JP2021125863A - Wireless communication relay device for smart meter - Google Patents

Abstract

To stabilize communication between a smart meter installed inside a metal box such as a cabinet and the other party's apparatus.SOLUTION: A wireless communication relay device 1 is disposed in a housing 113 of a smart meter 110 inside a cabinet 120, and includes: an internal antenna 2 for wireless communication with an in-meter antenna 112; an external antenna 3 installed outside the cabinet 120 for wireless communication with a base station 130 (opposite party's apparatus); and a communication cable 4 for communicatively connecting the internal antenna 2 and the external antenna 3.SELECTED DRAWING: Figure 1

Description

The present invention relates to a wireless communication relay device for a smart meter.

The watt-hour meter that measures the power consumption of consumers has been replaced with a smart meter that can send the measurement results to the electric power company from the old analog watt-hour meter that requires meter reading by meter readers at the request of automation of meter reading. Has been done.
Some smart meters have a wired communication function and some have a wireless communication function. A smart meter having a wireless communication function performs wireless communication by, for example, a multi-hop wireless system or a 1: N wireless system.
The multi-hop wireless system is a system in which the smart meters themselves play the role of a repeater, and the smart meters form a communication path over a short distance by the relay system to form a wide-range communication network. The 1: N wireless system is a system that uses a wireless data communication service provided by a communication carrier such as a mobile phone carrier.

A smart meter that replaces the old watt-hour meter is usually installed in the same place as the old watt-hour meter. However, the old watt-hour meter may be installed in a place unsuitable for wireless communication because it does not have a wireless communication function. If the smart meter is installed in a place unsuitable for wireless communication, radio waves (electromagnetic waves) may be weakened and wireless communication may become unstable.
For example, in an urban area where many buildings are densely packed, if a smart meter that uses a multi-hop wireless system is installed in a metal storage box, the radio waves will be weakened by the building or storage box, and wireless communication will become unstable. There is a risk of becoming.
In addition, when a smart meter that performs wireless communication by the 1: N wireless method is installed in a metal cabinet in a mountainous area, the radio wave is weakened because the distance from the base station is long, and the cabinet further emits radio waves. Since it is weakened, there is a risk that wireless communication will become unstable.

In order to stabilize wireless communication by a smart meter, a technique of arranging a relay device between the smart meter and the communication partner device has been proposed. For example, in Patent Document 1, a relay device is arranged between the smart meter and the power management device to stabilize wireless communication between the smart meter and the power management device. Further, in Patent Document 2, a transmission means is arranged between a main set (master unit) and a subset (slave unit) of a cordless telephone to stabilize communication. In Patent Document 2, the transmission means includes an antenna on the master unit side and a set of matching circuits, an antenna on the slave unit side and a set of matching circuits, and a feeder line connecting both matching circuits.

International Publication No. 2016/10451 JP-A-63-138840

In the transmission means of Patent Document 2, the installation location of the antenna on the slave unit side is limited because the cordless type slave unit is used in various places in the room. Therefore, even if the transmission means of Patent Document 2 is used instead of the relay device of Patent Document 1, the installation location of the antenna on the smart meter side is restricted, and communication may become unstable. be.
The present invention has been made in view of such circumstances, and an object of the present invention is to stabilize communication between a smart meter installed inside a metal box and a destination device.

In order to solve the above problems, the present invention is used for a smart meter installed inside a metal box and transmitting and receiving information to and from a partner device by wireless communication via an antenna in the meter. A relay device that relays wireless communication between the meter and the other party's device, is arranged in a housing provided with the smart meter inside the metal box body, and wirelessly communicates with the antenna in the meter. Communication that connects the internal antenna for wireless communication between the internal antenna and the external antenna, which is installed outside the metal box and performs wireless communication with the other party's device, and the internal antenna and the external antenna so as to be communicable. It is characterized by being equipped with a cable.

According to the present invention, it is possible to stabilize the communication between the smart meter installed inside the metal box and the destination device.

