JP2014202542A - Measurement device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a measurement device capable of achieving space saving, reducing the labor of a wiring work, and enabling cooperation with a meter.SOLUTION: A measurement device 1 includes: a measurement part 11 for measuring power consumption in equipment 2. Furthermore, the measurement device 1 includes: a first communication part 12 for communicating with the equipment 2; a control module 13 for controlling the equipment 2; and a second communication part 16 for communicating with a smart meter 4 integrally with the measurement 11. The first communication part 12 bi-directionally performs wireless communication with the equipment 2 by using a radio wave as a transmission medium. The control module 13 communicates with the equipment 2 by the first communication part 12 to control the equipment 2. Also, the measurement device 1 receives DR information from a management device via, for example, the smart meter 4 to reflect the DR information on the control of the equipment 2.

Description

  The present invention relates to a measuring device that measures the consumption of equipment such as power, gas, water, and heat.

  2. Description of the Related Art Conventionally, a technique for controlling each facility device in response to a DSM command instructing a restriction on the use of power from the outside has been proposed in order to reduce power consumption in household facility devices (for example, patents). Reference 1).

  In Patent Document 1, a controller (DSM control device) is connected to a home network to which equipment (facility equipment) is connected, and the controller instructs a DSM command for instructing power usage restrictions from a DSM command center managed by an electric power company. In response, each device is controlled. Here, the controller detects the current value or the integrated power amount detected by the measuring device (current sensor) attached to the distribution board via the home network. The DSM command is given, for example, as a current consumption upper limit value for each time zone, and the controller performs control to lower or stop the operating capability of each device so that the detected current value does not exceed the upper limit value by the DSM command.

JP 11-313441 A

  By the way, in the system described in Patent Document 1, the controller that controls the device is separate from the measuring device for detecting the current value. For this reason, there is a problem in that each installation space is required for the measurement device and the controller, and wiring work for connecting the measurement device and the controller is necessary at the time of construction.

  Further, in recent years, a meter having a communication function with a management device operated by a resource supplier or the like, such as a so-called smart meter, has begun to spread. It is considered that the measurement device can correct the measurement value based on the measurement value of the meter, for example, in cooperation with this type of meter, leading to improvement in reliability of the measurement value and multi-functionality. Therefore, it is also required for the measuring device to enable cooperation with the meter.

  The present invention has been made in view of the above reasons, and an object of the present invention is to provide a measuring apparatus that can save space, reduce the labor of wiring work, and can be linked with a meter.

  The measurement device of the present invention is a measurement device including a measurement unit that measures the consumption of resources in a device, the first communication unit performing communication between at least one of the device and a display terminal, and the first At least a function of controlling the device by communicating with the device at one communication unit, and a function of displaying display information on the display terminal by communicating with the display terminal at the first communication unit. A second communication unit that communicates with a control module having one of them and a meter that is provided for each consumer of the resource and that measures the consumption of the resource at the consumer and outputs measurement information representing the measurement result; Is provided integrally with the measurement unit.

  In this measuring apparatus, it is preferable that the second communication unit is an interface to which a communication function with the meter is provided by connecting a separate communication adapter.

  In this measurement device, the second communication unit is configured to acquire at least one of the measurement information and external information received by the meter from a management device outside the consumer as acquisition information from the meter. It is more desirable.

  In this measurement apparatus, a third communication unit that communicates with an external controller having at least one of a function of controlling the device and a function of displaying display information on the display terminal; and the meter at the second communication unit It is more preferable that the measurement unit includes a first transfer unit that transmits the acquired information acquired from the first controller to the external controller using the third communication unit.

  In the measuring apparatus, it is more preferable that the third communication unit is an interface to which a communication function with the external controller is given by connecting a separate communication adapter.

  In this measuring apparatus, it is more desirable that at least two of the first communication unit, the second communication unit, and the third communication unit share one communication module.

  In this measuring apparatus, it is more preferable that a disabling unit that invalidates the function of the control module is provided integrally with the measuring unit.

  In this measurement apparatus, it is more preferable that the second transfer unit integrally includes the second transfer unit that transmits the acquired information acquired from the meter to the display terminal using the first communication unit. .

  In the measurement apparatus, it is more preferable that the second transfer unit is configured to periodically transmit the measurement information included in the acquired information together with the measurement result of the measurement unit.

  In this measurement apparatus, it is preferable that the second transfer unit is configured to periodically transmit one of the measurement information included in the acquired information and the measurement result of the measurement unit.

  In this measurement apparatus, it is more preferable that the second transfer unit is configured to periodically transmit the measurement information and supplement the interval between the two pieces of measurement information with the measurement result of the measurement unit. .

  In this measurement apparatus, based on the measurement result of the measurement unit and the measurement information acquired from the meter by the second communication unit, correction for correcting a deviation of the measurement result of the measurement unit from the measurement information More preferably, a correction unit that obtains a value and corrects the measurement result of the measurement unit using the correction value is provided integrally with the measurement unit.

  In this measurement device, the resource is installed in a distribution board, the resource is power, and the measurement unit consumes power of at least one of the main system and a plurality of branch systems in the distribution board. More preferably it is configured to measure quantities.

  According to the present invention, the first communication unit and the control module having at least one of the function of controlling the device and the function of displaying the display information on the display terminal are provided integrally with the measurement unit, so that the space can be saved. This can also reduce the labor of wiring work. Further, the measuring device includes a second communication unit that is provided for each resource consumer and performs communication with a meter that measures the consumption of the resource at the consumer and outputs measurement information representing the measurement result. Since it is provided integrally, there is an advantage that it can be linked with a meter.

1 is a schematic block diagram illustrating a resource management system according to a first embodiment. FIG. 6 is an explanatory diagram of the operation of the measurement apparatus according to the first embodiment. FIG. 6 is an explanatory diagram of the operation of the measurement apparatus according to the first embodiment. It is a schematic block diagram which shows the resource management system which concerns on Embodiment 2.

