JP2011081518A - Remote meter reading device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote meter reading device capable of highly maintaining environmental performance while acquiring a degree of freedom about disposition of a communication antenna as the remote meter reading device using radio communication. <P>SOLUTION: The remote meter reading device is configured by the steps of reading a meter about amount of electric power of a power system in a consumer by an electric power meter 50 after being pulled outside from a distribution board of the consumer, converting the amount of electric power read from the meter to communication data, and transmitting the converted communication data to a meter reading center which is a managing center via the communication antenna 52. The communication antenna 52 is disposed as a mode of being covered by a non-conductive protection cover C which covers the electric power meter 50. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a remote meter reading device that remotely measures the amount of electric power by wireless communication.

Conventionally, as this type of remote meter reading device, for example, there is a remote meter reading device described in Patent Document 1.
That is, in this apparatus, first, the integrated amount display portion and the rotating disk of the existing inductive power meter are photographed by the imaging means. Next, the integrated amount displayed on the integrated amount display portion and the integrated amount shown on the rotating disk are acquired through pattern recognition processing of each photographed image, and each of the acquired integrated amounts is obtained as an inductive power meter. Is monitored as the meter reading value. Then, the monitored meter reading value is transmitted to the meter reading center which is the management center by the communication means.

JP-A-2005-70869

  Here, the communication means usually includes a communication unit that controls communication with the meter reading center. And in this communication unit, the communication antenna which transmits the meter-reading data which is the said meter-reading value as a radio wave is incorporated. That is, meter reading data from the communication unit is transmitted to the meter reading center via this communication antenna. However, in the remote meter-reading device in which the communication antenna is built in the communication unit in this way, the communication antenna is integrated with the communication unit, so that the degree of freedom concerning the arrangement of the communication antenna, and the communication sensitivity of the communication antenna can be reduced. The degree of freedom for adjustment is also reduced. For this reason, it is also proposed that the communication unit and the communication antenna are configured separately and the communication antenna is disposed outside the power meter. In this way, if the communication antenna is arranged outside the power meter, the communication sensitivity can be adjusted through adjustment of the location of the communication antenna, so the meter reading value by the inductive power meter is sent to the meter reading center. It will be possible to transmit reliably. However, when the communication antenna is arranged outside the power meter in this way, the communication antenna is exposed to the outside, and the influence of external factors such as mischief is inevitable. That is, the environmental performance as a remote meter-reading device may be lowered.

  The present invention has been made in view of such circumstances, and its purpose is to maintain a high degree of environmental performance while ensuring the degree of freedom of arrangement of a communication antenna as a remote meter reading device using wireless communication. An object of the present invention is to provide a remote meter-reading device that can handle such a situation.

Hereinafter, means for solving the above-described problems and the effects thereof will be described.
According to the first aspect of the present invention, the power amount of the power system in the consumer is drawn outdoors from the distribution board of the consumer and metered by the power amount measuring unit, and the metered power amount is measured by the communication unit. A remote meter-reading device that converts communication data and transmits the converted communication data to a meter-reading center that is a management center via a communication antenna, the non-conductive protection covering the power measuring unit and the communication unit The gist of the invention is that the communication antenna is arranged in such a manner that the communication antenna is covered with the protective cover.

  If the communication antenna is arranged in such a manner as to be covered with a non-conductive protective cover as in the above configuration, the communication antenna can be physically protected by the protective cover, The communication sensitivity can be adjusted through adjustment of the location of the communication antenna. As a result, it is possible to maintain high environmental performance while ensuring the degree of freedom of arrangement of the communication antenna as a remote meter reading device using wireless communication.

  According to a second aspect of the present invention, in the remote meter-reading apparatus according to the first aspect, the communication antenna is disposed in a gap between an inner wall surface of the protective cover, the power amount measuring unit, and the communication unit. The gist.

  As described above, if the communication antenna is arranged in the gap between the inner wall surface of the protective cover, the power amount measuring unit, and the communication unit, the communication antenna can be arranged in a space for protecting the communication antenna by the protective cover. There is no need to provide it separately, and the remote meter reading device can be miniaturized.