It is a block diagram explaining the wireless communication relay device of 1st Embodiment. It is a front view of a smart meter. It is a figure explaining the state which attached the wireless communication relay device to the cabinet installed outdoors. It is a figure explaining the smart meter and the internal antenna housed in a cabinet. It is a figure explaining the 2nd Embodiment, and is the perspective view explaining the field solar power generation facility. It is a figure explaining the 3rd Embodiment, (a) is the figure explaining the film-like internal antenna, (b) is the figure explaining the cover member of a smart meter, (c) is the figure with respect to the cover member, and it is film-like. It is a figure explaining the state which attached the internal antenna of. It is a figure explaining the 4th Embodiment, and is | Is.

<Overview of relay device>
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a wireless communication relay device 1 of the first embodiment.
The wireless communication relay device 1 shown in FIG. 1 is installed inside a metal cabinet 120 (metal box body) and communicates with a base station 130 (destination device) via wireless communication via an antenna 112 in a meter. It is used for the smart meter 110 that transmits and receives information, and is a device for relaying wireless communication between the smart meter 110 and the base station 130.
The wireless communication relay device 1 is arranged in the housing 113 provided in the smart meter 110, and is installed between the internal antenna 2 that performs wireless communication with the antenna 112 in the meter and the base station 130 that is installed outside the cabinet 120. It is characterized by including an external antenna 3 for wireless communication and a communication cable 4 for communicably connecting the internal antenna 2 and the external antenna 3.

In this wireless communication relay device 1, since the internal antenna 2 is arranged in the housing 113 of the smart meter 110, wireless communication is performed with the antenna 112 in the meter without being affected by the metal cabinet 120. be able to.
On the other hand, since the external antenna 3 is installed outside the cabinet 120, wireless communication can be performed with the base station 130 without being affected by the metal cabinet 120.
Further, since the internal antenna 2 and the external antenna 3 are connected by the communication cable 4, communication is performed between the internal antenna 2 and the external antenna 3 without being affected by the metal cabinet 120. be able to.
As a result, even if the smart meter 110 is housed in the metal cabinet 120, the communication between the smart meter 110 and the base station 130 can be stabilized.

<First Embodiment>
Hereinafter, the wireless communication relay device 1 of the first embodiment will be described in detail, but the smart meter 110 will be described first.
The smart meter 110 shown in FIG. 1 measures power consumption in a consumer and digitally converts the measured value into a meter main body 111, which is electrically connected to the meter main body 111 and displays the digitally converted measured value. The display unit 115, the in-meter antenna 112 that is electrically connected to the meter body 111 and transmits / receives radio waves (electromagnetic waves) for wireless communication, the meter body 111, the display unit 115, and the in-meter antenna 112. The housing 113 and the housing 113 are provided.

Since the smart meter 110 of the present embodiment communicates by the 1: N wireless system, the antenna 112 in the meter is configured to be able to communicate with the base station 130 (destination device) owned by the telecommunications carrier. For example, when a telecommunications carrier uses a frequency in the 800 MHz band, it has a configuration capable of transmitting and receiving radio waves of that frequency.
The type of radio waves that can be transmitted and received by the antenna 112 in the meter is determined according to the destination device for wireless communication. In this embodiment, the in-meter antenna 112 is arranged in the communication unit UN. The communication unit UN is detachably connected to the meter body 111 by a modular cable.
The smart meter 110 transmits / receives information to / from the headend system 140 (server) through the base station 130 and the communication network NW.

FIG. 2 is a front view of the smart meter 110. As shown in FIG. 2, the housing 113 includes a housing main body 113a and a cover member 113b that is detachable from the housing main body 113a.
The upper part of the housing body 113a has a rectangular parallelepiped shape, and the meter body 111 is housed in it. The display portion 115 is attached to the upper front side of the housing main body 113a. A communication unit UN (antenna in the meter 112), various terminals, and the like are housed in the lower part of the housing body 113a, and are covered by the cover member 113b.
The cover member 113b is detachably attached to the lower opening of the housing body 113a, but is sealed by a sealing tool. That is, the communication unit UN is sealed in the housing 113 by a sealing tool.

