, one distribution board check device can handle a plurality of communication terminals. Furthermore, by using a smartphone, there is no need to prepare a new communication terminal, and the system can be configured at low cost.

According to the present invention, the assembled state of the current transformer can be determined only by photographing the distribution board, and it is not necessary to determine each of the individual current transformers, so that the burden on the operator can be reduced. Further, since the determination result is displayed on the image of the distribution board being photographed, it is easy to grasp the error when the connection error is notified.
Further, when the measuring unit for calculating the power consumption of the branch electric circuit is provided, the voltage of the branch electric circuit can be determined, and a connection error can be prevented.

It is explanatory drawing which shows an example of the distribution board determination system which concerns on this invention. It is explanatory drawing which shows an example of the distribution board to be checked, and is the front view of the state which the assembled equipment is exposed. It is an enlarged view of part A, and is a clearing view which shows the connection confirmation display window of a branch breaker. It is a perspective view of a branch breaker. It is explanatory drawing of the measurement unit. It is a perspective view of a current transformer and shows a display example for determining a direction. It is a flow chart which shows the flow of determination. It is a flow chart which shows the continuation of the flow of determination. It is an explanatory diagram of the display of the determination result, and shows the display of the determination result of the current transformer, and shows the state in which the display pointing out the wrong direction is performed. It is an explanatory diagram of the display of the determination result, and shows the display of the check result whether the set voltage of the measurement unit and the voltage specification of the branch breaker match. It is a display explanatory diagram of the determination result, and shows the display when the voltage specification of a branch breaker is wrong.

Hereinafter, embodiments that embody the present invention will be described in detail with reference to the drawings. FIG. 1 is an explanatory diagram showing an example of a distribution board determination system according to the present invention, in which 1 is a distribution board to be checked, 2 is a smartphone as a communication terminal having a wireless communication function, and 3 is communication such as the Internet. A server as a distribution board check device arranged on a cloud C composed of a network is shown.
A main circuit breaker 11, a branch breaker 12, a primary feed terminal block 13, a measurement unit 14, which will be described later, and the like are assembled to the distribution board 1, and 15 is a main circuit D composed of a single-phase three-wire electric circuit of the distribution board 1. A current transformer (CT) that measures the flowing current is shown. The main electric circuit D is also present on the secondary side of the main breaker 11, but is omitted.

FIG. 2 is a front view showing an example of an actual distribution board 1, and is a front explanatory view of an unwired state in which a main circuit breaker 11, a large number of branch breakers 12, and a measurement unit 14 are assembled. Further, FIG. 3 shows an enlarged view of part A, and FIG. 4 shows a perspective view of the branch breaker 12.
As shown in FIGS. 3 and 4, on the upper surface of the branch breaker 12 (which is the front surface when assembled to the distribution board 1), a connection confirmation display indicating the connection status of the branch electric circuit connected to the load side terminal 12b is displayed. A window 12a is provided, and the connection confirmation display window is arranged so that the connection confirmation display window can be confirmed from the front of the distribution board 1.

The connection confirmation display window 12a displays the status of each of the three terminals of the two voltage phases and the neutral phase. For example, in FIG. 3, the first voltage phase L1, the second voltage phase L2, and the neutral phase are displayed from the left. They are arranged in the order of N. Then, when the electric wire is inserted into the load side terminal 12b, for example, the white color changes to red, and this color change can be confirmed from the front of the distribution board.
FIG. 3 shows a state in which the center of each of the branch breakers 12 is white and hatched in red on the left and right, that is, a state in which an electric wire is connected to the first voltage phase l1 and the neutral phase N, and a state in which 100 V is connected. Is shown.