The gist of a third aspect of the present invention is the remote meter-reading apparatus according to the first aspect, wherein the communication antenna is arranged along an inner wall surface of the protective cover.
If the communication antenna is arranged along the inner wall surface of the protective cover as in the above configuration, the communication antenna can be fixed to the inner wall surface of the protective cover when the communication antenna is protected by the protective cover. As a result, the degree of freedom for adjusting the arrangement location, and hence for adjusting the communication sensitivity, can be improved.

The gist of a fourth aspect of the present invention is the remote meter-reading apparatus according to the first aspect, wherein the communication antenna is embedded and arranged inside the protective cover.
If the communication antenna is embedded and disposed inside the protective cover as in the above configuration, the remote meter-reading device in which the protective cover and the communication antenna are integrated to protect the communication antenna by the protective cover. Can be configured. This simplifies the structure of the remote meter reading device.

  According to a fifth aspect of the present invention, in the remote meter-reading device according to any one of the first to fourth aspects, the power amount measuring unit is provided with a power amount display unit that visually displays the metered power amount. Thus, the gist of the present invention is that the communication antenna is disposed at a position avoiding the power amount display unit.

  If the communication antenna is arranged at a position avoiding the power amount display unit as in the above configuration, the display function of the power amount display unit can be suitably maintained when the communication antenna is covered with the protective cover. It becomes like this. Thereby, the utility as a remote meter-reading apparatus comes to be improved more.

  According to a sixth aspect of the present invention, in the remote meter-reading apparatus according to any one of the first to fifth aspects, the power amount measuring unit and the communication unit are connected to a terminal block including a connection terminal with a power line. The communication antenna includes an antenna input terminal on a contact surface between the communication unit and the terminal block, and an antenna output terminal on an end surface of the protective cover, and the electric energy measuring unit of the terminal block and the terminal block On the mounting surface of the communication unit, there is an input antenna connection terminal electrically connected to the antenna input terminal by fitting, and a communication path extending from the input antenna connection terminal toward the antenna output terminal. The gist of the invention is that an output antenna connection terminal provided at an end and electrically connected to the antenna output terminal by fitting is provided.

  According to the above configuration, the power measuring unit and the communication unit are connected to the terminal block, and the protective cover is installed on the terminal block, so that the input antenna connection terminal is electrically connected to the communication antenna input terminal by fitting. And the output antenna connection terminal is electrically connected to the communication antenna output terminal by fitting. For this reason, a communication path between the communication antenna and the communication unit is automatically formed by opening and closing the protective cover, and the remote meter-reading device can be formed more easily.

The gist of the invention described in claim 7 is that, in the remote meter-reading device according to any one of claims 1 to 6, the protective cover is made of a resin material.
If the protective cover is made of a resin material as in the above configuration, the communication sensitivity of the communication antenna can be suitably maintained when the communication antenna is covered with the protective cover.

The gist of the invention described in claim 8 is that, in the remote meter-reading apparatus according to any one of claims 1 to 7, the communication antenna is a film antenna.
If the communication antenna is composed of a film antenna as in the above configuration, the placement of the communication antenna can be adjusted by attaching the film antenna, so the location of the communication antenna is adjusted within the area covered by the protective cover. Therefore, the arrangement location can be adjusted with a high degree of freedom.

  According to a ninth aspect of the present invention, in the remote meter-reading device according to any one of the first to eighth aspects, the power metering unit and the communication unit are configured as separate units. The main point is that it is constituted by a unit-type power meter.

  As described above, if a unit-type power meter is adopted as the power meter, the specification and the like can be easily changed through replacement of each unit constituting the power meter. As a result, the degree of freedom as a remote meter reading device can be further increased.

  The invention according to claim 10 is the remote meter-reading device according to any one of claims 1 to 8, wherein the remote meter-reading device is an integrated type in which the electric energy measuring unit and the communication unit are integrally incorporated. The main point is that the power meter is configured as follows.

  If the integrated power meter is adopted as the power meter as in the above configuration, the versatility as a remote meter reading device can be enhanced in protecting the communication antenna by a cover covering the power meter. become.

  According to the remote meter-reading apparatus concerning this invention, environmental performance can be maintained high, ensuring the freedom degree of arrangement | positioning of the communication antenna as a remote meter-reading apparatus using wireless communication here now.