  In the following embodiments, a resource management system used for controlling the device so as to suppress the consumption of resources in the device and saving energy (energy saving) will be described. Here, the resources are, for example, electric power, gas, water, heat, etc., and if it is electric power, the electric power company becomes the supply company, if it is gas, the gas company becomes the supply company, and if it is water, the water company Becomes a supplier. Hereinafter, a case where the resource is electric power will be described as an example. However, the resource management system is applicable not only to electric power but also to management of resources other than electric power. In addition, in the following, a case where the resource management system is used in a detached house that is a resource consumer will be described as an example. However, the resource consumer is not limited to a detached house, for example, each dwelling unit of an apartment house, It may be an office, a store, or the like.

(Embodiment 1)
As shown in FIG. 1, the resource management system 10 according to the present embodiment includes a plurality of devices 2, a measuring device 1 that measures the consumption of resources (here, power) in the devices 2, a display terminal 3, and a remote location. And a smart meter 4 having a communication function with a management device installed in the network. As will be described in detail later, the measuring device 1 has a communication function with the plurality of devices 2 and the display terminal 3 and a communication function with the smart meter 4.

  The plurality of devices 2 are various home appliances and equipment used in a house, and include, for example, an air conditioner (air conditioner), a lighting fixture, a refrigerator, an IH cooker, and the like. Here, the device 2 is configured to be capable of switching at least two states of an energy saving state with relatively small energy consumption and a non-energy saving state with relatively large energy consumption. That is, the device 2 is configured to be able to switch between two or more operating states in which the operating state is not one state and the amount of energy consumption varies depending on the operating state. For example, an air conditioner enters a non-energy-saving state when the set temperature during cooling operation is lower than the specified temperature, or when the set temperature during heating operation is higher than the specified temperature, and the set temperature during cooling operation is higher than the specified temperature or heating operation. When the set temperature is lower than the specified temperature, the energy saving state is entered. If it is a lighting fixture in which dimming control is possible, all lighting (100% dimming) state will be a non-energy-saving state, and the state which is dimming lighting will be an energy-saving state.

  Moreover, in this embodiment, the measuring device 1 uses the display terminal 3 as a user interface for displaying various information based on the measurement result and receiving an operation input from the user. The display terminal 3 has a function as a Web browser and displays content provided from the Web server. The measurement apparatus 1 may be configured to use a personal computer, a tablet terminal, a smartphone, or the like for the user interface instead of the dedicated display terminal 3.

  In the example of FIG. 1, a distribution board 5 connected to a single-phase three-wire power line 51 of a commercial power supply is provided in a house. The smart meter 4 is connected to the power line 51, and the distribution board 5 is connected to the smart meter 4 via the power line 51. The distribution board 5 has a main breaker (not shown) connected to the power line 51 as a main system, and a branch breaker (not shown) inserted for each of a plurality of branch systems branching from the secondary side of the main circuit breaker. ) And are stored. The branch system here includes various devices 2 connected to the indoor wiring, as well as wiring devices such as an outlet and a wall switch.

  The smart meter 4 is a power meter (power) having a communication function with a management device (not shown) outside a consumer operated (managed) by a power company or a service provider that manages power on behalf of the power company. Meter). That is, the smart meter 4 is a meter that is provided for each consumer of resources (here, electric power), measures the consumption amount of the resources (electric power) at the consumer, and outputs measurement information representing the measurement result. Therefore, the management device can perform remote meter reading by acquiring measurement information from the smart meter 4, for example. In addition, the management device can request the customer to adjust the power supply / demand by transmitting DR (demand response) information requesting the adjustment of the power supply / demand to the smart meter 4.

  Therefore, by combining the smart meter 4 with the resource management system 10, remote meter reading becomes possible and convenience is improved, and DR information from the management device is notified to the customer via the smart meter 4. It becomes possible to control the consumption of resources (electric power) at consumers.

  The measuring device 1 is installed in the distribution board 5. The measuring device 1 measures the current value flowing through the main system and each branch system and the voltage value of the indoor wiring, and is set at a predetermined location of the main system and each branch system based on these current values and voltage values. The power supplied to the device 2 through the measured points is obtained. In other words, the measuring device 1 has a function of measuring the consumption (power value) of resources (here, power) in the device 2 for each of the main system and each branch system. Further, the measuring device 1 has a function of performing integration processing of power values and calculating not only instantaneous power but also integrated power (amount of power). Here, the measuring device 1 measures the current value flowing through the main system and each branch system using a CT (current transformer) sensor 111. The CT sensor 111 is attached to the main system and each branch system in the distribution board 5 and generates an output corresponding to the current flowing through the main system and each branch system.

  By the way, in addition to the basic function of measuring the resource consumption (here, power consumption) in the device 2, the measuring device 1 of the present embodiment has a communication function with the device 2 and the display terminal 3, and the device 2. The control and display terminal 3 has a function of displaying display information. Furthermore, the measuring device 1 has a communication function with the smart meter 4.

  Specifically, the measurement device 1 includes a measurement unit 11 that measures power consumption in the device 2, and further includes a first communication unit 12 that performs communication with the device 2 and the display terminal 3, and control of the device 2. And a control module 13 that performs display control of the display terminal 3 is provided integrally with the measuring unit 11. In the present embodiment, the measuring apparatus 1 further includes a storage unit 14 that stores the identification information of the device 2, a registration unit 15 that writes the identification information in the storage unit 14, and a second communication unit that communicates with the smart meter 4. 16 is provided integrally with the measuring unit 11.

  In the present embodiment, the measuring apparatus 1 has a microcomputer as a main component, and implements the functions of each unit by executing a predetermined program stored in a memory (not shown). This measuring device 1 has a basic function of measuring resource consumption in the device 2, a communication function with the device 2 and the display terminal 3, a function of controlling the device 2 and a display control of the display terminal 3, and a smart meter 4. All communication functions are provided in a single housing (not shown). The measuring device 1 is housed in the distribution board 5 together with other internal devices (main circuit breaker or branch breaker), but is not limited to this configuration and may be installed side by side on the distribution board 5. The housing of the measuring device 1 is provided with a power supply terminal (not shown) for supplying power and a sensor terminal (not shown) for connecting the CT sensor 111, and the distribution board 5 Inside, a power line (not shown) is connected to the power terminal, and a CT sensor 111 is connected to the sensor terminal.

