JP2005180755A - Remote controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote controller that computes carbon dioxide emissions and that can remotely adjust via a signal line the amounts that carbon-dioxide-emitting devices and carbon-dioxide-emitting elements are used, so that preset target carbon dioxide emissions are obtained. <P>SOLUTION: The remote controller comprises a power-generating carbon dioxide emission converting means by which a predetermined amount of power consumption taken in by a power input means is converted into carbon dioxide emissions; a desired emissions input means for inputting desired values of carbon dioxide emissions; a priority input means for inputting priority as to control over power-consuming devices; and a carbon dioxide emissions adjusting means that starts and stops or controls the capability of each power-consuming device at predetermined time intervals according to the priority set by the priority input means, so that the total of carbon dioxide emissions from the power-consuming devices in operation equals to the desired emissions. In this way, the carbon dioxide emissions from the power-consuming devices are automatically controlled to or below the desired value of the carbon dioxide emissions. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a device remote control device.

Conventionally, in this type of remote control device, for example, there is a remote control device described in FIG.

In FIG. 5, a pulse signal input unit 104 that inputs a pulse signal from a watt-hour meter 109 with a transmission device with respect to the electric energy via a signal line 111, power calculation means 105 that calculates power from the pulse signal, and this power calculation The parallel-serial conversion means 106 which converts the signal of the means 105 into a serial signal and converts the serial control signal from the central apparatus 101 into a parallel signal, the signal from the parallel-serial conversion means 106 and the control signal from the central apparatus 101 A plurality of terminals including a serial signal input / output unit 107 for inputting / outputting a control signal and a control signal output unit 108 for controlling the air conditioner 110 by inputting a control signal from the central unit 101 via the parallel / serial conversion means 106 103 is connected to the central device 101 via the transmission line 102, and the central device 101 is connected to the terminal device 103. Aggregate the electric power receiving a serial signal of the power calculating unit 105 from the machine 103 had issued a control command of the air conditioner 110 (e.g., see Patent Document 1).
JP 62-22950 A

However, in the above conventional configuration, the air conditioner 110 is controlled by the remote control device so as to be the target power based on the measured power value from the power calculation means 105 in order to reduce the maximum demand power. For this reason, it is possible to indirectly suppress carbon dioxide emissions that cause global warming, but it is not possible to control carbon dioxide emissions other than electricity, and it is possible to keep carbon dioxide emissions below the target value. I had a problem that I couldn't.
The present invention solves the above-mentioned conventional problem, calculates the carbon dioxide emission amount, and uses the signal line to indicate the carbon dioxide emission device and the amount of carbon dioxide emission usage so that the target carbon dioxide emission amount is obtained. It is an object to provide a remote control device that can be adjusted from a remote location.

In order to solve the above-described conventional problems, the remote control device of the present invention includes a power carbon dioxide emission converting means for converting a predetermined power consumption captured by the power input means into carbon dioxide emission, and carbon dioxide emission. CO2 emission based on carbon dioxide emission from target emission input means for inputting target value of amount, priority input means for inputting control priority of power consuming equipment, and carbon dioxide emission conversion means for electric power The total emission calculation means for calculating the total amount, and at a predetermined time according to the priority set by the priority input means so that the total carbon dioxide emission during operation of the power consuming device becomes the target emission amount A carbon dioxide emission adjusting means for performing start / stop or capacity control of the power consuming device is provided.
As a result, the amount of carbon dioxide emitted from the power consuming device can be suppressed from a remote location below the target value of the inputted carbon dioxide emission.