FIG. 3 is a diagram illustrating a state in which the wireless communication relay device 1 is attached to a cabinet 120 installed outdoors, and FIG. 4 is a diagram illustrating a smart meter 110 and an internal antenna 2 housed in the cabinet 120.
The cabinet 120 shown in FIG. 3 is installed outdoors such as a park, a plaza, or a vacant lot in a facility. The cabinet 120 is a vertically long rectangular parallelepiped metal box body, and has a cabinet body 121 whose front upper part can be opened and closed by a metal lid 122 and a metal gable roof 123 attached to the upper part of the cabinet body 121. And have.
As shown in FIG. 4, the smart meter 110 is attached to the upper part in the cabinet main body 121 via the support plate 124. The measured value of the smart meter 110 can be visually recognized from the outside of the cabinet 120 through the viewing window 122a provided on the lid 122 at the upper front surface of the cabinet 120. Further, since the sealing tool of the electric power company is installed in the sealing tool attaching device 122b, the lid body 122 cannot be opened or closed by a person other than the electric power company.

Next, the wireless communication relay device 1 will be described. As described with reference to FIG. 1, the wireless communication relay device 1 includes an internal antenna 2, an external antenna 3, and a communication cable 4.
Since the internal antenna 2 wirelessly communicates with the in-meter antenna 112 of the smart meter 110, it is configured to be able to transmit and receive radio waves in the same frequency band (for example, 800 MHz band) as the in-meter antenna 112. The type of the internal antenna 2 may be any type as long as it can transmit and receive radio waves, but a dipole antenna, a monopole antenna, or a loop antenna is preferable in consideration of storing in the limited space in the cabinet 120. ..
As shown in FIG. 4, in the present embodiment, the internal antenna 2 is composed of a monopole antenna. The internal antenna 2 is provided on a flat rectangular antenna body 2a and a surface on one end side of the antenna body 2a, and is connected to a communication cable 4, a connector 2b, a connection connector 2b, and an end of the communication cable 4. It is provided with a connector cover 2c that covers the portion.
The internal antenna 2 (antenna body 2a) is arranged on the side surface of the housing 113. For example, the internal antenna 2 is attached to the left side surface (predetermined position) of the cover member 113b from the left side with double-sided tape.
The attachment of the internal antenna 2 to the housing 113 is not limited to double-sided tape. For example, it may be attached with an adhesive or fixed with a binding band.

As shown in FIG. 1, since the external antenna 3 wirelessly communicates with the base station 130 owned by the telecommunications carrier, it is configured to be able to transmit and receive radio waves in the same frequency band as the base station 130 and the antenna 112 in the meter. ing.
As shown in FIG. 3, in the present embodiment, the external antenna 3 is attached to the roof 123 of the cabinet 120, but is not limited to the roof 123 of the cabinet 120 as long as it is outside the cabinet 120. For example, it may be attached to the roof of a house, the roof of a building such as a building, or a support.
The type of the external antenna 3 may be any type as long as it can transmit and receive radio waves, but a monopole antenna (whipped antenna) is preferable in consideration of mounting on the roof 123 of the cabinet 120. Further, when the external antenna 3 is attached to the roof 123 or the support column of the building, the Yagi antenna or the dipole antenna is preferable because it is suitable for long-distance wireless communication.

The communication cable 4 is an electric wire (feeding line) for connecting the internal antenna 2 and the external antenna 3 so as to be communicable and transmitting high frequency power between the antennas 2 and 3. In this embodiment, for example, a coaxial cable having an impedance value of 50 ohms is used, and the length thereof is determined according to the distance from the internal antenna 2 to the external antenna 3.
For example, when the external antenna 3 is attached to the roof 123 of the cabinet 120, the length of the communication cable 4 is set to about 2 m to 5 m. Further, when the external antenna 3 is attached to the roof or a support of a building, the length of the communication cable 4 is set to 10 m or more.