  As described above, the measuring unit 11 measures the current value flowing through the main system and each branch system and the voltage value of the main system, and based on these current values and voltage values, consumes each main system and each branch system. It has a function to measure power. That is, the measuring unit 11 is configured to measure the power consumption of at least one of the main system and the plurality of branch systems in the distribution board 5. The measuring unit 11 stores the measured power consumption (for each main system and branch system) in a memory, and updates the stored power consumption at regular time intervals (for example, at intervals of 5 seconds). Note that the measuring device 1 may have a power supply terminal connected to the main system. In this case, the measuring unit 11 measures the voltage value of the main system from the power supply voltage.

  The first communication unit 12 is configured to perform two-way wireless communication with the device 2 using radio waves as a transmission medium. The first communication unit 12 further has a communication function with the display terminal 3 and is configured to perform two-way wireless communication with the display terminal 3 using radio waves as a transmission medium.

  In the present embodiment, the first communication unit 12 performs communication between the device 2 and the display terminal 3 by 900 MHz band specific low power radio. However, the first communication unit 12 is not limited to this example, and may adopt a system such as a 400 MHz band specific low power radio, Wi-Fi (registered trademark), Bluetooth (registered trademark), or the like. Moreover, the 1st communication part 12 may be the structure which communicates with the apparatus 2 and the display terminal 3 not only via the structure directly communicated with the apparatus 2 and the display terminal 3, but via a repeater (not shown).

  The control module 13 is configured to control the device 2 based on the measurement result in the measurement unit 11 by communicating with the device 2 in the first communication unit 12. For example, the control module 13 compares the power consumption of the entire customer (the power of the main system) as a measurement result in the measurement unit 11 with a preset upper threshold value, and saves energy when the power consumption exceeds the upper threshold value. The device 2 is controlled so that

  Specifically, the control module 13 communicates with the device 2 through the first communication unit 12 to monitor whether the device 2 in operation is in a non-energy saving state or an energy saving state, that is, the state of the device 2. doing. The control module 13 stores a control command for each device 2 in advance, and when the power consumption measured by the measurement unit 11 exceeds the upper threshold, the control command corresponding to the device 2 in the non-energy saving state is sent to the device 2. Is transmitted from the first communication unit 12 to execute energy saving control.

  For example, when the set temperature of the air conditioner during heating operation exceeds a specified temperature, the control module 13 performs a control command for executing energy saving control that lowers the set temperature to be equal to or lower than the specified temperature (for example, 28 degrees). To the air conditioner. Note that the control module 13 confirms that the device 2 is actually controlled by receiving a confirmation signal from the device 2 that is the target of the energy saving control after executing the energy saving control.

  The control module 13 further has a function of causing the display terminal 3 to display display information based on the measurement result of the measurement unit 11 by communicating with the display terminal 3 using the first communication unit 12. In the present embodiment, the control module 13 has a function of transmitting transmission data representing display information to the display terminal 3 in a prescribed format so that the display information is displayed on the display terminal 3.

  That is, the control module 13 uses, for example, the power consumption of the entire customer (power of the main system) as the measurement result in the measurement unit 11 and the power consumption of each branch system as display information, and transmission data representing this display information. Is transmitted to the display terminal 3. Here, the control module 13 transmits the transmission data and updates the display information displayed on the display terminal 3 every time the measurement unit 11 updates the measurement result (power consumption) at a constant time interval (for example, every 5 seconds). To do.

  The display information displayed on the display terminal 3 can be switched by the operation of the display terminal 3, and the user can switch and display the power consumption of the entire consumer and the power consumption of each branch system, The integrated power can be switched and displayed.

  Furthermore, the control module 13 also has a function of controlling the device 2 in accordance with an operation command that is generated when a predetermined operation by the user is performed on the display terminal 3 from the display terminal 3. The control module 13 acquires an operation command from the display terminal 3 by communicating with the display terminal 3 in the first communication unit 12, and sends a control command corresponding to the operation command from the first communication unit 12 to the device 2. Transmit, and control of the device 2 is executed. Thereby, the measuring device 1 can control the device 2 in accordance with an operation input of the display terminal 3 by the user.

  In short, the control module 13 built in the measuring device 1 functions as a controller of a HEMS (Home Energy Management System), controls the device 2, and visualizes (visualizes) the power consumption in the device 2. . Therefore, according to the resource management system 10, it becomes possible to manage the consumption of resources in the device 2, and it is possible to suppress wasteful consumption of resources.

  The storage unit 14 stores identification information (ID information) unique to each device 2. Here, the control module 13 sets the device 2 whose identification information is stored in the storage unit 14 as a control target. That is, the device 2 can be controlled by the control module 13 only when the identification information is registered in the storage unit 14. Furthermore, since the control module 13 has a function of displaying the display information on the display terminal 3, the storage unit 14 also stores identification information assigned to the display terminal 3. The display terminal 3 can display and display the display information from the measuring device 1 only after the identification information is registered in the storage unit 14.

  The device 2 is configured to automatically transmit its identification information by wireless communication when the power is turned on and the operation is started. When the registration unit 15 receives the identification information transmitted from the device 2 when the operation of the device 2 is started, the registration unit 15 determines whether or not the identification information is stored in the storage unit 14. Is written in the storage unit 14. As a result, the measurement apparatus 1 automatically registers the identification information of the device 2 in the storage unit 14 when the operation of the unregistered device 2 is started.