FIG. 5 is a front view of the measuring unit 14. The measurement unit 14 has a function of acquiring the current information of the main electric line D and the current information of the branch electric line, calculating the electric power, and outputting the calculation result to the outside. Since the branch electric circuit of the single-phase three-wire electric circuit has 100V / 200V, for the branch breaker 12 of the 200V specification, the measured current value of the branch electric circuit is calculated with a voltage of 200V to calculate the power. .. Therefore, it has a voltage setting unit 14a for specifying the branch breaker 12 of the 200V specification (branch electric circuit of the 200V specification).
The voltage setting unit 14a is composed of a DIP switch 14b, and either 100V / 200V is selected. The branch breaker 12 associated with the voltage setting unit 14a must be connected to the main electric circuit D according to this setting.

Specifically, as shown in FIG. 5, eight DIP switches 14b are assembled in the voltage setting unit 14a, and eight branch breakers 12 in the area G shown in FIG. 1 are individual of the voltage setting unit 14a. It corresponds to the DIP switch 14b.
The measurement data of the current sensor (not shown) arranged in each branch breaker 12 is configured to be transmitted to the measurement unit 14 together with the position information of the branch breaker 12 (not described in detail). Therefore, the measurement unit 14 can grasp the positional relationship between the branch electric circuit set by the voltage setting unit 14a and the branch breaker 12 based on the received position information.

In this way, together with the current information of the main electric circuit D measured by the current transformer 15, the measurement unit 14 calculates the electric power used in each branch electric circuit in addition to the total electric power used.

FIG. 6 shows an external view of the current transformer 15. As shown in FIG. 6, a mark 15a for making the server 3 recognize the direction is attached to the side surface of the current transformer 15 facing the front of the distribution board 1 at the time of mounting. It should be noted that symbols and characters may be used instead of marks as long as the orientation can be recognized from the captured image.

The server 3 has dimensions for each product number of the distribution board, the relationship between the position of the measurement unit 14 and the product number of the distribution board 1, and the mounting position of the breakers (main breaker 11 and branch breaker 12) for each product number of the distribution board 1. Presence / absence and mounting position of the primary feed terminal block 13, mounting position and orientation of the current transformer 15, setting of the voltage setting unit 14a of the measuring unit 14 and the voltage specification of the branch breaker 12 (whether 100V / 200V). The distribution board data storage unit 3a that stores related data, the product number of the distribution board 1, the position and orientation of the current transformer 15, the state of the branch breaker 12 in 100V / 200V specifications, etc. are analyzed from the transmitted image. It is provided with a determination unit 3b for determining.
Further, it has a message generation unit 3c and an image generation unit 3d, a message corresponding to the determination result is generated by the message generation unit 3c, and the image generation unit 3d generates a pop-up image on which the generated message is placed.

The smartphone 2 used for shooting has a predetermined application software (hereinafter, simply referred to as "application") installed, and the distribution board 1 to be checked is shot from the front with a camera (not shown) of the smartphone 2. The captured image is transmitted to the server 3 by using the application.

The primary feed terminal block 13 is a terminal block used when a private power generation facility such as a solar power generation facility is provided, and is arranged on the primary side of the main breaker 11.

Hereinafter, the flow from the shooting of the distribution board 1 to the display of the determination result on the smartphone 2 will be described. FIGS. 7 and 8 are flow charts showing the flow of operations, which will be described with reference to FIGS. 7 and 8. When the distribution board 1 is photographed (S1) by the smartphone 2, the photographed image is transmitted to the server 3, and the determination unit 3b of the server 3 performs the following determination process.
From the image of the distribution board 1 transmitted from the smartphone 2, the main breaker 11 and the branch breaker 12 in the distribution board 1 are first recognized (S2), and the size of the recognized main breaker 11 and the branch breaker 12 is determined. The external dimensions of the electric board 1 are calculated (S3). Then, the product number of the distribution board 1 is determined from the calculated dimensions (S4).

Once the product number is determined, there are the mounting position of the branch breaker 12 registered based on the product number, the presence / absence of the measurement unit 14, the presence / absence of the primary feed terminal block 13, the position of the current transformer 15, and the primary feed terminal block 13. In the case, the data of the mounting position, the position and the direction of the current transformer 15 are read from the distribution board data storage unit (S5), and are compared with the data read from the image.