Matching is achieved at the connection points (feeding points) between the communication cable 4 and the antennas 2 and 3. Specifically, the impedance values of the antennas 2 and 3 when viewed from the communication cable 4 are matched with the impedance values of the communication cable 4 (50 ohms in this embodiment), and the communication cable 4 and each antenna 2 are matched. It is connected so that there is no reflection of energy between 3. Although not shown, a matching circuit may be provided to match the impedance values.
Further, the communication cable 4 is not limited to the coaxial cable as long as high frequency power can be transmitted between the internal antenna 2 and the external antenna 3. For example, a feeder wire may be used as the communication cable 4.

As shown in FIGS. 1, 3, and 4, in the wireless communication relay device 1 of the present embodiment, the internal antenna 2 in the cabinet 120 is arranged in the housing 113 of the smart meter 110, and the antenna 112 in the meter and the antenna 112 in the meter. Wireless communication between the two with high efficiency. Further, the external antenna 3 outside the cabinet 120 performs wireless communication with the base station 130 without being affected by the cabinet 120. Further, the communication cable 4 transmits high frequency power between the internal antenna 2 and the external antenna 3, that is, between the inside and the outside of the cabinet 120 without being affected by the cabinet 120.
Therefore, by using the wireless communication relay device 1 of the present embodiment, even if the cabinet 120 is made of metal, the smart meter 110 inside the cabinet 120 and the base station 130 outside the cabinet 120 are not affected by the cabinet 120. It is possible to stably perform communication with (the other party's device).

<Second embodiment>
In the first embodiment described above, the smart meter 110 (cabinet 120) to which the wireless communication relay device 1 is attached is installed in a park, a plaza, a vacant lot in a facility, or the like, but the wireless communication relay device 1 according to the present invention. Can also be attached to a smart meter 110 installed at another location (for example, the field solar power generation facility 200 shown in FIG. 5).
Most of the field solar power generation facilities 200 (hereinafter referred to as power generation facilities 200) are installed in mountainous areas where there are no private houses around them and are far from the base station. Hereinafter, the power generation facility 200 will be described. FIG. 5 is a perspective view illustrating the power generation facility 200.

The power generation facility 200 includes a solar panel 210 and a meter box 220.
The solar panel 210 includes a plurality of plate-shaped units in which a plurality of thin-film solar cells are connected in series, and each unit is connected in series and in parallel. In this embodiment, the solar panel 210 is installed by the frame 211. The direct current generated by the solar panel 210 is increased in voltage through a junction box and a current collector, converted into alternating current by a power conditioner, and then sent to the power system.
In the power generation facility 200, the smart meter 110 is arranged between the power conditioner and the power system. Since the smart meter 110 of the present embodiment communicates by the 1: N wireless system, the antenna 112 in the meter is configured to be able to communicate with the base station 130 owned by the telecommunications carrier as described with reference to FIG. Has been done.

The meter box 220 is a metal box body for accommodating the smart meter 110, and is attached in the middle of the support column 230 in the height direction.
The meter box 220 is a rectangular parallelepiped metal box body, and includes a box body 221 whose front upper portion can be opened and closed by a metal lid 222. The lid 222 is provided with a viewing window 222a. The measured value of the smart meter 110 can be visually recognized from the outside of the meter box 220 through the viewing window 222a. Further, since the sealing tool of the electric power company is installed in the sealing tool attaching device 222b, the lid body 222 cannot be opened or closed by anyone other than the electric power company.
By attaching the wireless communication relay device 1 described with reference to FIG. 1 to the meter box 220 (smart meter 110), stable communication with the base station 130 can be performed.
In this case, with respect to the smart meter 110 in the meter box 220, the internal antenna 2 (antenna body 2a) is arranged on the side surface of the housing 113 as described with reference to FIG. Further, as shown in FIG. 5, the external antenna 3 is installed on the upper surface of the meter box 220. Then, the internal antenna 2 and the external antenna 3 are connected by a communication cable 4.