  The second communication unit 16 is connected to the power line 51, and uses the power line 51 between the measuring device 1 and the smart meter 4 as a communication line, and bidirectional power line communication (PLC: Power) with the smart meter 4. Line Communications). However, the second communication unit 16 is not limited to this example. For example, wired communication other than power line carrier communication, 400 MHz band specific low power radio, 900 MHz band specific low power radio, Wi-Fi (registered trademark), Bluetooth (registered) (Trademark) or other wireless communication may be employed. Moreover, the 2nd communication part 16 may be the structure which communicates with the smart meter 4 not only via the structure directly communicated with the smart meter 4, but via a repeater (not shown).

  Note that the first communication unit 12 and the second communication unit 16 may share one communication module. That is, the measurement apparatus 1 uses the same communication method (900 MHz band specific low power radio) as that of the first communication unit 12 as the communication method of the second communication unit 16 so that the communication module configuring the first communication unit 12 is the second. The communication unit 16 can also be used.

  Further, the second communication unit 16 may be an interface to which a communication function with the smart meter 4 is provided by connecting a separate communication adapter (not shown). In this case, the second communication unit 16 alone does not have a communication function with the smart meter 4, and has a communication function with the smart meter 4 only when a communication adapter is connected. According to this configuration, the second communication unit 16 can arbitrarily select a communication method according to the smart meter 4 by selecting the type of communication adapter to be connected according to the communication method of the smart meter 4. . In addition, when the communication function with the smart meter 4 is not necessary in the measurement device 1, the communication adapter is removed from the measurement device 1, thereby eliminating the extra function and reducing the cost of the measurement device 1. Can be planned.

  Thus, since the measuring device 1 has a communication function with the smart meter 4, the external information which the smart meter 4 received from the management apparatus outside a consumer can be acquired as acquisition information. For example, the measuring device 1 receives DR information that is external information from the management device through the smart meter 4 to reflect the DR information in the control of the device 2 or to display the DR information on the display terminal 3. be able to.

  The measuring device 1 can also acquire measurement information from the smart meter 4 as acquisition information. Here, the measurement information acquired from the smart meter 4 by the measuring device 1 is information representing the consumption of resources in the entire consumer measured by the smart meter 4, and is included in the measurement result of the main system in the measurement unit 11. Equivalent to. However, the measurement information of the smart meter 4 represents the amount of resources actually consumed by the consumer (here, the amount of electric power) and is also used for meter reading, whereas the measurement result of the measuring unit 11 is It is a value that is a measure of resource consumption at the consumer. Therefore, comparing the two, the measurement information of the smart meter 4 is more accurate and more reliable, and the measurement device 1 corrects the measurement result of the measurement unit 11 if the measurement information acquired from the smart meter 4 is used. It becomes possible to do.

  Therefore, the measuring apparatus 1 according to the present embodiment corrects the measurement result of the measurement unit 11 as a configuration for correcting the measurement result of the measurement unit 11 using the measurement information from the smart meter 4 (FIG. 1). Reference) is integrated with the measurement unit 11.

  The correction unit 17 corrects a deviation from the measurement information of the measurement result of the measurement unit 11 based on the measurement result of the measurement unit 11 and the measurement information acquired from the smart meter 4 by the second communication unit 16. And the measurement result of the measurement unit 11 is corrected using the correction value. That is, the correction unit 17 compares the measurement information of the smart meter 4 with the measurement result of the measurement unit 11 to calculate a deviation from the measurement information of the measurement result of the measurement unit 11, and a correction value for correcting this deviation. And the measurement result of the measurement unit 11 is corrected using this correction value.

  Specifically, the measurement apparatus 1 acquires measurement information by communicating with the smart meter 4 and measures the power consumption of the main system at the measurement unit 11 at the same time as acquiring the measurement information. The correction unit 17 calculates a ratio α (= measurement information / measurement result) between the measurement information acquired at the same time in this way and the measurement result (power consumption of the main system) of the measurement unit 11 and calculates the ratio α. The correction value. Thereafter, the correction unit 17 corrects the measurement result of the measurement unit 11 by multiplying the measurement result of the measurement unit 11 (power consumption of the main system) by the ratio α.

  Alternatively, the measurement device 1 may acquire measurement information by communicating with the smart meter 4 and measure the power consumption of each branch system at the measurement unit 11 at the same time as acquiring the measurement information. . In this case, the correction unit 17 calculates the ratio β (= measurement information / measurement result) between the measurement information acquired at the same time and the total measurement result (power consumption of each branch system) of the measurement unit 11, and this The ratio β is a correction value. Thereafter, the correction unit 17 corrects the measurement result of the measurement unit 11 by multiplying the measurement result of the measurement unit 11 (power consumption of the main system) by the ratio β.

  As described above, the measuring apparatus 1 corrects the measurement result of the measurement unit 11 using the correction value obtained based on the measurement information of the smart meter 4 and the measurement result of the measurement unit 11 by the correction unit 17. The accuracy and reliability of the measurement result in the unit 11 can be improved.

  Further, the correction unit 17 is not limited to the measurement result of the power consumption of the main system in the measurement unit 11, and the measurement result of the power consumption of each branch system in the measurement unit 11 can be used as a correction target using the correction value. Good. In this case, the correction unit 17 corrects the measurement result for each branch system by multiplying the measurement result of the power consumption of each branch system by the measurement unit 11 by the common correction value. Alternatively, when the measurement result of the power consumption of each branch system in the measurement unit 11 is a correction target, the correction unit 17 obtains a correction value for each branch system and uses a different correction value for each branch system, 11 may correct the measurement result of the power consumption of each branch system.

  Further, it is desirable that the correction unit 17 is configured to periodically obtain a correction value at a constant period and update the correction value. In this case, the correction unit 17 can update the correction value in accordance with the change even if the deviation of the measurement result of the measurement unit 11 from the measurement information of the smart meter 4 changes with time. The measurement result can be corrected with high accuracy.