The block diagram which shows the schematic structure about the electric power supply system to which the remote meter-reading apparatus of this invention is applied. The figure which shows typically the schematic structure about 1st Embodiment of the remote meter-reading apparatus concerning this invention. Sectional drawing which shows the arrangement | positioning aspect of the communication antenna in the embodiment. Sectional drawing which shows typically the cross-sectional structure which looked at the remote meter-reading apparatus of the embodiment from the side. (A) is sectional drawing which shows the expanded sectional structure of a non-connection state about each terminal which connects the communication unit and communication antenna in the embodiment. (B) is sectional drawing which shows the expanded sectional structure of a connection state. The figure which shows typically the schematic structure about 2nd Embodiment of the remote meter-reading apparatus concerning this invention. Sectional drawing which shows the arrangement | positioning aspect of the communication antenna in the embodiment.

(First embodiment)
Hereinafter, a power supply system to which a remote meter reading device according to the present invention is applied will be described with reference to FIG.

  As shown in FIG. 1, a power supply system 1 that supplies power to various devices (lighting devices, air conditioners, home appliances, audiovisual devices, etc.) installed in a house is provided in a house as a power consumer. Yes. The power supply system 1 operates various devices using a household AC commercial power source (AC power source) 2 as electric power, and also supplies electric power of a solar cell 3 generated by sunlight to the various devices as a power source. The power supply system 1 supplies power not only to a DC device 5 that operates by inputting DC power from a DC power source (DC power source) but also to an AC device 6 that operates by inputting AC power from a commercial power source (AC power source). Supply.

  The power supply system 1 is provided with a control unit 7 and a DC distribution board (built-in DC breaker) 8 as a distribution board of the system 1. The power supply system 1 is provided with a control unit 9 and a relay unit 10 as devices for controlling the operation of the DC device 5 in the house.

  An AC distribution board 11 for branching AC power is connected to the control unit 7 via an AC power line 12. The control unit 7 is connected to the commercial power source 2 through the AC distribution board 11 and is connected to the solar cell 3 through the DC system power line 13. The control unit 7 takes in AC power from the AC distribution board 11 and DC power from the solar cell 3 and converts these powers into predetermined DC power as a device power source. Then, the control unit 7 outputs the converted DC power to the DC distribution board 8 via the DC system power line 14 or outputs it to the storage battery 16 via the DC system power line 15 to store the same power. To do. The control unit 7 can not only take AC power from the AC distribution board 11 but also convert the power of the solar cell 3 and the storage battery 16 to AC power and supply it to the AC distribution board 11. The control unit 7 exchanges data with the DC distribution board 8 via the signal line 17.

  The DC distribution board 8 is a kind of breaker that supports DC power. The DC distribution board 8 branches the DC power input from the control unit 7 and outputs the branched DC power to the control unit 9 via the DC power line 18 or relays via the DC power line 19. Or output to the unit 10. Further, the DC distribution board 8 exchanges data with the control unit 9 via the signal line 20 and exchanges data with the relay unit 10 via the signal line 21.

A plurality of DC devices 5, 5... Are connected to the control unit 9. These DC devices 5 are connected to the control unit 9 via a DC supply line 22 that can carry both DC power and data by the same wiring. The DC supply line 22 superimposes a communication signal for transmitting data by a high-frequency carrier wave on the DC power serving as a power source for the DC device, so that both the power and the data are transferred to the DC device 5 by a pair of lines. Transport to. The control unit 9
DC power of the DC device 5 is acquired via the DC power line 18, and which DC device 5 is controlled and how to control based on an operation command obtained from the DC distribution board 8 via the signal line 20. . Then, the control unit 9 outputs DC power and an operation command to the instructed DC device 5 via the DC supply line 22 to control the operation of the DC device 5.

  A switch 23 that is operated when switching the operation of the DC device 5 in the house is connected to the control unit 9 via a DC supply line 22. In addition, a sensor 24 that detects a radio wave transmitted from an infrared remote controller, for example, is connected to the control unit 9 via a DC supply line 22. Therefore, not only the operation instruction from the DC distribution board 8 but also the operation of the switch 23 and the detection of the sensor 24, a communication signal is sent to the DC supply line 22 to control the DC device 5.

