JP2014142271A - Multiple-circuit electric power measurement device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve problems in which when a value obtained by switching and measuring respective electric energy values of a plurality of AC circuits at intervals of a unit time is converted into an electric energy value of continuous measurement, a measurement result has an error and measurement precision thereof becomes worse as the number of AC circuits to be measured increases.SOLUTION: A multiple-circuit electric power measurement device (2) includes: a control part (206) which outputs a detection current selection signal (206s); a measurement object selection part (202) which selects one detection current from a group of detection currents (201b-201f) that respective current transformers output in response to the detection current selection signal, and outputs the selected detection current as a selected detection current (202a); a voltage measurement part (204) which measures and outputs a voltage supplied to the plurality of AC circuits; and a first current measurement part (203b) which measures and outputs a current value of the AC circuit corresponding to the selected detection current based upon the selected detection current; and a first electric power measurement part (205b) which measures and outputs an electric power value based upon respective the outputs of the first current measurement part and the voltage measurement part.

Description

  The present invention relates to a multi-circuit power measuring apparatus, and more particularly to a multi-circuit power measuring apparatus that measures power consumption of a plurality of AC circuits.

  Conventionally, in order to measure the electric energy of a plurality of circuits, an electric power measuring device having a voltage / current detecting means and an electric energy measuring means is provided for each circuit. As a result, a large space and cost are required for installing the same number of power measuring devices as each circuit.

  Patent Document 1 discloses a multi-circuit type watt hour meter including a plurality of current detection units, a plurality of voltage detection units, an input circuit switching unit, a power amount measurement unit, and a circuit-by-circuit power amount calculation unit. The outputs of the plurality of current detection means and voltage detection means are sequentially output to the electric energy measurement means via the input circuit switching means. The power amount measuring means periodically measures the power amount of each circuit under measurement in a unit time. The circuit-by-circuit power amount calculation means converts the power amount per unit time output by the power amount measurement means into a power amount when continuously measured.

JP-A-10-26641

  In the multi-circuit type watt hour meter disclosed in Patent Document 1, the power amount of each circuit to be measured is the power amount when continuously measuring the power amount in a unit time (a specific integer period of alternating current) of each circuit to be measured. It is calculated by converting. As a result, the amount of power obtained by conversion has an error with respect to the actual power consumption of the circuit under measurement. When the number of circuits to be measured for measuring the electric energy increases, the unit time for obtaining the electric energy of the circuit to be measured is set to be short in inverse proportion to the number. As a result, the accuracy of the electric energy obtained by conversion is further deteriorated.

  The present invention provides a control unit that outputs a detection current selection signal in response to an operation mode setting signal, and a detection current output from each of the current transformers corresponding to the plurality of AC circuits in response to the detection current selection signal. Based on the selection detection current, a measurement target selection unit that selects one detection current from the group and outputs the selection detection current, a voltage measurement unit that measures and outputs the voltage supplied to the plurality of AC circuits, Based on outputs of a first current measurement unit that measures and outputs a current value of a selection AC circuit corresponding to the selection detection current among the plurality of AC circuits, and outputs of the first current measurement unit and the voltage measurement unit. And a first power measuring unit that measures and outputs a power value of the selected AC circuit.

  In the multi-circuit power measurement device according to the present invention, the measurement target selection unit further switches the detection currents other than the selection detection current in the detection current group sequentially for each first selection time, and performs non-selection detection. A second current measuring unit that outputs current and measures and outputs a current value of a non-selected AC circuit other than the selected AC circuit among the plurality of AC circuits based on the non-selected detection current; and A second power measuring unit that measures and outputs a power value of the non-selective AC circuit based on outputs of the current measuring unit and the voltage measuring unit.

  In the multi-circuit power measurement device according to the present invention, the control unit determines a maximum power value of the plurality of AC circuits based on a comparison result of the outputs of the first power measurement unit and the second power measurement unit. The detection current selection signal whose measurement target is an AC circuit having the measurement circuit, and the measurement target selection unit, in response to the detection current selection signal, an AC circuit having a maximum power value in the detection current group, A corresponding detection current is output as the selected detection current.

  The multi-circuit power measurement device according to the present invention further includes a storage unit that stores a power value output from the second power measurement unit, and the control unit includes an output of the first power measurement unit and a storage unit. The detection current selection signal is output based on a comparison result with the average value of the stored power values.