  Furthermore, the correction | amendment part 17 may be comprised so that a correction value may be calculated by using the request | requirement from the external devices of the measuring devices 1, such as the display terminal 3, for example. In this case, the correction unit 17 updates the correction value at an arbitrary timing in accordance with a request from the external device such as the display terminal 3, so that the measurement result of the measurement unit 11 is corrected in response to the request from the external device. Accuracy can be increased and convenience is improved.

  In addition, the correction unit 17 may use an integrated power (amount of power) obtained by integrating the power value over a predetermined time instead of the instantaneous power when obtaining the correction value. Specifically, the correction unit 17 calculates a ratio between the integrated power measured by the smart meter 4 and the integrated power measured by the measuring unit 11 during the same period, and uses this ratio as a correction value. In this case, the correction unit 17 uses the average value of the instantaneous power for a fixed time as the correction value, so even if the instantaneous power fluctuates due to the influence of noise or the like, the correction accuracy is suppressed by suppressing the influence of the fluctuation. Can be increased.

  By the way, since the measuring device 1 has a communication function with the smart meter 4, for example, the information on the unit price of electricity is received from the smart meter 4 (or the management device), and by using this information, the measuring unit 11 is used. It is possible to convert the integrated power (electric energy) measured in step 1 into electricity charges. The unit price of the electric charge varies depending on, for example, the time zone, but the measuring device 1 receives the information on the unit price of the electric charge from the smart meter 4 each time the integrated power is converted into the electric charge. Can be converted into electricity charges.

  That is, the measuring device 1 can calculate the electricity bill for each branch system by multiplying, for example, the integrated power of each branch system measured by the measurement unit 11 by the electricity bill unit price. In this case, the measurement device 1 can accurately obtain the electricity bill for each branch system by using the measurement result after correction by the correction unit 17 instead of using the measurement result of the measurement unit 11 as it is. That is, the measuring device 1 can reduce the deviation from the actual electricity bill based on the measurement information of the smart meter 4 by using the corrected measurement result.

  For example, it is assumed that the customer has the first to fourth branch systems, and the electricity bill measured by the smart meter 4 for the entire consumer is 800 yen. In this case, the measurement apparatus 1 uses the corrected measurement result, so that the first branch system is 300 yen, the second branch system is 200 yen, the third branch system is 150 yen, and the fourth branch system. The electricity rate can be calculated for each branch system, such as 150 yen. The measuring device 1 displays the electricity charge for each branch system calculated in this way on the display terminal 3, thereby presenting the user with the electricity charge for each branch system determined with high accuracy.

  Furthermore, when the device 2 performs energy-saving control of the device 2 based on the DR information from the management device and the operation command from the display terminal 3, the measuring device 1 can estimate how much the electricity charge has been reduced by the energy-saving control. . That is, the measurement apparatus 1 monitors the measurement result of the measurement unit 11 after correction for each branch system, and when a certain device 2 is subjected to energy saving control, before and after the energy saving control of the branch system to which the device 2 is connected. The change in electricity charges is estimated as the effect of reducing electricity charges by energy saving control.

  For example, the measuring device 1 may be configured to use this device when the electricity bill for a certain time of the first branch system changes from 300 yen to 150 yen before and after the energy saving control of the device 2 connected to the first branch system. It is estimated that the energy saving control of No. 2 has a reduction effect of 150 yen per fixed time. The measuring device 1 can present the effect obtained by the energy saving control in an easy-to-understand form for the user by displaying on the display terminal 3 the effect of reducing the electricity bill by the energy saving control estimated in this way.

  According to the measurement apparatus 1 of the present embodiment described above, since the control module 13 that controls the device 2 based on the measurement result of the measurement unit 11 is included, power consumption in the device 2 is suppressed and energy saving is achieved. Therefore, it is possible to automatically perform energy saving control. Moreover, since the control module 13 as a controller for controlling the device 2 is provided in the same casing as the measurement unit 11 and integrated with the measurement unit 11, the controller and the measurement device 1 are separate from each other. Thus, the installation space can be saved.

  Furthermore, according to the above configuration, since the wiring work for connecting the measuring device 1 and the controller is not necessary, the labor of the wiring work can be reduced. In short, the measuring apparatus 1 according to the present embodiment incorporates the function of a controller that has been conventionally provided as a separate unit as the control module 13, so that space can be saved and wiring work is reduced. There is an advantage that you can. In particular, in the present embodiment, the measurement apparatus 1 is configured such that the first communication unit 12 that performs communication with the device 2 and the display terminal 3 performs wireless communication using radio waves as a transmission medium. Therefore, there is no need to wire communication signal lines. When the measurement device 1 and the controller perform wireless communication separately, there is a possibility that radio wave interference may occur. However, since the measurement device 1 of the present embodiment integrates the control module 13 with the measurement unit 11, Such radio wave interference can also be avoided.

  In addition, the measurement apparatus 1 according to the present embodiment has the function of causing the display terminal 3 to display display information based on the measurement result in the measurement unit 11, thereby visualizing (visualizing) the power consumption in the device 2. )can do. Therefore, the measuring apparatus 1 can make a user grasp the power consumption in the apparatus 2 by the display information displayed on the display terminal 3, and can make a user aware of energy saving. As a result, for example, when the power consumption of a certain branch system is larger than the others, the user can save energy by changing the set temperature of the air conditioner connected to this branch system.

  Moreover, since the measuring apparatus 1 includes the second communication unit 16 that communicates with the smart meter 4, for example, the measurement result of the measuring unit 11 is measured by the smart meter 4 by cooperating with the smart meter 4. Corrections can be made based on information, leading to improved reliability of measured values. In addition to the measurement information, the measurement device 1 can also acquire external information (for example, DR information) received by the smart meter 4 from a management device outside the customer as acquisition information. Therefore, the measuring apparatus 1 can reflect the DR information in the control of the device 2 or display the DR information on the display terminal 3.

  In addition, the acquisition information which the 2nd communication part 16 acquires from the smart meter 4 should just be at least one of measurement information and the external information which the smart meter 4 received from the management apparatus outside a consumer, measurement information and external It is not essential to include both information.