  A plurality of DC devices 5, 5... Are connected to the relay unit 10 via individual DC power lines 25. The relay unit 10 acquires the DC power of the DC device 5 through the DC power line 19 and determines which DC device 5 is to be operated based on an operation command obtained from the DC distribution board 8 through the signal line 21. To grasp. Then, the relay unit 10 controls the operation of the DC device 5 by turning on / off the power supply to the DC power line 25 with the built-in relay with respect to the instructed DC device 5. The relay unit 10 is connected to a plurality of switches 26 for manually operating the DC device 5, and the power supply to the DC supply line 22 is turned on / off by a relay by operating the switch 26. The DC device 5 is controlled.

  The DC distribution board 8 is connected to a DC outlet 27 built in a house in the form of a wall outlet or a floor outlet, for example, via a DC power line 28. If a plug (not shown) of a DC device is inserted into the DC outlet 27, DC power can be directly supplied to the device.

  In addition, a power meter 50 that can remotely measure the amount of use of the commercial AC power supply 2, that is, the amount of purchased power, is connected to the power system between the commercial AC power supply 2 and the AC distribution board 11. The power meter 50 transmits a meter reading result via wireless communication to a meter reading center that is in a power company or the like and is a power information management center.

  The power supply system 1 is provided with a network system 30 that enables various devices in the home to be controlled by network communication. The network system 30 is provided with a home server 31 as a control unit of the system 30. The home server 31 is connected to a management server 32 outside the home via a network N such as the Internet, and is connected to a home device 34 via a signal line 33. The in-home server 31 operates using DC power acquired from the DC distribution board 8 via the DC power line 35 as a power source.

  A control box 36 that manages operation control of various devices in the home by network communication is connected to the home server 31 via a signal line 37. The control box 36 is connected to the control unit 7 and the DC distribution board 8 via the signal line 17 and can directly control the DC device 5 via the DC supply line 38. For example, a gas / water meter 39 capable of remotely metering the amount of gas used or the amount of water used is connected to the control box 36 and also connected to the operation panel 40 of the network system 30. The operation panel 40 is connected to a monitoring device 41 including, for example, a door phone slave unit, a sensor, and a camera.

When the in-home server 31 inputs an operation command for various devices in the home via the network N, the home server 31 notifies the control box 36 of the instruction, and operates the control box 36 so that the various devices operate in accordance with the operation command. . The in-home server 31 can provide various information acquired from the gas / water meter 39 to the management server 32 through the network N, and accepts from the operation panel 40 that the monitoring device 41 has detected an abnormality. This is also provided to the management server 32 through the network N.

  According to such a power supply system, the drive mode of various devices installed in the home as a consumer can be collectively managed by the home server 31, and power can be efficiently supplied to these various devices. become able to.

  By the way, in order to transmit the power information read by the power meter 50 to the meter reading center by wireless communication as described above, it is necessary to provide a communication antenna for transmitting the power information. However, if such a communication antenna is built in with the communication unit constituting the power meter, the degree of freedom for adjusting the communication sensitivity decreases as the degree of freedom for the arrangement of the communication antenna decreases. Become. On the other hand, when such a communication antenna is arranged outside the power meter, the communication antenna is exposed to the outside, and the influence of external factors such as mischief is inevitable. That is, the environmental performance as a remote meter-reading device may be lowered.

  Therefore, in the present embodiment, the communication antenna of the power meter 50 is protected by a cover that protects the power meter 50. FIG. 2 shows a schematic configuration of the power meter 50 of the present embodiment.

  As shown in FIG. 2, this power meter 50 is provided for each consumer as a power supply destination, and a pole transformer that transforms power supplied from an electric power company and supplies it to each consumer. Is mounted on a terminal block TB that relays the power lines Lt1 to Lt3 connected to. The power meter 50 is covered with a protective cover C made of a non-conductive resin material for protecting the power meter 50 from external factors such as tampering.

  The terminal block TB on which such a power meter 50 is mounted includes the connection terminals T1 to T3 connected to the input terminals of the power meter 50 through the internal wiring, and the power meter 50 through the internal wiring of the terminal block TB. And connection terminals T4 to T6 connected to the output terminals. Among these, single-phase three-wire power lines Lt1 to Lt3 extending from the pole transformer are connected to the connection terminals T1 to T3. The single-phase three-wire power lines Lt1 to Lt3 are configured by power lines Lt1 and Lt3 through which power having a ground voltage of 100 V and a phase opposite to each other is transmitted, and a neutral line Lt2 that has been grounded. In addition, power lines Lh1 to Lh3 connected to a distribution board provided for each consumer are connected to the connection terminals T4 to T6 of the terminal block TB. Thereby, when the electric power supplied from the electric power company or the like is supplied to the distribution board of the customer via the pole transformer, the electric power supplied from the pole transformer side in the power meter 50 is the same power. An electric power path to be supplied to the distribution board of the consumer is formed through the input terminal and the output terminal of the meter 50 in order.