Further, the remote control device of the present invention includes a gas carbon dioxide emission converting means for converting a predetermined consumption gas amount taken in by the gas input means into carbon dioxide emission, and a target for inputting a target value of the carbon dioxide emission amount. Total emission that calculates the total of carbon dioxide emissions based on the carbon dioxide emissions from the emissions input means, the priority input means for inputting the control priority of the gas consuming equipment, and the carbon dioxide emission conversion means for gas According to the priority set by the priority input means so that the total amount of carbon dioxide emissions during operation of the quantity calculation means and the gas consumption equipment becomes the target emission quantity, the gas consumption equipment is started or stopped at predetermined intervals. A carbon dioxide emission adjusting means for performing control is provided. As a result, the amount of carbon dioxide emitted from the gas consuming device can be suppressed from a remote location below the target value of the inputted carbon dioxide emission.
Further, the remote control device of the present invention comprises a carbon dioxide emission conversion means for gas for converting a predetermined consumption water amount taken in by the water amount input means into a carbon dioxide emission amount, and a target discharge for inputting a target value of the carbon dioxide emission amount. Total emissions that calculate the total of carbon dioxide emissions based on the amount of carbon dioxide emissions from the volume input means, the priority input means that inputs the control priority of water consuming equipment, and the carbon dioxide emission conversion means for water supply Start / stop or capacity control of water consuming equipment every predetermined time according to the priority set by the priority input means so that the total of carbon dioxide emissions during operation of the computing means and water consuming equipment becomes the target emission amount Carbon dioxide emission adjusting means is provided.
As a result, the amount of carbon dioxide emitted from the water consuming equipment can be controlled from a remote location below the target value of the inputted carbon dioxide emission.
In addition, the remote control device of the present invention includes a carbon dioxide emission input means that can input a plurality of carbon dioxide emissions, and carbon dioxide that is converted into carbon dioxide emission according to the name input by the carbon dioxide emission input means. Emissions conversion means, target emission input means for inputting a target value of carbon dioxide emission, priority input means for inputting the priority of reduction items of carbon dioxide emissions, and carbon dioxide emission conversion means Total emission calculation means for calculating the total amount of carbon dioxide emission based on carbon dioxide emission, carbon dioxide used based on the output of target emission input means, priority input means, and total emission calculation means There is provided a reduction amount output means for displaying and printing the reduction amount of the carbon dioxide emission every predetermined time according to the priority set by the priority input means so that the total emission amount becomes the target emission amount. Than it is.
This makes it possible to easily obtain an index for setting the carbon dioxide emission amount of the carbon dioxide emission below the target value.

The remote control device of the present invention calculates the carbon dioxide emission amount emitted from the carbon dioxide generation product when using power, using gas, using water, and setting a carbon dioxide emission target value.
Carbon dioxide emissions can be controlled automatically from a remote location below the target value.

  According to a first aspect of the present invention, a power measuring unit that measures power consumption of a plurality of power consuming devices from a remote location via a communication line, a power input unit that captures the measured power amount, and a power input unit The power consumption carbon dioxide emission conversion means for converting the predetermined power consumption into the carbon dioxide emission quantity, the target emission input means for inputting the target value of the carbon dioxide emission quantity, and the control priority of the power consuming device are inputted. A priority input means, a total emission calculation means for calculating the total carbon dioxide emission based on the carbon dioxide emission from the power carbon dioxide emission conversion means, a target emission input means and a priority input means; Based on the output of the total emission calculation means, the power consumption is consumed every predetermined time according to the priority set by the priority input means so that the total carbon dioxide emission during operation of the power consuming equipment becomes the target emission amount Device start / stop In addition, by providing a carbon dioxide emission adjustment means that performs capacity control, the power consumption is converted into carbon dioxide emission, and the carbon dioxide emission from the power consuming equipment is entered below the target value of carbon dioxide emission Can be suppressed from a remote location.

  In the second invention, particularly in the carbon dioxide emission conversion means for electric power of the first invention, the carbon dioxide emission input by the target emission input means can be converted into the target electric energy, so that the consumption from the power consuming device The amount of electric power can be controlled from a remote location below the target value of the input carbon dioxide emissions.