  In the multi-circuit power measuring apparatus according to the present invention, the control unit outputs the detection current selection signal every second selection time including a plurality of the first selection times.

  ADVANTAGE OF THE INVENTION According to this invention, the multi-circuit electric power measuring apparatus which can measure the power consumption of a some alternating circuit accurately is implement | achieved.

1 is a configuration diagram of a multi-circuit power measurement system including a multi-circuit power measurement device according to an embodiment. 1 is a specific configuration diagram of a multi-circuit power measurement system including a multi-circuit power measurement apparatus according to an embodiment. It is a block diagram of the controller which concerns on embodiment. It is drawing which shows the example of a display in the various display modes of the display part which the controller which concerns on embodiment has. It is a flowchart which shows the process sequence of the multicircuit electric power measurement apparatus set to user selection mode. It is a flowchart which shows the process sequence of the multi-circuit electric power measurement apparatus set to automatic selection mode. It is a figure explaining the electric power measurement timing of the AC circuit by the multi-circuit electric power measurement apparatus set to the automatic selection mode.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the description of the embodiments, when the number, amount, or the like is referred to, the scope of the present invention is not necessarily limited to the number, amount, or the like unless otherwise specified. In the drawings of the embodiments, the same reference numerals and reference numerals represent the same or corresponding parts. Further, in the description of the embodiments, the overlapping description may not be repeated for the portions with the same reference numerals and the like.

<Configuration of multi-circuit power measurement system>
With reference to FIG. 1, the structure of the multi-circuit power measurement system provided with the multi-circuit power measurement apparatus 2 which concerns on embodiment is demonstrated.

  The multi-circuit power measurement system includes a distribution board 1, a multi-circuit power measurement device 2, and a controller 3. The distribution board 1 has a plurality of wiring paths (not shown) for supplying AC power to a plurality of AC circuits. The multi-circuit power measuring device 2 measures the power consumption (hereinafter also referred to as a power value) of each AC circuit, and outputs the measurement result to the controller 3. The controller 3 has a function of displaying the power consumption of the AC circuit measured by the multi-circuit power measurement device 2 and a control function of the multi-circuit power measurement device 2.

  With reference to FIG. 2, a specific configuration of the multi-circuit power measurement system including the multi-circuit power measurement device 2 according to the embodiment will be described.

  The distribution board 1 is described as a main wiring 11a, a wiring path 11b branched from the main wiring 11a, a wiring path 11c, a wiring path 11d, a wiring path 11e, and a wiring path 11f (hereinafter, wiring paths 11b-11f). The same applies to other components), and current transformers (current transformers) 201a to 201f. Each of the wiring paths 11b-11f supplies AC power to an AC circuit (such as an air conditioner, a refrigerator, and a lighting device) (not shown). Each AC circuit connected to the wiring paths 11b-11f belongs to an AC circuit of the same system.

  Current transformers 201a-201f detect currents flowing through main wiring 11a and wiring paths 11b-11f, respectively, and output the measurement results as detection currents 201a1-201f1. The voltage applied to the AC circuit of the same system is output as a voltage measurement value 11a1.

  The multi-circuit power measuring device 2 measures the power value of the selected AC circuit based on the measured voltage value 11a1 output from the distribution board 1 and the detected currents 201a1-201f1. The measured power value is transmitted to the controller 3 via the communication unit 208.

  The multi-circuit power measuring device 2 includes an automatic selection mode and a user selection mode. The multi-circuit power measuring device 2 set to the automatic selection mode outputs information (device name) of an AC circuit having the maximum power value and a measured value to the controller 3 among a plurality of AC circuits of the same system. The multi-circuit power measuring device 2 set in the user selection mode measures the power value of the AC circuit designated by the controller 3 and outputs the measured value to the controller 3.

  The controller 3 has a function of transmitting an operation mode setting signal 301 for setting the operation mode of the multi-circuit power measurement device 2 and a function of displaying the power value of the AC circuit measured by the multi-circuit power measurement device 2.

<Configuration and function of multi-circuit power measuring apparatus 2>
The multi-circuit power measurement apparatus 2 according to the embodiment includes a measurement target selection unit 202, current measurement units 203a to 203c, a voltage measurement unit 204, power measurement units 205a to 205c, a control unit 206, a storage unit 207, and a communication unit 208. Have

  The measurement target selection unit 202 selects one of the detection currents 201b1-201f1 of each AC circuit output from the current transformers 201b-201f provided for each AC circuit, and outputs the selected detection current 202a. The measurement target selection unit 202 further has a function of sequentially outputting a detection current other than the detection current output as the selection detection current 202a among the detection currents 201b to 201f1 as a non-selection detection current 202b every predetermined time. Prepare.