Specifically, the mounting position of the current transformer 15 is first read from the image transmitted from the smartphone 2 (S6) and compared with the registered data, and the mounting position and mounting direction of each current transformer 15 are determined. Judgment (S7) is made.
The determination result is converted into a message by the message generation unit 3c, and the determination image in which the message is displayed is generated as a pop-up image by the image generation unit 3d and returned to the smartphone 2. In the smartphone 2 that has received this message image, the distribution board 1 is photographed by the application and displayed as a pop-up on the display 2a (S8).

FIG. 9 is a display explanatory diagram of the smartphone screen at this time, and shows a display when it is determined that the orientation of one current transformer 15 is incorrect. This display pops up near the current transformer 15 to be checked and points to the current transformer 15 in question. This display is performed, for example, by applying a known AR (Augmented Reality) technique. As a result of the check, if any of the current transformers 15 is correct, a pop-up to that effect is displayed.

Next, if the product number includes the measurement unit 14 (Yes in S9), the measurement unit 14 is recognized and it is read whether the setting state of the DIP switch 14b in the measurement unit 14 is 100V / 200V (S10).
As described above, the associated branch breakers 12 (branch breakers 12 in area G shown in FIG. 1) are set according to the settings of the DIP switches 14b provided in the voltage setting unit 14a of the measurement unit 14. It must be connected to the main electric circuit D with any specification of 100V / 200V. This is determined by the server 3.
Specifically, it is determined by comparing the read setting value by the DIP switch 14b with the state (S11) of the connection confirmation display window 12a read from the actual branch breaker 12 (S12), and the determination result is photographed by the smartphone 2. A pop-up display is displayed on the image of the distribution board 1 (S13).

FIG. 10 is an explanatory diagram showing the result of this voltage setting, and is displayed in the same manner as the display of the determination result of the current transformer 15 described above. Here, although 200V is set in the voltage setting unit 14a, the corresponding branch breaker 12 is connected to 100V, indicating a state in which a display requesting a connection change (setting change) is made. Then, as shown in FIG. 10, this display is displayed near the measurement unit 14 in the image displaying the distribution board 1 and in a form pointing to the measurement unit 14.

Next, the voltage of the branch breaker 12 in the 200V non-settable area is checked (S14). All the branch breakers 12 other than the area G should be used in the 100V specification, and it is determined.
FIG. 11 is a display explanatory diagram of the result of the determination in this way, and is displayed on the smartphone 2 (S15). In FIG. 11, since the branch breaker 12 set to 200 V exists outside the area G, a message prompting the branch breaker 12 to move into the area G is displayed. Then, as shown in FIG. 11, this display is displayed near the determined branch breaker 12 and in a form indicating the branch breaker 12.

Finally, if there is a primary feed terminal block 13 (Yes in S16), the primary feed terminal block 13 is checked (Yes in S16). If the product number does not have the primary feed terminal block 13, the process ends without checking.
The position of the primary feed terminal block 13 is read from the captured image (S17), and the determination result is displayed on the smartphone 2 (S18).

In this way, the assembled state of the current transformer 15 can be determined only by photographing the distribution board 1, it is not necessary to check each of the individual current transformers 15, and the burden on the operator can be reduced. Further, since the determination result is displayed on the image of the distribution board taken by the smartphone 2, it is easy to grasp the determination result.
Further, since the determination result is displayed in the vicinity of the checked portion on the image and in a form indicating the checked portion, it is easy to grasp the location when an error is detected.
Further, it can be determined whether or not the individual branch breakers 12 are connected according to the setting contents of 100V / 200V of the measurement unit 14, and if there is a connection error, it can be easily recognized.
In addition, when the primary feed terminal block 13 is present, its position and the like are determined, so that an assembly error can be prevented without confirmation by the operator.
Further, by providing the distribution board data storage unit 3a and the determination unit 3b on the server 3 arranged on the cloud C, it is possible to deal with a plurality of smartphones 2 with one distribution board check device, and the smartphone 2 can be used. By using it, there is no need to prepare a new communication terminal, and the system can be configured at low cost.