According to a third aspect of the present invention, a gas measuring unit that measures the amount of gas consumed by a plurality of gas consuming devices from a remote location via a communication line, a gas input unit that captures the measured gas amount, and a gas input unit The gas consumption carbon dioxide emission conversion means for converting the predetermined consumption gas amount into the carbon dioxide emission quantity, the target emission input means for inputting the target value of the carbon dioxide emission quantity, and the control priority of the gas consuming device are inputted. A priority input means, a total emission calculation means for calculating the total carbon dioxide emission based on the carbon dioxide emission from the gas carbon dioxide emission conversion means, a target emission input means and a priority input means; Based on the output of the total emission calculation means, gas consumption at a predetermined time according to the priority set by the priority input means so that the total carbon dioxide emission during operation of the gas consuming equipment becomes the target emission Device start / stop In addition, by providing a carbon dioxide emission adjustment means that performs capacity control, the gas consumption is converted into carbon dioxide emission, and the carbon dioxide emission from the gas consuming equipment is entered below the target value of carbon dioxide emission Can be suppressed from a remote location.

  According to a fourth aspect of the invention, in particular, in the carbon dioxide emission conversion means for gas of the third invention, the carbon dioxide emission input by the target emission input means can be converted into the target gas amount. The amount of gas can be suppressed from a remote location below the target value of the input carbon dioxide emissions.

  5th invention is taken in by the water quantity measuring means which measures the amount of water consumption of a plurality of water consuming equipment from a remote place via a communication line, the water quantity input means which takes in the measured water quantity, and the water quantity input means Enter the carbon dioxide emission conversion means for water supply that converts the specified consumption water amount into carbon dioxide emission, the target emission input means that inputs the target value of carbon dioxide emission, and the control priority of the water consumption equipment A priority input means, a total emission calculating means for calculating the total carbon dioxide emission based on the carbon dioxide emission from the carbon dioxide emission conversion means for water supply, a target emission input means and a priority input means; Based on the output of the total emission calculation means, gas consumption at a predetermined time according to the priority set by the priority input means so that the total carbon dioxide emission during operation of the water consuming equipment becomes the target emission Device start / stop In addition, by providing a carbon dioxide emission adjustment means that performs capacity control, the water consumption is converted to carbon dioxide emission, and the carbon dioxide emission from the water consuming equipment is entered below the target value of carbon dioxide emission Can be suppressed from a remote location.

  In the sixth aspect of the invention, in particular, in the carbon dioxide emission conversion means for water supply of the fifth invention, the carbon dioxide emission input by the target emission amount input means can be converted into the target water amount, so The amount can be controlled from a remote location below the target value of the input carbon dioxide emissions.

  The seventh invention is a carbon dioxide emission input means capable of inputting a plurality of carbon dioxide emissions, and a carbon dioxide emission conversion means for converting into carbon dioxide emission according to the name input by the carbon dioxide emission input means. , Target emission input means for inputting the target value of carbon dioxide emission, priority input means for inputting the priority of reduction items of carbon dioxide emissions, and carbon dioxide emission from the carbon dioxide emission conversion means The total emission calculation means for calculating the total carbon dioxide emission based on the total emission amount of carbon dioxide used based on the output of the target emission input means, the priority input means, and the total emission calculation means Is provided with a reduction amount output means for displaying and printing the reduction amount of carbon dioxide emissions according to the priority set by the priority input means so that the target emission amount becomes the target emission amount. Index for the carbon emissions below the target value can be easily obtained.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a block diagram of a remote control device according to the first embodiment of the present invention. In FIG. 1, the remote control device 1 includes a power measurement unit 4, a power input unit 5, a power carbon dioxide emission conversion unit 6, a target emission input unit 7, a priority input unit 8, and a total emission calculation unit 9.
The carbon dioxide emission adjusting means 10 is configured.

About the remote control apparatus comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.
First, the power measuring means 4 measures the predetermined power consumption of the plurality of power consuming devices 2A, 2B,..., 2n via the communication line 3b. The power input means 5 digitizes the power consumption data measured by the power measurement means 4 (example: 10 kWh, 20 kWh... 10 kWh). The electric power carbon dioxide emission conversion means 6 converts the electric power consumption quantified by the electric power input means 5 into carbon dioxide emission (example: 10 kWh = 1.2 kg-c, 20 kWh = 2.4 kg-c · .. 10 kWh = 1.2 kg-c). The target emission amount input means 7 inputs a target emission amount (for example, 9.6 kg-c) that can be used to reduce the carbon dioxide emission amount. The total emission calculating means 9 calculates the total carbon dioxide emission according to the operating state of the power consuming equipment 2 (example: 12.0 kg-c).