  The voltage measuring unit 204 measures an AC voltage value (hereinafter referred to as a voltage value) of the main wiring 11a.

  The current measuring unit 203a converts the current value measured by the current transformer 201a into an alternating current value (hereinafter referred to as a current value) flowing through the main wiring 11a. This current value is equal to the total current consumption value of AC circuits belonging to the same system. The current measurement unit 203b outputs the current value of the corresponding AC circuit based on the selection detection current 202a output from the measurement target selection unit 202. The current measuring unit 203c sequentially outputs the current value of each corresponding AC circuit based on the non-selected detection current 202b output from the measurement target selecting unit 202.

  The power measurement unit 205 a measures the total power consumption value of AC circuits belonging to the same system based on the outputs of the current measurement unit 203 a and the voltage measurement unit 204, and outputs the total power consumption value to the control unit 206. The power measurement unit 205 b measures the power value of the AC circuit corresponding to the selected detection current 202 a based on the outputs of the current measurement unit 203 b and the voltage measurement unit 204, and outputs the power value to the control unit 206. The power measurement unit 205 c measures the power value of each AC circuit corresponding to the non-selected detection current 202 b based on the outputs of the current measurement unit 203 c and the voltage measurement unit 204, and sequentially outputs them to the control unit 206.

(User selection mode)
The controller 3 transmits to the multi-circuit power measuring device 2 a request for changing an AC circuit that is to be a power value measurement target (hereinafter referred to as a measurement target circuit change request) among a plurality of AC circuits of the same system. . The communication unit of the multi-circuit power measurement device 2 transmits this measurement target circuit change request to the control unit 206. The control unit 206 receives the measurement target circuit change request and sets the multi-circuit power measurement device 2 to the user selection mode. That is, the measurement target circuit change request functions as an operation mode setting signal for setting the multi-circuit power measurement device 2 to the user selection mode.

  The control unit 206 included in the multi-circuit power measurement device 2 set in the user selection mode outputs a detection current selection signal 206 s to the measurement target selection unit 202. In response to the detection current selection signal 206s, the measurement target selection unit 202 selects a detection current (for example, 201b1) corresponding to the AC circuit specified in the measurement target circuit change request from the detection currents 201b1 to 201f1. The selected detection current 202a is output.

  The current measuring unit 203b converts the selection detection current 202a (= detection current 201b1) into a current value. This current value is equal to the consumption current of the AC circuit connected to the wiring path 11b which is the measurement target of the current transformer 201b.

  The power measurement unit 205 b measures the power value of the AC circuit connected to the wiring path 11 b based on the outputs of the current measurement unit 203 b and the voltage measurement unit 204, and outputs the power value to the control unit 206. The control unit 206 transmits the power value of the designated AC circuit to the controller 3 via the communication unit 208.

(Automatic selection mode)
The controller 3 transmits to the multi-circuit power measurement device 2 a request for automatically selecting an AC circuit having the maximum power value among a plurality of AC circuits of the same system (hereinafter referred to as an automatic selection request). The communication unit of the multi-circuit power measuring device 2 transmits this automatic selection request to the control unit 206. The control unit 206 receives the automatic selection request and sets the multi-circuit power measurement device 2 to the automatic selection mode. That is, the automatic selection request functions as an operation mode setting signal for setting the multi-circuit power measuring device 2 to the automatic selection mode.

  The control unit 206 included in the multi-circuit power measurement device 2 set in the automatic selection mode outputs a detection current selection signal 206 s to the measurement target selection unit 202. In response to the detection current selection signal 206s, the measurement target selection unit 202 operates differently from the case where the user selection mode is set. That is, the measurement target selection unit 202 sequentially switches detection currents other than the detection current output as the selection detection current 202a at predetermined time intervals (hereinafter, referred to as circuit selection time), and performs non-selection detection current 202b. The output operation is repeated.

  The current measuring unit 203c converts each detection current output in a time division manner as the non-selected detection current 202b into a current value. Each current value sequentially output corresponds to each AC circuit other than the AC circuit corresponding to the selection detection current 202a among a plurality of AC circuits of the same system.