  By the way, in addition to the above-described configuration, the measurement apparatus 1 of the present embodiment transmits second acquisition information acquired from the smart meter 4 by the second communication unit 16 to the display terminal 3 by the first communication unit 12. A transfer unit 18 (see FIG. 1) as a unit is provided integrally with the measurement unit 11.

  That is, the measuring device 1 has a function of transferring the acquired information acquired from the smart meter 4 to the display terminal 3 by the transfer unit 18. Therefore, the display terminal 3 can acquire acquisition information such as measurement information and DR information from the smart meter 4 via the measuring device 1 and can perform various processes using the acquisition information.

  In the present embodiment, the transfer unit 18 is configured to periodically transmit the measurement information of the smart meter 4 included in the acquired information together with the measurement result of the measurement unit 11. Specifically, the measurement device 1 acquires measurement information by periodically communicating with the smart meter 4 at a constant time interval (for example, every one minute), and at substantially the same time as acquiring the measurement information. The measuring unit 11 measures the power consumption of the main system. The measuring apparatus 1 notifies the display terminal 3 of both the measurement information acquired at substantially the same time in this way and the measurement result (power consumption of the main system) at the same time.

  Therefore, the display terminal 3 can determine the information to be displayed using both the measurement information of the smart meter 4 and the measurement result of the measurement unit 11. For example, the display terminal 3 can correct and display the measurement result of the measurement unit 11 using the measurement information of the smart meter 4.

  Alternatively, the transfer unit 18 may be configured to periodically transmit one of the measurement information of the smart meter 4 included in the acquired information and the measurement result of the measurement unit 11. Specifically, the measuring device 1 selects either one of the measurement information acquired at substantially the same time and the measurement result of the measurement unit 11 (power consumption of the main system), and displays the selected information as a display terminal 3 is notified. The measuring device 1 has a selection switch (not shown) for selecting either the measurement information or the measurement result of the measurement unit 11, and the information that is preselected by the selection switch is displayed on the display terminal 3. Notice.

  In this case, since the display terminal 3 acquires either the measurement information of the smart meter 4 or the measurement result of the measurement unit 11, it is not necessary to distinguish which is the acquired information. In other words, the display terminal 3 only needs to display the information acquired from the measuring device 1 regardless of whether the information is generated from the smart meter 4 or the measuring unit 11. Therefore, the display terminal 3 displays the measurement result of the smart meter 4 even if it does not support the smart meter 4 as long as it has a function of acquiring and displaying the measurement result of the measurement unit 11 from the measurement device 1. it can.

  In addition, when the measurement information of the smart meter 4 is periodically transmitted, the transfer unit 18 complements the measurement information of the measurement unit 11 between the two measurement information as illustrated in FIG. 2 or FIG. It may be configured. 2 and 3, the transfer unit 18 is basically based on transmitting measurement information periodically acquired from the smart meter 4 to the display terminal 3.

  In the example of FIG. 2, the transfer unit 18 acquires the measurement result (power consumption of the main system) of the measurement unit 11 at approximately the same time as acquiring the measurement information from the smart meter 4, and the measurement information is missing. If there is, the missing measurement information is supplemented with the measurement result of the measurement unit 11. In FIG. 2, the vertical axis represents power and the horizontal axis represents the time axis, (a) shows the measurement result of the measurement unit 11, (b) shows the measurement information of the smart meter 4, and (c) shows the data after complementation. . That is, in the example of FIG. 2, the transfer unit 18 has failed to acquire the second measurement information out of the first to third measurement information due to a communication error, so the first measurement and the third measurement are performed twice. The information is complemented by the measurement result of the measurement unit 11 instead of the missing second measurement information.

  As a result, the display terminal 3 basically displays the resource consumption based on the highly accurate and reliable measurement information acquired from the smart meter 4, but the measurement information is missing. The data can be complemented by displaying the measurement result of the measurement unit 11. Therefore, the display terminal 3 can reliably perform regular notification of resource consumption at the consumer.

  In the example of FIG. 3, the transfer unit 18 acquires the measurement result (power consumption of the main system) of the measurement unit 11 at a time interval shorter than the acquisition of the measurement information from the smart meter 4 and twice. Is supplemented by the measurement result of the measurement unit 11. In FIG. 3, the vertical axis represents electric power and the horizontal axis represents a time axis, (a) shows the measurement result of the measurement unit 11, (b) shows the measurement information of the smart meter 4, and (c) shows the data after complementation. . That is, in the example of FIG. 3, the transfer unit 18 complements the measurement information of the first time and the second time with the measurement result of the measurement unit 11, and performs the second measurement and the second time measurement. The information is complemented by the measurement result of the measurement unit 11.

  Accordingly, the display terminal 3 basically acquires the next measurement information while periodically displaying the resource consumption based on the highly accurate and reliable measurement information acquired from the smart meter 4. In the meantime, the resource consumption can be displayed based on the measurement result of the measurement unit 11. Therefore, the display terminal 3 can flexibly cope with various display forms such as not only regular notification of consumption of resources at consumers but also notification at shorter time intervals.

  In addition, although the 1st communication part 12 is comprised so that communication with both the apparatus 2 and the display terminal 3 may be performed in this embodiment, it is not restricted to this example, At least of the apparatus 2 and the display terminal 3 What is necessary is just to have the function to communicate with one side. Moreover, the control module 13 should just have at least one of the function which controls the apparatus 2, and the function which displays display information on the display terminal 3. FIG. That is, when the first communication unit 12 can communicate only with the device 2, the control module 13 only needs to have a function of controlling the device 2 by communicating with the device 2 in the first communication unit 12. When the first communication unit 12 can communicate only with the display terminal 3, the control module 13 has a function of displaying display information on the display terminal 3 by communicating with the display terminal 3 in the first communication unit 12. Just do it.