  The priority input means 8 inputs the priority of the power consuming device 2 (example: 2A = high priority, 2B = low priority... 2n = medium priority). The carbon dioxide emission adjusting means 10 is set by the priority input means 8 so that the total carbon dioxide emission during operation (example: 12 kg-c) becomes the target emission quantity (example: 9.6 kg-c). The start / stop or capability control signal is sent to the plurality of power consuming devices 2 via the communication line 3a in order of priority, and the start / stop or capability control is performed sequentially at predetermined time intervals. Thereafter, this operation is repeated.

  The remote control device configured as described above converts the power consumption of the power consuming device 2 into carbon dioxide emission by the power carbon dioxide emission conversion means 6 and totals the carbon dioxide emission by the total emission calculation means 9. A plurality of power consuming devices 2 are sequentially started and stopped at predetermined time intervals according to the priorities ranked by the priority input means 8 so that the total amount becomes the target discharge amount input by the target discharge amount input means 7. Alternatively, the ability is controlled. Therefore, the carbon dioxide emission can be suppressed to a target value or less by measuring the power of the plurality of power consuming devices 2.

  The electric power carbon dioxide emission conversion means 6 may be a carbon monoxide emission conversion means. Further, the power carbon dioxide emission converting means 6 for converting the electric energy into the carbon dioxide emission may be a point calculating means for converting the electric energy into a pseudo numerical value corresponding to the carbon dioxide emission.

  Further, the input to the target discharge amount input means 7 and the priority input means 8 may be an input means having a screen with any one of a key input means, a mouse input means and a touch panel input means in addition to a personal computer.

(Embodiment 2)
FIG. 2 is a block diagram of a remote control device according to Embodiment 2 of the present invention. In the figure, the same components as those in FIG.

  In FIG. 2, the remote control device 1 includes a power measurement unit 4, a power input unit 5, a power carbon dioxide emission conversion unit 6, a target emission input unit 7, a priority input unit 8, a total power amount calculation unit 11, The power amount adjusting means 12 is configured.

  First, the carbon dioxide emission conversion means 6 for electric power converts the target emission amount input by the target emission amount input means 7 into an electric power consumption amount (example: 1.2 kg-c = 10 kWh, 2.4 kg-c = 20 kWh ... 1.2 kg-c = 10 kWh).

The total power consumption calculating means 11 calculates the total power consumption according to the operating state of the power consuming device 2 (example: 100 kWh). The power amount adjusting means 12 is configured so that the total power amount during operation becomes the power consumption amount (80 kWh) converted from the target discharge amount (example: 9.6 kg-c) input by the target discharge amount input means 7. The start / stop or capability control signal is sent to the plurality of power consuming devices 2 via the communication line 3a in the order of priorities set by the priority input means 8, and the start / stop or capability control is sequentially performed at predetermined time intervals. Thereafter, this operation is repeated.

  In the remote control device configured as described above, the total power amount of the power consumption device 2 calculated by the total power amount calculation unit 11 becomes the target power consumption converted by the power carbon dioxide emission conversion unit 6. The plurality of power consuming devices 2 are sequentially started / stopped or capacity-controlled every predetermined time according to the priorities ranked by the priority input means 8. Therefore, the carbon dioxide emission can be suppressed to a target value or less by measuring the power of the plurality of power consuming devices 2.

(Embodiment 3)
FIG. 3 is a block diagram of a remote control device according to Embodiment 3 of the present invention. In the figure, the same components as those in FIG.

  In FIG. 3, the remote control device 1 includes a gas measurement unit 14, a gas input unit 15, a gas carbon dioxide emission conversion unit 16, a target emission input unit 7, a priority input unit 8, a total emission calculation unit 9, The carbon dioxide emission amount adjusting means 10 is configured.

  About the remote control apparatus comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  First, the gas measurement means 14 measures the predetermined consumption gas amount of the plurality of gas consumption devices 2A, 2B,..., 2n via the communication line 3b. The gas input means 15 digitizes the consumption gas data measured by the gas measurement means 14 (example: 10 m 3, 20 m 3... 10 m 3).