  As an example, it is assumed that the detection current 201b1 is selected as the selection detection current 202a. In response to the detection current selection signal 206s, the measurement target selection unit 202 repeats the operation of sequentially switching the detection currents 201c1-201f1 for each circuit selection time (for example, 1 second) and outputting them as the non-selection detection current 202b. . That is, the current measuring unit 203c measures the current value of the corresponding AC circuit based on the detected current 201c1-201f1 measured for 1 second. On the other hand, the current measuring unit 203b continuously measures the detected current 201b1.

  The power measurement unit 205 b measures the power value of the AC circuit connected to the wiring path 11 b based on the outputs of the current measurement unit 203 b and the voltage measurement unit 204, and outputs the power value to the control unit 206. The power measuring unit 205c sequentially measures the power value of each AC circuit connected to the wiring path 11c-11f over the circuit selection time based on the outputs of the current measuring unit 203c and the voltage measuring unit 204. Each measurement value is output to the storage unit. The storage unit 207 stores the power value of each AC circuit measured by the power measurement unit 205 c over the circuit measurement time in each storage area individually allocated in the storage unit 207.

  The control unit 206 outputs the power value output by the power measurement unit 205b and the average power value of each power value stored in the storage unit 207 for each predetermined time (hereinafter referred to as power comparison time). Compare This comparison is performed, for example, every minute set as the power comparison period. Here, the average power value is, for example, a power value obtained by dividing the total value of the power values of the AC circuit measured within the power comparison time by the number of times measured within the power comparison time.

  As a result of the comparison, when there is an average power value larger than the power value of the AC circuit (AC circuit connected to the wiring path 11b) output from the power measuring unit 205b, the control unit 206 corresponds to the average power value. A detection current selection signal 206s for measuring an AC circuit is output.

  For example, when it is determined that the AC circuit connected to the wiring path 11c has the maximum power value instead of the AC circuit connected to the wiring path 11b, the measurement target selection unit 202 detects the detection current corresponding to the wiring path 11c. 201c1 is output as the selection detection current 202a. Further, the measurement target selection unit 202 switches the detection currents 201b1 and 201d1-201f1 sequentially for each circuit selection time and outputs them as the non-selection detection current 202b.

  The power measurement unit 205 b measures the power value of the AC circuit newly set as a measurement target based on the outputs of the current measurement unit 203 b and the voltage measurement unit 204, and outputs the power value to the control unit 206. The control unit 206 transmits the power value of the AC circuit and the information (device name) of the AC circuit, which are newly measured, to the controller 3 via the communication unit 208.

  When there is no change in the AC circuit having the maximum power value as a result of the comparison between the power value output from the power measuring unit 205b and the average power value of each power value stored in the storage unit 207, the measurement target selecting unit 202 maintains the selection of the detection current output to the selection detection current 202a. The power measuring unit 205 b measures the power value of the AC circuit maintained as a measurement target and outputs the power value to the control unit 206. The control unit 206 outputs the power value of the AC circuit and the device name of the AC circuit to the controller 3 via the communication unit 208.

<Configuration and function of controller 3>
With reference to FIG. 3, the structure of the controller 3 which concerns on embodiment is demonstrated.

  The controller 3 includes a display unit 31 and an operation unit 32. The display unit 31 displays the total power consumption value of the AC circuits belonging to the same system measured by the multi-circuit power measurement device 2 and the power value of the AC circuit selected in the user selection mode or the automatic selection mode. The operation unit 32 is a four-way cursor movement key for operating the screen of the display unit 31, a selection determination button (SET) such as an AC device selected by the cursor movement key, and a cancel button (Cancel) for canceling the setting by the selection determination button. ). FIG. 3 shows an example of the controller 3, and the shape and arrangement of the screen and operation buttons can be changed as appropriate.

  With reference to FIG. 4, various display modes of the display unit 31 included in the controller 3 according to the embodiment will be described.

  FIG. 4A shows an example of a screen when the display unit 31 is set to the power information display mode. This screen is the same as the display unit 31 of the controller 3 shown in FIG.

  FIG. 4B shows an example of a screen when the display unit 31 is set to the display circuit selection mode. As described above, the multi-circuit power measuring device 2 includes two user setting modes for designating an AC circuit as a power value measurement target and an automatic selection mode for automatically selecting an AC circuit that consumes the maximum power value. It has an operation mode. FIG. 4B is a screen for selecting / setting the two operation modes. The display mode of the display unit 31 is switched by a switching button (not shown) set on the display unit 3.