The power meter 50 mounted on the terminal block TB is configured as a unit-type power meter including three units, that is, a communication unit 50A, a power amount measurement unit 50B, and a load switching unit 50C. Among these, the electric energy measuring unit 50B includes an electric energy measuring unit (not shown) in which the electric energy used by the consumer is measured, and an electric energy display unit that visually displays the electric energy measured by the electric energy measuring unit. 51. Further, in the communication unit 50A, the electric energy detected by the electric energy measuring unit 50B is captured, and the captured electric energy is converted into communication data. In the communication unit 50A, the communication antenna 52 that performs the communication function of the remote meter-reading apparatus is configured as a separate body. The communication antenna 52 extends along the inner wall surface of the protective cover C with an antenna output terminal 62 provided on the end face of the protective cover C as a base point. Then, the communication data converted by the communication unit 50A is transmitted to the meter reading center via the communication antenna 52. In the electric energy measurement unit 50 </ b> B, various information and control commands from the meter reading center or the like are received via the communication antenna 52. The load switching unit 50C is controlled to open and close in accordance with a control command from the electric power company or the like received by the power amount measurement unit 50B, so that, for example, a power outage accompanying a customer moving in and out is performed. .

  Next, an arrangement mode of the communication antenna 52 externally attached to the power meter 50 will be described with reference to FIG. In addition, this FIG. 3 shows the cross-sectional structure which looked at the said remote meter-reading apparatus from the upper surface.

  As shown in FIG. 3, the communication antenna 52 is constituted by a film antenna and is attached along the inner wall surface Ci of the protective cover C from the antenna output terminal 62 toward the front surface of the protective cover C. After being diffracted once at the corner of the cover C, it is attached along the front surface of the protective cover C. As a result, the communication antenna 52 is accommodated inside the protective cover C in a manner covered by the protective cover C. When the communication antenna 52 is disposed, the communication antenna 52 is disposed at a position that avoids the power amount display unit 51, and communication sensitivity is established in establishing communication between the power meter 50 and the meter-reading center. The arrangement location is adjusted in an optimal manner. As a result, it is possible to protect the communication antenna 52 from external factors such as mischief by the protective cover C, while ensuring the degree of freedom in adjusting the arrangement location as the communication antenna 52 and thus in adjusting the communication sensitivity. become. In addition, by arranging the communication antenna 52 at a position that avoids the power amount display unit 51, the power amount display function of the power amount display unit 51 can be suitably maintained.

Next, a side structure of the remote meter-reading apparatus constituted by the power meter 50, the terminal block TB, the protective cover C and the like will be described with reference to FIG.
As shown in FIG. 4, each of the units 50 </ b> A to 50 </ b> C constituting the power meter 50 is provided with male unit connection terminals 53 to 55 with a terminal block TB on the lower surface thereof. On the other hand, on the mounting surface of the terminal block TB on which each of the units 50A to 50C is mounted, female unit connection terminals 56 to 58 that are electrically connected to the male unit connection terminals 53 to 55 by fitting are provided. It has been.

  The communication antenna 52 externally attached to the power meter 50 includes an antenna input terminal 61 on the contact surface between the communication unit 50A and the terminal block TB, and an antenna output terminal 62 on the end surface of the protective cover C. . On the other hand, an input antenna connection terminal 63 that is electrically connected to the antenna input terminal 61 by fitting is provided on the mounting surface of the terminal block TB. Similarly, the mounting surface of the terminal block TB is provided at the end of the communication path Rc extending from the input antenna connection terminal 63 toward the antenna output terminal 62 and electrically connected to the antenna output terminal 62 by fitting. An output antenna connection terminal 64 connected to is provided.

  Next, the configuration of each of the terminals 61 to 64 will be described with reference to FIG. 5A, FIG. 5A shows the protective cover C in the open state, that is, the unconnected state of the terminals 61 to 64. FIG. 5B shows the protective cover C. The closed state, that is, the connection state of the terminals 61 to 64 is shown.