  The carbon dioxide emission conversion means 16 for gas converts the consumption gas amount quantified by the gas input means 15 into the carbon dioxide emission amount (for example, 10 m3 = 6.4 kg-c, 20 m3 = 12.8 kg-c · ..10m3 = 6.4kg-c).

  The target emission amount input means 7 inputs a target emission amount (for example, 51.2 kg-c) that can be used to reduce the carbon dioxide emission amount.

  The total emission calculating means 9 calculates the total carbon dioxide emission according to the operating state of the gas consuming device 2 (example: 64 kg-c).

  The priority input means 8 inputs the priority of the gas consuming device 2 (example: 2A = high priority, 2B = low priority... 2n = medium priority).

  The carbon dioxide emission amount adjusting means 10 is set by the priority input means 8 so that the total carbon dioxide emission amount during operation (example: 64 kg-c) becomes the target emission amount (example: 51.2 kg-c). The start / stop or capacity control signal is sent to the plurality of gas consuming devices 2 via the communication line 3a in the order of priority, and the start / stop or capacity control is sequentially performed every predetermined time. Thereafter, this operation is repeated.

  The remote control device configured as described above converts the gas consumption amount of the gas consuming device 2 into carbon dioxide emission by the gas carbon dioxide emission conversion means 16 and totals the total carbon dioxide emission by the total emission calculation means 9. A plurality of gas consuming devices 2 are sequentially started at predetermined intervals according to the priorities ranked by the priority input means 8 so that the total discharge amount becomes the target discharge amount input by the target discharge amount input means 7. Stop or control the ability.

Therefore, the carbon dioxide emission can be suppressed to a target value or less by measuring the gas amounts of the plurality of gas consuming devices 2.

(Embodiment 4)
FIG. 4 is a block diagram of a remote control device according to Embodiment 4 of the present invention. In the figure, the same components as those in FIGS.

  In FIG. 4, the remote control device 1 includes a gas measuring unit 14, a gas input unit 15, a carbon dioxide emission conversion unit 16 for gas, a target emission input unit 7, a priority input unit 8, a total gas amount calculation unit 13, The gas amount adjusting means 17 is configured.

  First, the carbon dioxide emission conversion means 16 for electric power converts the target emission input by the target emission input means 7 into the consumption gas quantity (example: 6.4 kg-c = 10 m 3, 12.8 kg-c = 20 m3... 6.4 kg-c = 10 m3).

  The total gas amount calculating means 13 calculates the total consumed gas amount according to the operating state of the gas consuming device 2 (example: 100 m 3).

  The gas amount adjusting means 17 is configured so that the total gas amount during operation becomes the consumed gas amount (80 m 3) converted from the target exhaust amount (eg, 51.2 kg-c) input by the target exhaust amount input means 7. The start / stop or capacity control signal is sent to the plurality of gas consuming devices 2 via the communication line 3a in the order of priorities set by the priority input means 8, and the start / stop or capacity control is sequentially performed at predetermined time intervals. Thereafter, this operation is repeated.

  In the remote control device configured as described above, the total gas amount of the gas consuming device 2 calculated by the total gas amount calculation means 13 becomes the target consumption gas amount converted by the carbon dioxide emission conversion means 16 for gas. As described above, the plurality of gas consuming devices 2 are sequentially started / stopped or capacity-controlled every predetermined time according to the priorities ranked by the priority input means 8.

  Therefore, the carbon dioxide emission can be suppressed to a target value or less by measuring the gas amounts of the plurality of gas consuming devices 2.

(Embodiment 5)
FIG. 5 is a block diagram of a remote control device according to Embodiment 5 of the present invention. In the figure, the same components as those in FIG.

  In FIG. 5, the remote control device 1 includes a water volume measuring unit 24, a water volume input unit 25, a water supply carbon dioxide emission conversion unit 26, a target discharge amount input unit 7, a priority input unit 8, a total discharge amount calculation unit 9, The carbon dioxide emission amount adjusting means 10 is configured.