<Third Embodiment>
In the first embodiment described above, the internal antenna 2 is composed of a monopole antenna and is attached to the housing 113 by double-sided tape, but the present invention is not limited to this configuration.
6 (a) to 6 (c) are diagrams for explaining a main part (internal antenna 2A) of the wireless communication relay device 1 of the third embodiment in which the internal antenna 2A is composed of a film antenna.
As shown in FIG. 6A, the internal antenna 2A of the third embodiment has an electrically insulating synthetic resin base film 21 and a metal (for example, copper) conductor pattern formed on the base film 21. The 22 is provided with a contact 23 for electrically connecting the conductor pattern 22 and the communication cable 4. The surface of the contact 23 is covered with an electrically insulating member.
Since the other configurations of the wireless communication relay device 1 of the third embodiment are the same as those of the wireless communication relay device 1 of the first embodiment, the description thereof will be omitted.

The internal antenna 2A is attached to a predetermined region on the surface of the cover member 113b shown in FIG. 6B. The internal antenna 2A may be attached with double-sided tape or with an adhesive.
As shown in FIG. 6C, by attaching the internal antenna 2A to the cover member 113b in advance, the internal antenna 2A can be attached to the cover to which the internal antenna 2A is attached instead of the existing cover member 113b. It is only necessary to attach the member 113b to the housing body 113a.
Therefore, the wireless communication relay device 1 of the third embodiment can be easily installed.

<Fourth Embodiment>
In the third embodiment described above, the internal antenna 2A is composed of a film antenna and attached to a predetermined area on the surface of the cover member 113b, but the present invention is not limited to this configuration.
FIG. 7 is a diagram for explaining the fourth embodiment, and is a diagram for explaining a dedicated cover member 113b'in which the internal antenna 21'is integrally molded.
The cover member 113b'conceals the internal antenna 21' provided with the conductor pattern 22'in the resin in the process of manufacturing the cover member 113b', and is electrically connected to the conductor pattern 22'. The contact 23'for the communication cable 4 is integrated with the inner surface (back surface) of the cover member 113b'. The surface of the contact 23'is covered with an electrically insulating member.
In the cover member 113b', the internal antenna 21'and the contact 23'are hidden so as not to be seen from the outside of the meter, so that the aesthetic appearance is not impaired. Further, since the contact 23'is integrated with the inner surface of the cover member 113b', it is necessary to attach and detach the cover member 113b' when removing the communication cable 4, and a malicious third party can use the contact 23'. The inconvenience of easily removing the communication cable 4 from'can be effectively prevented.
Even if the above-mentioned third party removes the communication cable 4 from the contact 23', the housing body 113a is provided with a contact for detecting the attachment / detachment of the cover member 113b', and the attachment / detachment information is transmitted by wireless communication. Since it is stored in the headend system 140 (server), follow-up surveys can be easily performed.

<Modification example>
In each of the above-described embodiments, the smart meter 110 communicates by the 1: N wireless system, but the present invention is not limited to the 1: N wireless system smart meter 110. For example, it can be applied to a multi-hop communication type smart meter.
When applied to a multi-hop communication type smart meter, the above-mentioned wireless communication relay device 1 may be attached to each smart meter. In this case, based on one smart meter, other smart meters installed in the communicable range correspond to the other party's device for communication.
In the multi-hop communication type smart meter, for example, a frequency in the 920 MHz band is used. Therefore, the internal antennas 2, 2A, and the external antenna 3 included in the wireless communication relay device 1 are those capable of transmitting and receiving radio waves at a frequency in the 920 MHz band.