As shown in FIG. 5, the antenna input terminal 61 and the antenna output terminal 62 are configured by conductive members embedded in a recess 65 c formed in the protective cover C. Further, the input antenna connection terminal 63 and the output antenna connection terminal 64 are configured by conductive members embedded in a recess 65t formed in the terminal block TB. Among these, as shown in FIG. 5A, the antenna input terminal 61 and the antenna output terminal 62 are bent toward the input antenna connection terminal 63 and the output antenna connection terminal 64 from the vicinity of the center to the lower end thereof. And 62c. Further, the concave portion 65c in which the antenna input terminal 61 and the antenna output terminal 62 are embedded has an accommodation space S for accommodating the curved portions 61c and 62c of the antenna input terminal 61 and the antenna output terminal 62 in the connected state. Yes.

  According to the terminals 61 to 64 configured as described above, when the protective cover C is closed, as shown in FIG. 5B, the curved portions 61c of the antenna input terminal 61 and the antenna output terminal 62, and The input antenna connection terminal 63 and the output antenna connection terminal 64 come into contact with 62c, and the curved portions 61c and 62c are accommodated in the accommodation space S in accordance with this contact. As a result, the antenna input terminal 61 and the antenna output terminal 62 are electrically connected to the input antenna connection terminal 63 and the output antenna connection terminal 64, respectively.

  According to such a configuration of the power meter 50, when the units 50A to 50C are mounted on the terminal block TB, the male unit connection terminals 53 to 55 and the female unit connection terminals 56 to 58 are respectively fitted. As a result, the units 50A to 50C are electrically connected to the terminal block TB, and the power path as described above is formed. Further, when the protective cover C is closed to the terminal block TB by screwing or the like, the antenna input terminal 61 and the input antenna connection terminal 63 are respectively fitted, and the antenna output terminal 62 and the output antenna are connected. The connection terminals 64 are respectively fitted. As a result, a communication path for electrically connecting the communication unit 50A and the communication antenna 52 is formed. Thus, in the present embodiment, the communication path between the communication unit 50A and the communication antenna 52 is automatically formed by installing the protective cover C on the terminal block TB. Further, according to such a configuration, when the communication unit 50A and the communication antenna 52 are configured separately, it is necessary to separately form communication wirings that electrically connect the communication unit 50A and the communication antenna 52. In addition, the structure of the remote meter reading device can be simplified.

As explained above, according to the remote meter-reading apparatus concerning this Embodiment, the following effects come to be acquired.
(1) The communication antenna 52 is arranged so as to be covered by the protective cover C. Therefore, the communication antenna 52 can be physically protected by the protective cover C, and the communication sensitivity can be adjusted by adjusting the location of the communication antenna 52 in the protective cover C. As a result, it is possible to maintain high environmental performance while ensuring the degree of freedom of arrangement of the communication antenna 52 as a remote meter reading device using wireless communication.

  (2) The communication antenna 52 is arranged along the inner wall surface Ci of the protective cover C. As a result, the communication antenna 52 can be fixed to the inner wall surface Ci of the protective cover C when covering the communication antenna 52 with the protective cover C, and it is necessary to adjust the location of the communication antenna 52 and thus to adjust the communication sensitivity. The degree of freedom can be improved.

  (3) The communication antenna 52 is arranged at a position that avoids the power amount display unit 51. Thereby, when the communication antenna 52 is covered with the protective cover C, the display function of the power amount display unit 51 can be suitably maintained. Thereby, the utility as the remote meter-reading device is further enhanced.

(4) Connection / disconnection between the communication unit 50A and the communication antenna 52 is performed by fitting the antenna input terminal 61 and the input antenna connection terminal 63 and fitting the antenna output terminal 62 and the output antenna connection terminal 64. Decided to do it. As a result, a communication path between the communication unit 50A and the communication antenna 52 can be automatically formed by opening and closing the protective cover C. Further, according to this configuration, in order to secure a communication path between the communication unit 50A configured separately and the communication antenna 52, the communication wiring for electrically connecting the communication unit 50A and the communication antenna 52 is separately provided. Therefore, the structure of the remote meter reading device can be simplified.

  (5) The protective cover C is made of a resin material. Accordingly, the communication sensitivity of the communication antenna 52 can be suitably maintained when the communication antenna 52 is covered with the protective cover C.