About the remote control apparatus comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.
First, the water amount measuring means 24 measures a predetermined amount of water consumption of a plurality of water consumption devices 2A, 2B,..., 2n via the communication line 3b. The water quantity input means 25 digitizes the water consumption data measured by the water quantity measurement means 24 (example: 10 m3, 20 m3... 10 m3).

  Carbon dioxide emission conversion means 26 for water supply converts the consumption water amount quantified by the water amount input means 25 into carbon dioxide emission (e.g., 10 m3 = 1.6 kg-c, 20 m3 = 3.2 kg-c · ..10 m3 = 1.6 kg-c). The target emission amount input means 7 inputs a target emission amount (for example, 12.8 kg-c) that can be used to reduce the carbon dioxide emission amount. The total emission amount calculation means 9 calculates the total carbon dioxide emission amount according to the operation state of the water consuming equipment 2 (example: 16 kg-c).

  The priority input means 8 inputs the priority of the water consuming equipment 2 (example: 2A = high priority, 2B = low priority... 2n = medium priority).

  The carbon dioxide emission adjusting means 10 is set by the priority input means 8 so that the total carbon dioxide emission during operation (example: 16 kg-c) becomes the target emission amount (example: 12.8 kg-c). The start / stop or capability control signal is sent to the plurality of water consuming devices 2 via the communication line 3a in the order of priority, and the start / stop or capability control is performed sequentially every predetermined time. Thereafter, this operation is repeated.

  The remote control device configured as described above is configured to convert the water consumption amount of the water consuming equipment 2 into the carbon dioxide emission amount by the carbon dioxide emission conversion means 26 for water supply, and to add the carbon dioxide totaled by the total emission amount calculation means 9. A plurality of water consuming devices 2 are sequentially launched at predetermined time intervals according to the priorities ranked by the priority input means 8 so that the total discharge amount becomes the target discharge amount input by the target discharge amount input means 7. Stop or control the ability.

  Therefore, the amount of carbon dioxide emissions can be suppressed to a target value or less by measuring the amount of water in a plurality of water consuming devices 2.

(Embodiment 6)
FIG. 6 is a block diagram of a remote control device according to Embodiment 6 of the present invention. In the figure, the same components as those in FIGS. 1 and 5 are denoted by the same reference numerals, and description thereof is omitted.

  In FIG. 6, the remote control device 1 includes a water volume measuring unit 24, a water volume input unit 25, a water supply carbon dioxide emission conversion unit 26, a target discharge amount input unit 7, a priority input unit 8, a total water amount calculation unit 23, It is composed of water amount adjusting means 27.

  First, the carbon dioxide emission conversion means 26 for water supply converts the target discharge amount inputted by the target discharge amount input means 7 into the consumption water amount (e.g., 1.6 kg-c = 10 m <3>, 3.2 kg-c =). 20 m3... 1.6 kg-c = 10 m3).

  The total water amount calculation means 23 calculates the total amount of water consumption according to the operation state of the water consuming equipment 2 (example: 100 m3).

  The water amount adjustment means 27 is configured so that the total amount of water during operation becomes the consumption gas amount (80 m 3) converted from the target discharge amount (for example, 12.8 kg-c) input by the target discharge amount input means 7. The start / stop or capacity control signal is sent to the plurality of water consuming devices 2 via the communication line 3a in the order of priorities set by the priority input means 8, and the start / stop or capacity control is performed sequentially at predetermined time intervals. Thereafter, this operation is repeated.

  In the remote control device configured as described above, the total water amount of the water consuming device 2 calculated by the total water amount calculating means 23 becomes the target water consumption amount converted by the carbon dioxide emission conversion means 26 for water supply. As described above, the plurality of water consumption devices 2 are sequentially started / stopped or capacity-controlled every predetermined time in accordance with the priorities ranked by the priority input means 8.

  Therefore, the amount of carbon dioxide emissions can be suppressed to a target value or less by measuring the amount of water in a plurality of water consuming devices 2.

(Embodiment 7)
FIG. 7 is a block diagram of a remote control device according to Embodiment 7 of the present invention. In the figure, the same components as those in FIG.