[Summary of Examples of Embodiments of the Present Invention, Actions, and Effects]
<First embodiment>
The wireless communication relay device 1 according to this embodiment is installed inside the cabinet 120 (metal box body) and is used for wireless communication via the antenna 112 in the meter to the base station 130 of the telecommunications carrier or another smart meter (destination). A device used for a smart meter 110 that transmits and receives information to and from a device), and is a device that relays wireless communication between the smart meter 110 and a base station 130, etc., and is a housing provided in the smart meter 110 inside the cabinet 120. Internal antennas 2 and 2A arranged at 113 and performing wireless communication with the antenna 112 in the meter, and an external antenna 3 installed outside the cabinet 120 and performing wireless communication with the base station 130 and the like, and inside. A communication cable 4 for communicably connecting the antenna 2 and the like to the external antenna 3 is provided.
According to the wireless communication relay device 1 according to this aspect, between the internal antenna 2 and the like and the antenna inside the meter 112, between the external antenna 3 and the base station 130, and between the internal antennas 2 and 2A and the external antenna 3. In each of the above, communication can be performed without being affected by the metal cabinet 120.
As a result, communication between the smart meter 110 and the base station 130 and the like can be stabilized.

<Second embodiment>
In the wireless communication relay device 1 according to the present embodiment, the smart meter 110 constitutes a part of the housing 113 together with the housing body 113a, and includes a cover member 113b that is detachable from the housing body 113a, and has an internal antenna 2A. Is composed of a film antenna attached to the cover member 113b.
According to the wireless communication relay device 1 according to this aspect, the internal antenna 2A is attached to the cover member 113b in advance, so that the internal antenna 2A is attached instead of the existing cover member 113b. Since it is only necessary to attach the provided cover member 113b to the housing body 113a, installation can be facilitated.

<Third embodiment>
In the wireless communication relay device 1 according to this aspect, the smart meter 110 constitutes a part of the housing 113 together with the housing body 113a, and includes a resin cover member 113b'that is removable from the housing body 113a. The internal antenna 21'is integrally molded inside the cover member 113b', and the contact point 23'between the internal antenna 21'and the communication cable 4 is provided on the inner surface side of the cover member 113b'.
According to the wireless communication relay device 1 according to this aspect, since the internal antenna 21'is integrally molded in the cover member 113b'and the contact 23' is provided on the inner surface side of the cover member 113b', the malicious first. Even if a third party tries to remove the communication cable 4 from the contact 23', this action can be effectively prevented.
Further, since the internal antenna 21'is integrally molded in the cover member 113b'and the contact 23' is provided on the inner surface side of the cover member 113b', the aesthetic appearance is not impaired.

1 ... Wireless communication relay device, 2, 2A ... Internal antenna, 3 ... External antenna, 4 ... Communication cable, 110 ... Smart meter, 111 ... Meter body, 112 ... In-meter antenna, 113 ... Housing, 115 ... Display, 120 ... cabinet, 130 ... base station

Claims (3)

It is used in a smart meter that is installed inside a metal box and transmits and receives information to and from the other party device by wireless communication via an antenna inside the meter, and wireless communication between the smart meter and the other party device. It is a wireless communication relay device that relays
An internal antenna, which is arranged in a housing provided with the smart meter inside the metal box and performs wireless communication with the antenna in the meter,
An external antenna installed outside the metal box and performing wireless communication with the other party's device,
A communication cable that connects the internal antenna and the external antenna so that they can communicate with each other.
A wireless communication relay device characterized by being equipped with. The smart meter constitutes a part of the housing together with the housing body, and includes a cover member that can be attached to and detached from the housing body.
The wireless communication relay device according to claim 1, wherein the internal antenna is composed of a film antenna attached to the cover member. The smart meter constitutes a part of the housing together with the housing body, and includes a resin cover member that is removable from the housing body.
The internal antenna is integrally molded in the cover member.
The wireless communication relay device according to claim 1, wherein the contact point between the internal antenna and the communication cable is provided on the inner surface side of the cover member.

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