  (6) A film antenna is adopted as the communication antenna. Accordingly, the communication antenna 52 can be easily arranged on the inner wall surface Ci of the protective cover C, and the arrangement location of the communication antenna 52 can be adjusted with a high degree of freedom.

  (7) The unit-type power meter 50 is adopted as the power meter. For this reason, the specification and the like can be easily changed through replacement of the units 50A to 50C constituting the power meter 50, and as a result, the degree of freedom as a remote meter-reading device is further increased.

(Second Embodiment)
Hereinafter, a second embodiment of the remote meter reading device according to the present invention will be described with reference to FIGS. The remote meter-reading apparatus according to the second embodiment has the communication antenna embedded in the protective cover, and other basic configurations are common.

  FIGS. 6 and 7 show schematic configurations of the remote meter-reading apparatus according to the second embodiment as diagrams corresponding to FIGS. 2 and 3 described above. In FIG. 6 and FIG. 7, the same elements as those shown in FIG. 2 and FIG. 3 are denoted by the same reference numerals, and redundant description of these elements is omitted.

  That is, as shown in FIG. 6, the communication antenna 52 constituting the remote meter-reading apparatus is extended in a straight line from the antenna output terminal 62 provided at the end face of the protective cover C. It is embedded inside the protective cover C.

  As shown in FIG. 7, the protective cover C in which the communication antenna 52 is embedded extends from the end face where the antenna output terminal 62 is provided toward the corner of the protective cover C. A storage space Sc extending along the front surface of the protective cover C is formed. And the communication antenna 52 is arrange | positioned in such accommodation space Sc. Thereby, the communication antenna 52 is embedded and arranged inside the protective cover C in such a manner that it is covered by the outer wall surface Co of the protective cover C.

  As explained above, according to the remote meter-reading apparatus concerning this Embodiment, while the effect according to said (1) and (3)-(7) is acquired, it replaces with the effect of said (2), and is the following. The effect will be obtained.

  (8) The communication antenna 52 is embedded in the protective cover C and arranged. For this reason, when the communication antenna 52 is covered with the protective cover C to improve its environmental performance, a remote meter reading device in which the protective cover C and the communication antenna 52 are integrated can be configured. This simplifies the structure of the remote meter reading device.

(Other embodiments)
In addition, each said embodiment can also be implemented with the following forms.
In each of the above embodiments, the connection between the communication unit 50A configured separately and the communication antenna 52 is performed by fitting the antenna input terminal 61 having the bending portion 61c and the input antenna connection terminal 63, and the bending portion. The antenna output terminal 62 having 62c and the output antenna connection terminal 64 are fitted together. Not only this but the structure which employ | adopts various connectors as a terminal which connects 50 A of communication units comprised separately and the communication antenna 52 may be sufficient. In short, the structure of the terminal for connecting the communication unit 50A and the communication antenna 52 may be any structure as long as the communication unit 50A and the communication antenna 52 can be electrically connected through the fitting. is not. Further, in order to protect the communication antenna 52 by covering it with the protective cover C, the terminals 61 to 64 may be omitted, and communication wiring for electrically connecting the communication unit 50A and the communication antenna 52 may be provided. Good.

  In the first embodiment, the film antenna is used as the communication antenna. However, the communication antenna may be any antenna that can arrange the communication antenna along the inner wall surface Ci of the protective cover C. In addition, various antennas can be employed.

  In each of the above embodiments, the communication antenna 52 is arranged at a position that avoids the power amount display unit 51. Not only this but the arrangement | positioning location of the communication antenna 52 should just be arrange | positioned in the range covered with the protective cover C, and is not limited to this. Further, in order to protect the communication antenna 52 by covering the communication antenna 52 with the protective cover C, the present invention can be applied even if the power amount display unit 51 is omitted.

  In the first embodiment, the communication antenna 52 is arranged along the inner wall surface Ci of the protective cover C. In the second embodiment, the communication antenna 52 is embedded in the protective cover C and arranged. Not only this but the structure which arrange | positions the communication antenna 52 in the clearance gap between the protective cover C and the electric power meter 50 may be sufficient. According to this configuration, when the communication antenna 52 is protected by the protective cover C, it is not necessary to provide a separate arrangement space for the communication antenna 52, and the size of the remote meter-reading apparatus can be reduced. In addition, the arrangement position of the communication antenna 52 may be in a range covered by the protective cover C, and the arrangement position is arbitrary.