  In FIG. 7, the remote control device 1 includes a carbon dioxide emission input means 35, a carbon dioxide emission conversion means 36, a target emission amount input means 7, a priority input means 8, a total emission amount calculation means 9, and a reduction amount output. The unit 37 is constituted.

  About the remote control apparatus comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  First, the carbon dioxide emission input means 35 can input a name and usage amount for discharging carbon dioxide.

  The carbon dioxide emission conversion means 36 quantifies the carbon dioxide emission amount set in advance according to the name and the amount used by the carbon dioxide emission input means 35 (example: gasoline 10L = 6.4 kg-c). Kerosene 10L = 6.9 kg-c).

  The target emission amount input means 7 inputs a target emission amount (for example, 9.6 kg-c) that can be used to reduce the carbon dioxide emission amount.

  The total emission amount calculating means 9 calculates the total emission amount of the carbon dioxide emission (example: 16.5.0 kg-c).

  The priority input means 8 inputs the priority of the power consuming device 2 (example: gasoline = high priority, kerosene = low priority).

  The carbon dioxide emission adjusting means 10 uses the priority input means 8 so that the total carbon dioxide emission used (for example, 16.5 kg-c) becomes the target emission amount (for example, 9.6 kg-c). The reduction amount of the carbon dioxide emission is displayed and printed in the set priority order. Thereafter, this operation is repeated.

  The remote control device configured as described above converts carbon dioxide emissions from the name and use amount of carbon dioxide emissions into carbon dioxide emissions by the carbon dioxide emission conversion means 36 and totals the carbon dioxide emissions by the total emission calculation means 9. The reduction amount of the carbon dioxide emission is displayed and printed according to the priority ranking by the priority input means 8 so that the total amount becomes the target emission amount input by the target emission amount input means 7. Therefore, by inputting the carbon dioxide emission, it is possible to easily obtain an index for suppressing the carbon dioxide emission to a target value or less.

  The input to the carbon dioxide emission input means 35, the target emission amount input means 7, and the priority input means 8 has a screen with any of a key input means, a mouse input means, and a touch panel input means in addition to a personal computer. Input means may be used.

  As described above, the remote control device of the present invention sets the target emission amount so that the carbon dioxide emission amount is less than or equal to the target value. You can enter the quantity and quantity, and the target power consumption equipment, gas usage equipment, water usage equipment, and carbon dioxide emissions can be reduced automatically and manually, so carbon dioxide emissions determined by the country, prefecture, municipality, community association, and company Respond quickly to volume restrictions.

Block diagram of a remote control device in Embodiment 1 of the present invention Block diagram of a remote control device in Embodiment 2 of the present invention Block diagram of a remote control device in Embodiment 3 of the present invention Block diagram of a remote control device according to Embodiment 4 of the present invention Block diagram of a remote control device according to Embodiment 5 of the present invention Block diagram of a remote control device according to Embodiment 6 of the present invention Block diagram of a remote control device according to Embodiment 7 of the present invention Block diagram of a conventional remote control device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Remote control apparatus 2 Electric power consumption apparatus 3 Communication line 4 Electric power measurement means 5 Electric power input means 6 Electric power carbon dioxide emission conversion means 7 Target emission amount input means 8 Priority input means 9 Total emission amount calculation means 10 Carbon dioxide emission amount Adjustment means 11 Total power amount calculation means 12 Power amount adjustment means 13 Total gas amount calculation means 14 Gas measurement means 15 Gas input means 16 Gas carbon dioxide emission conversion means 17 Gas amount adjustment means 23 Total water amount calculation means 24 Total water amount calculation means 24 Means 25 Water quantity input means 26 Carbon dioxide emission conversion means for water supply 27 Water amount adjustment means 35 Carbon dioxide emission input means 36 Carbon dioxide emission conversion means 37 Reduction amount output means

Claims (9)