  The procedure for setting the multi-circuit power measuring device 2 to the “user selection mode” is as follows. That is, the user selects one of the device names that are the four AC circuits belonging to the same system displayed under “Select Display Circuit” with the cursor movement key of the operation unit 32, and selects the selection button (SET). By pressing, the multi-circuit power measuring device 2 is set to the user selection mode. FIG. 4B shows a state where “* bedroom air conditioner” surrounded by a broken line is selected. When the selection determination button (SET) of the operation unit 32 is pressed, the controller 3 transmits a “measurement target circuit change request” whose measurement target is “bedroom air conditioner” to the multi-circuit power measurement device 2.

  The procedure for setting the multi-circuit power measuring device 2 to the “automatic selection mode” is as follows. That is, when the user selects an area where <automatic selection> is displayed with the cursor movement key and presses the selection determination button (SET), the multi-circuit power measurement device 2 is set to the automatic selection mode. The controller 3 transmits an “automatic selection request” for requesting selection of an AC circuit having the maximum power value among AC circuits to which the same system belongs to the multi-circuit power measuring apparatus 2.

<Processing flow of multi-circuit power measuring apparatus 2>
With reference to FIG. 5, the processing flow of the multi-circuit power measuring apparatus 2 set to the user selection mode will be described.

  In response to a user operation, the controller 3 switches the display unit 31 of the controller 3 to the display circuit selection mode (FIG. 4B) (step S101). The controller 3 set in the display circuit selection mode transmits an acquisition request for selectable AC circuit information (device name) to the multi-circuit power measurement device 2 (step S102).

  In response to the acquisition request in step S102, the multi-circuit power measurement device 2 transmits a list of selectable AC circuits to the controller 3 (step S201).

  The controller 3 displays a list of selectable AC circuits on the display unit 31 set in the display circuit selection mode (step S103). After that, the controller 3 transmits a measurement target circuit change request to the multi-circuit power measurement device 2 in response to the determination operation of the AC circuit to be displayed by the user (“Yes” in step S104) ( Step S105).

  In response to the measurement target circuit change request, the measurement target selection unit 202 included in the multi-circuit power measurement device 2 outputs a detection current corresponding to the AC circuit for which the change has been requested as a selection detection current 202a (step S202). The power value measured based on the selection detection current 202a is transmitted to the controller 3 via the control unit 206 and the communication unit 208 (see FIG. 2) (step S203).

  When the user cancels the selection of the AC circuit displayed on the controller 3 in step S104, the controller 3 switches the display unit 31 to the power information display mode (step S106).

  With reference to FIG. 6, the processing flow of the multi-circuit power measuring apparatus 2 set to the automatic selection mode will be described.

  When the automatic selection request transmitted by the controller 3 is received, the multi-circuit power measuring apparatus 2 transmits the circuit information being measured by the power measuring unit 205b (see FIG. 2) and the measured power value to the controller 3 (step S401). ). The controller 3 displays the received circuit information and power value on the display unit 31 set in the power information display mode (step S301).

  After the process of step S401, the multi-circuit power measuring apparatus 2 continues to measure the power value of the AC circuit selected as the measurement target by the power measuring unit 205b, and determines the power value of the other AC circuit by the power measuring unit 205c. Measured sequentially for each circuit selection time. The control unit 206 compares the power value measured by the power measurement unit 205b with the average power value measured by the power measurement unit 205c at each power comparison time, and the power value is higher than the AC circuit selected as the measurement target. Is searched for an AC circuit having a large (step S402).

  When another AC circuit having a power value larger than that of the selected AC circuit is detected (“Yes” in step S403), the measurement target selecting unit 202 uses the detected AC circuit as power by the power measuring unit 205b. Switching to a value measurement target (step S404). When no other AC circuit having a power value larger than that of the selected AC circuit is detected (“No” in step S403), the measurement target selection unit 202 changes the AC circuit that measures the power value by the power measurement unit 205b. do not do.

  When the controller 3 does not request the end of the automatic selection mode (“No” in step S405), the multi-circuit power measurement device 2 repeats the processing from step S401. When the controller 3 requests the end of the automatic selection mode (in the case of “Yes” in step S405), the multi-circuit power measuring device 2 ends the process of the automatic selection mode.

  With reference to FIG. 7, the power measurement timing of the AC circuit by the multi-circuit power measuring apparatus 2 according to the embodiment set in the automatic selection mode will be described.