In the above embodiment, the current transformer 15 is provided only on the primary side of the main electric circuit D, but if the distribution board has a form in which the current information of the branch electric circuit is also measured by the current transformer 15, the distribution board is divided. Although there are a large number of current transformers 15 on the switchboard 1, it is possible to determine the location and direction by reading the positions and directions of the individual current transformers by the above system.
In addition, the display of the judgment result is performed near the checked part and pointing to the checked part, but this display may be displayed only near the checked part, or the part checked with an arrow or the like may be displayed. If shown, the display position of the message may be a place away from the checked part. Further, in the above embodiment, the current transformer 15, the voltage of the branch breaker 12, and the primary feed terminal block 13 are checked in this order, but the order is arbitrary.
Further, although the distribution board data storage unit 3a and the determination unit 3b are provided in the server 3 arranged on the cloud C, these functions may be incorporated into the smartphone 2 to integrate the communication terminal and the distribution board check device. good.
It is also possible to equip a personal computer, a tablet terminal, or the like with the function of the server 3 to communicate with a communication terminal with a camera such as a smartphone 2 and these devices to check the distribution board 1.

1 ... Distribution board, 2 ... Smartphone (communication terminal), 2a ... Display, 3 ... Server (Distribution board check device), 3a ... Distribution board data storage unit, 3b ... Judgment unit, 3c・ ・ Message generation unit, 3d ・ ・ Image generation unit, 11 ・ ・ Main breaker, 12 ・ ・ Branch breaker, 12a ・ ・ Connection confirmation display window, 13 ・ ・ Primary feed terminal block, 14 ・ ・ Measurement unit, 14a ・ ・Voltage setting unit, 15 ... current transformer, 15a ... mark, C ... cloud, D ... main electric circuit.

Claims (5)

Distribution board data storage unit that stores the branch breaker mounting position for each distribution board part number and distribution board data including current transformer mounting position and orientation data, and the stored distribution board data A distribution board check device equipped with a determination unit that determines the distribution board by comparing it with the image of the distribution board to be checked, and an image generation unit that generates an image that displays the determination result.
It has a camera that acquires an image of the distribution board to be checked, a display that displays the captured image, and a communication terminal having a communication function that transmits the captured image to the distribution board check device.
In the distribution board check device, the determination unit extracts information on the position and orientation of the current transformer from the captured image of the camera transmitted from the communication terminal , and is registered in the distribution board data storage unit. The feature is that the determination image generated by the image generation unit is returned to the communication terminal, and the determination image is popped up on the image displayed by the communication terminal. Distribution board judgment system. The portion according to claim 1, wherein the image generation unit displays the determination image in a form indicating the vicinity of the determined portion or the determined portion on the image in which the entire distribution board is displayed. Switchboard judgment system. If the distribution board data storage unit is a product number provided with a measurement unit for calculating the power consumption of the branch electric circuit, the position thereof and the voltage setting unit of the branch electric circuit provided with the measurement unit are provided. Information is accumulated,
When the distribution board to be checked is a product number equipped with the measurement unit, the determination unit determines the setting content of 100V / 200V by the voltage setting unit of the measurement unit from the transmitted image, and individual branch breakers. Reads the information in the connection confirmation display window of, and determines whether the voltage set by the voltage setting unit and the connection of the corresponding branch breaker match.
The distribution board determination system according to claim 1 or 2, wherein the image generation unit generates a determination image according to the determination result of the determination unit. When the distribution board has a product number provided with a primary feed terminal block, the position information of the primary feed terminal block is stored in the distribution board data storage unit.
If the distribution board to be checked has a product number equipped with a primary feed terminal block, the determination unit determines the mounting position thereof.
The distribution board determination system according to any one of claims 1 to 3, wherein the image generation unit generates a determination image according to a determination result of the primary feed terminal block. The distribution board determination system according to any one of claims 1 to 4, wherein the distribution board check device is a server arranged on a cloud, and the communication terminal is a smartphone.

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