Power measuring means for measuring the power consumption of a plurality of power consuming devices from a remote location via a communication line, power input means for capturing the measured power consumption, and predetermined power consumption captured by the power input means Carbon dioxide emission conversion means for electric power for converting CO2 emission into carbon dioxide emission, target emission input means for inputting a target value of carbon dioxide emission, and priority input means for inputting control priority of the power consuming device And a remote control device comprising a total emission calculating means for calculating the total carbon dioxide emission based on the carbon dioxide emission from the power carbon dioxide emission conversion means, the target emission input means And the priority set by the priority input means so that the total of carbon dioxide emissions during operation of the power consuming equipment becomes the target emission based on the outputs of the priority input means and the total emission calculation means Every time Remote control device which is characterized in that the carbon dioxide emissions adjusting means therefore by start-stop or capacity control of the power consumption devices every predetermined time. The remote control device according to claim 1, wherein the carbon dioxide emission conversion means for electric power can convert the carbon dioxide emission inputted by the target emission input means into electric energy. Gas measuring means for measuring the amount of gas consumed by a plurality of gas consuming devices from a remote location via a communication line, gas input means for taking in the measured gas amount, and predetermined consumption gas amount taken in by the gas input means Carbon dioxide emission conversion means for gas for converting gas into carbon dioxide emission, target emission input means for inputting a target value of carbon dioxide emission, and priority input means for inputting control priority of the gas consuming device And a remote control device comprising a total emission calculation means for calculating the total carbon dioxide emission based on the carbon dioxide emission from the gas carbon dioxide emission conversion means, the target emission input means And the priority set by the priority input means so that the sum of the carbon dioxide emissions during operation of the gas consuming device becomes the target emission based on the outputs of the priority input means and the total emission calculation means Every time Remote control device which is characterized in that the carbon dioxide emissions adjusting means therefore by start-stop or control of the capacity of the gas consuming device at predetermined time. The remote control device according to claim 3, wherein the carbon dioxide emission conversion means for gas can convert the carbon dioxide emission input by the target emission input means into a gas amount. A water amount measuring means for measuring the water consumption amount of a plurality of water consumption devices from a remote location via a communication line, a water amount input means for taking in the measured water amount, and a predetermined water consumption amount taken in by the water amount input means. Carbon dioxide emission conversion means for water to be converted into carbon dioxide emission, target emission input means for inputting a target value of carbon dioxide emission, and priority input means for inputting control priority of the water consuming equipment , A remote control device comprising a total emission calculating means for calculating the total amount of carbon dioxide emission based on the carbon dioxide emission from the carbon dioxide emission conversion means for water supply, the target emission input means; Priority set by the priority input means based on the outputs of the priority input means and the total emission calculating means so that the total carbon dioxide emission amount during operation of the water consuming equipment becomes the target emission amount West Therefore remote control device and performing the carbon dioxide emissions adjusting means start-stop or control of the capacity of the water consumers at every predetermined time. 6. The remote control device according to claim 5, wherein the carbon dioxide emission conversion means for water supply can convert the carbon dioxide emission input by the target emission input means into a water amount. Carbon dioxide emissions input means capable of inputting a plurality of carbon dioxide emissions, carbon dioxide emission conversion means for converting to carbon dioxide emissions according to the name input by the carbon dioxide emissions input means, and carbon dioxide emissions Based on the target emission input means for inputting the target value of the amount, the priority input means for inputting the priority of the reduction item of the carbon dioxide emission, and the carbon dioxide emission from the carbon dioxide emission conversion means A remote control device having a total emission amount calculating means for calculating a total amount of carbon dioxide emissions, which is used based on the outputs of the target emission amount input means, the priority input means and the total emission amount calculation means. The reduction amount of the carbon dioxide emission is displayed and printed every predetermined time according to the priority set by the priority input means so that the total amount of carbon dioxide emission becomes the target emission amount. Remote control apparatus characterized by having an amount output means. The target emission input means is capable of individually or collectively setting target carbon dioxide emissions of power consumption equipment, gas consumption equipment, water consumption equipment, and carbon dioxide emissions. The remote control device according to any one of 5. The remote control device according to claim 7, wherein the carbon dioxide emission input means can input carbon dioxide emission having a negative carbon dioxide emission amount.

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