  As shown in FIG. 2, the measurement target selection unit 202 included in the multi-circuit power measurement device 2 set in the automatic selection mode uses the detection current of the AC circuit having the maximum power value among the AC circuits belonging to the same system. The selected detection current 202a is output. At the same time, the measurement target selection unit 202 sequentially switches the detection currents of the other AC circuits every circuit selection time (for example, 1 second) and outputs them as the non-selection detection current 202b (see FIG. 2).

  The power measuring unit 205 b outputs the power value of the AC circuit having the maximum power value to the control unit 206. On the other hand, the power values of other AC circuits output from the power measuring unit 205 c are stored in storage areas individually assigned to the storage unit 207. The control unit 206 compares the power value output from the power measurement unit 205b with the average power value of the power values stored in the storage unit 207 for each power comparison time (for example, 1 minute), and selects a detected current. The signal 206s is output.

  FIG. 7 shows an example of the power value measurement timing of the AC circuit 1-5 by the power measurement unit 205b and the power measurement unit 205c included in the multi-circuit power measurement device 2 set to the automatic selection mode. The AC circuit 1-5 is an AC circuit belonging to the same system. FIG. 7 shows a case where the power measurement unit 205b measures the power value of the AC circuit 1 and the power measurement unit 205c switches and measures the power value of the AC circuit 2-5 every circuit selection time (1 second). It is a timing diagram.

  The power measuring unit 205b measures the power value of the AC circuit 1 over 60 seconds set as the power comparison time. The power measuring unit 205c measures the power value of the AC circuit 2 for the first 1 second, and then measures each power value up to the AC circuit 5 for each circuit selection time. When the power measurement time of the AC circuit 5 ends, the power measurement unit 205b sequentially measures the power value of the AC circuit 2-5 again.

  When the measurement of the power values of the AC circuit 1 and the AC circuit 2-5 over the power comparison time is completed, the control unit 206 compares the power value of the AC circuit 1 with each average power value of the AC circuit 2-5. As a result of the comparison, when an AC circuit having a power value exceeding the power value of the AC circuit 1 is detected in the AC circuit 2-5, the power value of the detected AC circuit is measured at the next power comparison time. Is performed by the power measuring unit 205b. The power measurement unit 205 c measures the power values of the AC circuit 1 and other AC circuits.

<Effect>
(Miniaturization and price reduction)
The measurement target selection unit 202 included in the multi-circuit power measurement device 2 according to the embodiment selects one of the detection currents 201b1-201f1 of each AC circuit output from the current transformers 201b-201f provided for each AC circuit. The selected detection current 202a is output. The measurement target selection unit 202 further outputs a detection current other than the detection current output as the selection detection current 202a among the detection currents 201b1 to 201f1 in sequence as a non-selection detection current 202b at each circuit selection time. Is provided. The selection detection current 202a is converted into a current value by the current measuring unit 203b. The non-selected detection current 202b is converted into a current value by the current measurement unit 203c.

  That is, the multi-circuit power measuring apparatus 2 includes a measurement target selection unit 202 that sequentially selects and outputs one of the detection currents output from the plurality of current transformers at predetermined time intervals, and the selected detection currents. A current measuring unit 203c that converts the current value into a current value. As a result, it is possible to measure the current values of a plurality of AC circuits with one current measurement unit.

  When converting the output (detection current) of a current transformer provided for each AC circuit into a current value for each AC circuit, it is known to provide a current measuring unit for each current transformer (see Patent Document 1). ). Providing the same number of current measuring units as the current transformer causes an increase in the number of circuits to be measured for measuring the electric energy, that is, the cost. On the other hand, according to the multi-circuit power measuring device 2 according to the embodiment, the current value of each AC circuit is measured by one current measuring unit with respect to the output of the current transformer provided for each of the plurality of current transformers. It becomes possible to do. As a result, the multi-circuit power measuring device 2 can be reduced in size and price.

(Improved measurement accuracy)
In the multi-circuit power measuring apparatus 2 according to the embodiment, the current value of the AC circuit that is the power value measurement target (monitoring target) is based on the selection detection current 202 a output from the measurement target selection unit 202. It is measured by 203b. The measurement target selection unit 202 outputs the current value of the alternating current circuit to be measured to the current measurement unit 203b without switching every circuit selection time. The power measuring unit 205b measures the power value of the AC circuit that is the measurement target based on the output of the current measuring unit 203b and the output of the voltage measuring unit 204. This state is continued until a change occurs in the AC circuit to be measured in the automatic selection mode.