(Embodiment 2)
The measurement device 1 of this embodiment is different from the measurement device 1 of Embodiment 1 in that a third communication unit 19 that communicates with the external controller 6 is provided integrally with the measurement unit 11 as shown in FIG. Further, in the present embodiment, the measurement apparatus 1 includes a transfer unit 20 as a first transfer unit and an invalidation unit 21 integrally with the measurement unit 11. Hereinafter, the same configurations as those of the first embodiment are denoted by common reference numerals, and description thereof will be omitted as appropriate.

  As shown in FIG. 4, the resource management system 10 of this embodiment includes an external controller 6 in addition to a plurality of devices 2, a measuring device 1, and a display terminal 3. The external controller 6 is separate from the measuring device 1 and the display terminal 3 and is installed next to the distribution board 5, for example. The external controller 6 is not necessarily disposed in the vicinity of the distribution board 5, and may be disposed at a position away from the distribution board 5.

  The external controller 6 communicates with the device 2 to control the device 2 as well as the first communication unit 12 and the control module 13 of the measuring device 1, and communicates with the display terminal 3 to display information on the display terminal 3. The display function is a basic function. Furthermore, in addition to this basic function, the external controller 6 has additional functions that the control module 13 does not have, such as a communication function with the outside of the customer.

  That is, the external controller 6 is connected to a public network 7 such as the Internet, and is configured to be able to communicate with a server (not shown) on the public network 7. The external controller 6 can communicate with the server through the public network 7 to exchange information with a server provided at a remote place. As an additional function, for example, the external controller 6 acquires an error code from the device 2 when the device 2 fails, and acquires a measure corresponding to the error code from the server, thereby causing the display terminal 3 to display a measure to be taken. Can do. As another example of the additional function, the external controller 6 has a remote control function of controlling the device 2 in accordance with an instruction from the outside (server) of the customer.

  The third communication unit 19 is configured to perform two-way wireless communication with the external controller 6 using radio waves as a transmission medium. The 3rd communication part 19 shall communicate with the external controller 6 by 900 MHz band specific low power radio | wireless. However, the third communication unit 19 is not limited to this example, and may adopt a system such as a 400 MHz band specific low-power radio, Wi-Fi (registered trademark), Bluetooth (registered trademark), or the like. Moreover, the 3rd communication part 19 may be the structure which communicates with the external controller 6 not only via the structure directly communicated with the external controller 6, but via a repeater (not shown).

  Further, the third communication unit 19 may be an interface to which a communication function with the external controller 6 is given by connecting a separate communication adapter (not shown). In this case, the third communication unit 19 does not have a communication function with the external controller 6 by itself, but has a communication function with the external controller 6 only when a communication adapter is connected. According to this configuration, the third communication unit 19 can arbitrarily select a communication method according to the external controller 6 by selecting the type of communication adapter to be connected according to the communication method of the external controller 6. . In addition, when the measurement device 1 does not need a communication function with the external controller 6, the communication adapter is removed from the measurement device 1, thereby eliminating the extra function and reducing the cost of the measurement device 1. Can be planned.

  In the present embodiment, at least two of the first communication unit 12, the second communication unit 16, and the third communication unit 19 share one communication module. Here, the measurement apparatus 1 uses the same communication method (900 MHz band specific low power radio) as that of the third communication unit 19 as the communication method of the first communication unit 12, so that the communication module configuring the first communication unit 12 is the first communication module. Also used for the 3 communication unit 19. Therefore, the measurement device 1 can be simplified in configuration and reduced in the number of parts as compared with the case where separate communication modules are used for the first communication unit 12 and the third communication unit 19. The third communication unit 19 may share a communication module with the second communication unit 16, or the first communication unit 12, the second communication unit 16, and the third communication unit 19 share the communication module. You may do it.

  The transfer unit 20 is configured to transmit the acquired information acquired from the smart meter 4 by the second communication unit 16 to the external controller 5 by the third communication unit 19. In the present embodiment, the transfer unit 20 is configured to transmit the measurement result of the measurement unit 11 to the external controller 6 by the third communication unit 19 in addition to the acquired information. Therefore, the measurement apparatus 1 can control the device 2 based on the measurement information of the smart meter 4 and the measurement result of the measurement unit 11 using the external controller 6 instead of the built-in control module 13.

  When the external controller 6 receives the acquisition information and the measurement result of the measurement unit 11 from the measurement device 1, the external controller 6 communicates with the device 2 to control the device 2 based on the acquisition information or the measurement result of the measurement unit 11. The configuration for the external controller 6 to control the device 2 based on the acquired information and the measurement result in the measurement unit 11 is substantially the same as that of the control module 13 of the measurement apparatus 1 described in the first embodiment. Description is omitted.

  Further, the external controller 6 further has a function of causing the display terminal 3 to display display information based on the acquired information received from the measurement device 1 and the measurement result in the measurement unit 11 by communicating with the display terminal 3. . The external controller 6 functions as a Web server that displays the display information as Web content and displays it on the display terminal 3 as a Web browser. That is, the external controller 6 causes the display terminal 3 to display display information based on the acquired information and the measurement result of the measurement unit 11 as Web content. The other configuration for causing the external controller 6 to display the display information on the display terminal 3 based on the acquired information and the measurement result in the measurement unit 11 is substantially the same as the control module 13 of the measurement apparatus 1 described in the first embodiment. Therefore, detailed explanation is omitted here.

  By the way, when the measuring apparatus 1 uses the external controller 6 instead of the built-in control module 13 as described above to control the device 2 or display the display information on the display terminal 3, the function of the control module 13 is used. Is no longer needed. Therefore, the measurement apparatus 1 of the present embodiment includes an invalidating unit 21 that invalidates the function of the control module 13 and an operation unit (not shown).

  Here, the operation unit includes a slide switch, and the contact output is switched in response to an operation input from the user. The invalidation unit 21 is configured to switch whether to invalidate the function of the control module 13 in accordance with an operation input to the operation unit. That is, the invalidation unit 21 switches between a state in which the function of the control module 13 is invalidated and a state in which the function of the control module 13 is validated upon receiving the contact output of the operation unit. Specifically, the control module 13 is configured to determine invalidity / validity by turning on / off an invalid flag that is switched according to the contact output of the operation unit, and is valid when the invalid flag is off, It becomes invalid when the invalid flag is turned on.