  In each of the above embodiments, the power meter is configured by the unit-type power meter 50. Not only this but the structure which employ | adopts the integrated power meter by which the said electric energy measurement part and the said unit were comprised integrally may be sufficient. According to this configuration, versatility as a remote meter-reading device can be further enhanced when the communication antenna is protected by the cover covering the power meter.

DESCRIPTION OF SYMBOLS 1 ... Electric power supply system, 2 ... Commercial alternating current power supply, 3 ... Solar cell, 5 ... DC apparatus, 6 ... AC apparatus, 7 ... Control unit, 8 ... DC distribution board, 9 ... Control unit, 10 ... Relay unit, DESCRIPTION OF SYMBOLS 11 ... AC distribution board, 12 ... AC system power line, 13-15, 18, 19, 25, 28, 35 ... DC system power line, 16 ... Storage battery, 17, 20, 21, 33, 37 ... Signal line, 22 ... DC supply line, 23 ... switch, 24 ... sensor, 26 ... switch, 27 ... DC outlet, 30 ... network system, 30 ... system, 31 ... home server, 32 ... management server, 34 ... home equipment, 36 ... control box, 38 ... DC supply line, 39 ... gas / water meter, 40 ... operation panel, 41 ... monitoring device, 50 ... electric power meter, 50A ... communication unit, 50B ... electric energy measuring unit , 50C ... load switching unit, 51 ... power amount display unit, 5
2 ... Communication antenna, 53-55 ... Male unit connection terminal, 56-58 ... Female unit connection terminal, 61 ... Antenna input terminal, 61c, 62c ... Curved part, 62 ... Antenna output terminal, 63 ... Input antenna connection Terminal, 64 ... Output antenna connection terminal, 65c, 65t ... Recess, C ... Protective cover, Ci ... Inner wall surface of protective cover, Co ... Outer wall surface of protective cover, N ... Network, Rc ... Communication path, TB ... Terminal block , Lt1... Power line (voltage line), Lt2... Power line (neutral line), Lt3... Power line (voltage line), T1 to T6.

Claims (10)

It is pulled out from the customer's distribution board and the power amount of the power system in the consumer is metered by the energy meter, and the metered power is converted into communication data by the communication unit. Remote meter-reading device that transmits communication data to a meter-reading center that is a management center via a communication antenna,
A remote meter-reading device comprising a non-conductive protective cover that covers the power measurement unit and the communication unit, wherein the communication antenna is arranged in a manner covered by the protective cover. The remote meter-reading apparatus according to claim 1, wherein the communication antenna is disposed in a gap between an inner wall surface of the protective cover and the power amount measurement unit and the communication unit. The remote meter-reading apparatus according to claim 1, wherein the communication antenna is disposed along an inner wall surface of the protective cover. The remote meter-reading device according to claim 1, wherein the communication antenna is embedded and arranged inside the protective cover. The electric energy measuring unit is provided with an electric energy display unit that visually displays the metered electric energy,
The remote meter-reading device according to any one of claims 1 to 4, wherein the communication antenna is disposed at a position that avoids the power amount display unit. The power amount measurement unit and the communication unit are connected to a terminal block including a connection terminal with a power line,
The communication antenna includes an antenna input terminal on a contact surface between the communication unit and the terminal block, and an antenna output terminal on an end surface of the protective cover.
An input antenna connection terminal electrically connected to the antenna input terminal by fitting to the mounting surface of the power amount measuring unit and the communication unit of the terminal block, and the antenna output from the input antenna connection terminal An output antenna connection terminal provided at an end portion of a communication path extending toward the terminal and electrically connected to the antenna output terminal by fitting is provided. The remote meter reading device according to one item. The remote meter-reading device according to any one of claims 1 to 6, wherein the protective cover is made of a resin material. The remote meter-reading device according to any one of claims 1 to 7, wherein the communication antenna is a film antenna. The remote meter-reading device according to any one of claims 1 to 8, wherein the remote meter-reading device is configured by a unit-type power meter in which the power amount measuring unit and the communication unit are configured as separate units. The remote meter-reading device according to any one of claims 1 to 8, wherein the remote meter-reading device is configured by an integrated power meter in which the electric energy measuring unit and the communication unit are integrally incorporated.

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