  As a result, the measurement accuracy of the power value of the AC circuit set as the measurement target is sufficiently ensured regardless of the increase in the number of AC circuits to be measured.

  On the other hand, in the automatic selection mode, the power measurement unit 205c sequentially measures the power values of other AC circuits that are not the measurement target of the power value for each circuit selection time based on the current value of the current measurement unit 203c. The average value of the power values of the other AC circuits measured over the power comparison time is obtained. The control unit 206 compares each average power value with the output value of the power measurement unit 205b.

  As a result, even when measuring the power value based on the detection current of each AC circuit output by the measurement target selection unit 202 in a time division manner, the measurement accuracy is ensured.

(2 measurement modes)
The control unit 206 included in the multi-circuit power measurement device 2 according to the embodiment controls the operation of the measurement target selection unit 202. When the multi-circuit power measurement device 2 is set to the user selection mode, the measurement target selection unit 202 responds to the detection current selection signal 206s output from the control unit 206 and corresponds to the AC circuit selected as the measurement target. Output the detected current. When the multi-circuit power measurement device 2 is set to the automatic selection mode, the measurement target selection unit 202 corresponds to the AC circuit selected as the measurement target in response to the detection current selection signal 206s output from the control unit 206. A detection current is output, and a detection current corresponding to another AC circuit is output in a time-sharing manner.

  As a result, it is possible to diversify the power value measurement of a plurality of AC circuits while ensuring measurement accuracy. That is, the user can select an AC circuit to be monitored for power consumption, and can also monitor an AC circuit having the maximum power consumption.

Embodiments of the present invention can be summarized as follows.
(Claim 1)
A control unit (206) for outputting a detection current selection signal (206s) in response to the operation mode setting signal (301), and each current transformer corresponding to a plurality of AC circuits in response to the detection current selection signal. Selects one detection current from the detection current group (201b1-201f1) output from the measurement object, measures the voltage supplied to the plurality of AC circuits, and the measurement target selection unit (202) that outputs the selected detection current (202a). And a first current measurement that measures and outputs a current value of the selected AC circuit corresponding to the selected detection current among the plurality of AC circuits based on the selected detection current. A first power measurement unit (205b) that measures and outputs a power value of the selected AC circuit based on the outputs of the first current measurement unit and the voltage measurement unit. Times Power measuring device.

(Effects corresponding to claim 1)
It becomes possible to measure the current value of each AC circuit with one current measurement unit (first current measurement unit) for the output (detection current group) of the current transformer provided for each of the plurality of current transformers. . As a result, the multi-circuit power measuring device 2 can be reduced in size and price. Furthermore, when the multi-circuit power measuring apparatus 2 according to the embodiment is set to the user selection mode, the power consumption of the selected AC circuit can be measured with high accuracy.

(Claim 2)
The measurement target selection unit further switches a detection current other than the selection detection current in the detection current group sequentially for each first selection time (circuit selection time) as a non-selection detection current (202b). A second current measurement unit (203c) that outputs and measures and outputs a current value of a non-selected AC circuit other than the selected AC circuit among the plurality of AC circuits based on the non-selected detection current; 2. A multi-circuit power according to claim 1, further comprising: a second power measurement unit (205 c) that measures and outputs a power value of the non-selective AC circuit based on outputs of the two current measurement unit and the voltage measurement unit. measuring device.

(Effects corresponding to claim 2)
When the multi-circuit power measuring apparatus 2 according to the embodiment is set to the automatic selection mode, it is possible to accurately measure the power consumption of the non-selected AC circuit.

(Claim 3)
The said control part is based on the comparison result of each output of the said 1st electric power measurement part and the said 2nd electric power measurement part, The said detection which makes the alternating current circuit which has the largest electric power value among these alternating current circuits into a measuring object The measurement object selection unit outputs a current selection signal, and in response to the detection current selection signal, the detection current corresponding to the AC circuit having the maximum power value in the detection current group is used as the selection detection current. The multi-circuit power measuring device according to claim 2, which outputs the multi-circuit power measuring device.

(Effects corresponding to claim 3)
The multi-circuit power measuring apparatus 2 according to the embodiment can be set to two operation modes of user selection mode / automatic selection mode. As a result, it is possible to diversify the power consumption value monitors of a plurality of AC circuits while ensuring measurement accuracy.