  Therefore, when the user does not introduce the external controller 6, the operation unit selects a state for enabling the function of the control module 13. When the external controller 6 is introduced, the user operates the function of the control module 13. It is sufficient to select a state for invalidating. Thereby, when the resource management system 10 does not have the external controller 6, the function of the control module 13 is valid, and when the resource management system 10 has the external controller 6, the function of the control module 13 is invalid. It is invalidated by the conversion unit 21.

  The measurement apparatus 1 according to the present embodiment described above includes the third communication unit 19 that communicates with the external controller 6 that controls the device 2, and the third controller 19 transmits the acquired information from the smart meter 4 to the external controller 6. And a transfer unit 20 for transmitting to the measuring unit 11. Therefore, the measuring apparatus 1 can control the device 2 and display the display information on the display terminal 3 using not only the built-in control module 13 but also the external controller 6. Therefore, the measuring device 1 can meet a user's request for high functionality.

  Moreover, since the measuring apparatus 1 includes the invalidating unit 21 that invalidates the function of the control module 13 and the measuring unit 11, the external controller 6 is used instead of the built-in control module 13 as described above. In addition, the control module 13 can be prevented from operating wastefully. Therefore, the measuring device 1 can suppress the power consumption of the first communication unit 12 and the control module 13.

  Incidentally, the transfer unit (first transfer unit) 20 that transfers the acquired information to the external controller 6 is included in the acquired information, similarly to the transfer unit (second transfer unit) 18 that transfers the acquired information to the display terminal 3. The measurement information may be periodically transmitted together with the measurement result of the measurement unit 11. Alternatively, similarly to the transfer unit 18, the transfer unit 20 may be configured to periodically transmit one of the measurement information included in the acquired information and the measurement result of the measurement unit 11. Furthermore, the transfer unit 20 may be configured to supplement the interval between two pieces of measurement information with the measurement result of the measurement unit 11 when periodically transmitting the measurement information.

  The external controller 6 has both a function of controlling the device 2 and a function of displaying display information on the display terminal 3 in the present embodiment. However, the present invention is not limited to this example, and the function of controlling the device 2 is used. And at least one of the functions for displaying the display information on the display terminal 3 is sufficient.

  Other configurations and functions are the same as those of the first embodiment.

  In the above-described embodiment, the first communication unit 12 and the third communication unit 19 employ wireless communication using radio waves as a transmission medium. However, the present invention is not limited to this example, and wired communication using a communication line is performed. You may adopt. The wired communication here includes power line carrier communication using a power line as a communication line.

DESCRIPTION OF SYMBOLS 1 Measuring apparatus 11 Measuring part 12 1st communication part 13 Control module 16 2nd communication part 17 Correction | amendment part 18 (2nd) Transfer part 19 3rd communication part 20 (1st) Transfer part 21 Invalidation part 2 Apparatus 3 Display terminal 4 Smart meter (meter)
5 External controller

Claims (13)

A measuring device having a measuring unit that measures the consumption of resources in equipment,
A first communication unit that communicates with at least one of the device and the display terminal;
A function of controlling the device by communicating with the device in the first communication unit; and a function of displaying display information on the display terminal by communicating with the display terminal in the first communication unit. A control module having at least one of
A second communication unit that communicates with a meter that is provided for each consumer of the resource and that measures the consumption of the resource at the consumer and outputs measurement information representing the measurement result;
A measuring apparatus comprising the measuring unit integrally. The measuring apparatus according to claim 1, wherein the second communication unit is an interface to which a communication function with the meter is provided by connecting a separate communication adapter. The second communication unit is configured to acquire at least one of the measurement information and external information received by the meter from a management device outside the consumer as acquisition information from the meter. The measuring device according to claim 1 or 2. A third communication unit that communicates with an external controller having at least one of a function of controlling the device and a function of displaying display information on the display terminal;
The first transfer unit that transmits the acquired information acquired from the meter by the second communication unit to the external controller by the third communication unit is provided integrally with the measurement unit. The measuring device described in 1. The measurement apparatus according to claim 4, wherein the third communication unit is an interface to which a communication function with the external controller is provided when a separate communication adapter is connected. The measurement apparatus according to claim 4 or 5, wherein at least two of the first communication unit, the second communication unit, and the third communication unit share one communication module. . The measuring apparatus according to claim 4, further comprising: a disabling unit that disables the function of the control module integrally with the measuring unit. The second transfer unit that transmits the acquired information acquired from the meter by the second communication unit to the display terminal by the first communication unit is provided integrally with the measurement unit. 8. The measuring device according to any one of 7 above. The said 2nd transfer part is comprised so that the said measurement information contained in the said acquisition information may be transmitted regularly together with the measurement result of the said measurement part. The aspect of Claim 8 characterized by the above-mentioned. Measuring device. The second transfer unit is configured to periodically transmit one of the measurement information included in the acquired information and a measurement result of the measurement unit. Measuring device. The said 2nd transfer part is comprised so that the measurement information of the said measurement part may be complemented with the measurement result of the said measurement part between the said measurement information regularly transmitted and the said 2 times measurement information. The measuring device described. Based on the measurement result of the measurement unit and the measurement information acquired from the meter by the second communication unit, a correction value for correcting a deviation from the measurement information of the measurement result of the measurement unit is obtained, The measuring apparatus according to claim 3, wherein a correction unit that corrects a measurement result of the measurement unit using a correction value is provided integrally with the measurement unit. Installed in the distribution board,
The resource is power,
The said measurement part is comprised so that the consumption of the electric power of at least 1 type | system | group among the main | strain system and the some branch system in the said distribution board may be measured. The Claims 1-12 characterized by the above-mentioned. The measuring apparatus of any one of Claims.

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