(Claim 4)
The storage unit further stores a power value output from the second power measurement unit, and the control unit is configured to output the first power measurement unit and an average value of the power values stored in the storage unit. The multi-circuit power measurement device according to claim 3, wherein the detection current selection signal is output based on a comparison result between and.

(Effects corresponding to claim 4)
When the multi-circuit power measuring apparatus 2 according to the embodiment is set to the automatic selection mode, the power consumption of the non-selected AC circuit can be measured with higher accuracy.

(Claim 5)
The multi-circuit power measurement device according to claim 4, wherein the control unit outputs the detection current selection signal every second selection time (power comparison time) including a plurality of the first selection times.

(Effect corresponding to claim 5)
When the multi-circuit power measuring apparatus 2 according to the embodiment is set to the automatic selection mode, it is possible to accurately measure the power consumption of the selected AC circuit and the non-selected AC circuit.

(Claim 6)
The multi-circuit power measuring apparatus according to claim 1, wherein the multi-circuit power measuring apparatus is set to a user selection mode for designating the selected AC circuit in response to the operation mode setting signal.

(Effect corresponding to claim 6)
The multi-circuit power measuring device is set to the user selection mode. Thereby, the user can select an AC circuit to be monitored for power consumption.

(Claim 7)
6. The multi-circuit power measuring apparatus according to claim 2, wherein the multi-circuit power measuring apparatus is set to an automatic selection mode in which a power value of the non-selected AC circuit is measured in response to the operation mode setting signal.

(Effect corresponding to claim 7)
The multi-circuit power measuring device is set to the automatic selection mode. Thereby, the user can monitor the AC circuit having the maximum power consumption.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1 distribution board, 2 multi-circuit power measuring device, 3 controller, 11a main wiring, 11b, 11c, 11d, 11e, 11f wiring path, 11a1 voltage measurement value, 31 display unit, 32 operation unit, 201a, 201b, 201c, 201d, 201e, 201f Current transformer, 201a1, 201b1, 201c1, 201d1, 201e1, 201f1 detection current, 202a selection detection current, 202b non-selection detection current, 206s detection current selection signal, 301 operation mode setting signal.

Claims (7)

A control unit that outputs a detection current selection signal in response to the operation mode setting signal;
In response to the detection current selection signal, a measurement target selection unit that selects one detection current from a detection current group output from each of the current transformers corresponding to the plurality of AC circuits, and outputs the selection detection current;
A voltage measuring unit that measures and outputs voltages supplied to the plurality of AC circuits;
A first current measuring unit that measures and outputs a current value of a selected AC circuit corresponding to the selected detected current among the plurality of AC circuits based on the selected detected current;
A first power measuring unit that measures and outputs a power value of the selected AC circuit based on the outputs of the first current measuring unit and the voltage measuring unit;
A multi-circuit power measuring device. The measurement target selection unit further switches a detection current other than the selection detection current in the detection current group sequentially for each first selection time, and outputs the detection current as a non-selection detection current.
A second current measuring unit that measures and outputs a current value of a non-selected AC circuit other than the selected AC circuit among the plurality of AC circuits based on the non-selected detection current;
A second power measuring unit that measures and outputs a power value of the non-selected AC circuit based on the outputs of the second current measuring unit and the voltage measuring unit;
The multi-circuit power measuring device according to claim 1, comprising: The said control part is based on the comparison result of each output of the said 1st electric power measurement part and the said 2nd electric power measurement part, The said detection which makes the alternating current circuit which has the largest electric power value among these alternating current circuits into a measuring object Output current selection signal,
The measurement object selection unit outputs a detection current corresponding to an AC circuit having a maximum power value in the detection current group as the selection detection current in response to the detection current selection signal. Multi-circuit power measuring device. A storage unit for storing a power value output by the second power measurement unit;
The said control part outputs the said detection electric current selection signal based on the comparison result of the output of the said 1st electric power measurement part, and the average value of the said electric power value stored in the said memory | storage part. Multi-circuit power measuring device.   The multi-circuit power measurement device according to claim 4, wherein the control unit outputs the detection current selection signal every second selection time including a plurality of the first selection times.   The multi-circuit power measuring apparatus according to claim 1, wherein the multi-circuit power measuring apparatus is set to a user selection mode for designating the selected AC circuit in response to the operation mode setting signal.   6. The multi-circuit power measuring apparatus according to claim 2, wherein the multi-circuit power measuring apparatus is set to an automatic selection mode in which a power value of the non-selected AC circuit is measured in response to the operation mode setting signal.

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