JP6345527B2 - Residential energy calculation method and residential energy calculation system - Google Patents

Description

  The present invention relates to a residential energy calculation method and a residential energy calculation system for inputting an household composition, housing equipment, and the like and calculating an energy consumption amount consumed in a house.

  In recent years, social demands for energy conservation and reduction of carbon dioxide emissions have increased, and energy conservation policies have been strengthened in the housing sector. An effective policy for energy saving in the housing field is the introduction of various types of housing equipment with excellent energy saving performance.

  On the other hand, it is difficult for households who are considering renovation of housing, renewal of home equipment, or new purchase (introduction) to grasp the energy-saving effect in advance before renovation of home or renewal or introduction of home equipment. In many cases, it is not possible to make a decision to renew or purchase energy-saving equipment. This is because the energy saving effect of home renovation or renewal or introduction of housing equipment is complicatedly related to the number of households living in the house, the household attributes, the heat insulation performance of the house, the energy efficiency of the equipment, etc. This is because the energy saving effect and the utility cost reduction effect greatly vary.

  Therefore, as a device for performing a simulation for grasping the energy saving effect in advance, Patent Literature 1 inputs the current monthly electricity consumption, the current return time, and the equipment to be introduced. A utility cost prediction device for calculating (simulating) the utility cost of a house after facility update is disclosed.

  Further, in Patent Document 2, based on specific attribute data such as family composition, housing scale, residential energy-saving equipment, detached houses and apartments, and residential areas, and a plurality of calculation conditions defining living behavior, A life improvement support system that estimates energy consumption such as electricity, gas, and water usage is disclosed.

Japanese Patent No. 4153897 JP 2009-301569 A

  In the invention described in Patent Document 1, it is not possible to input the monthly electricity usage amount unless the meter for electricity usage for the past year is provided. Accordingly, even when going out to go into a showroom or the like and going to perform a simulation, since there are few people carrying a meter reading sheet for the amount of electricity used for the past year when going out, the simulation cannot be performed easily. In addition, it is not preferable because it takes a lot of time to input the monthly electricity usage amount, and there is a possibility of erroneous input. In addition, it is difficult to predict the energy consumption of a gas cooker, gas hot water supply, etc. from the amount of electricity used. In addition, it is known that the ratio of hot water supply and air conditioning is relatively large in the energy consumption in the house. The frequency of hot water bathing, the size of the air-conditioned room, the thermal insulation performance of the room, and the occupant's occupancy time Etc. have a big influence. However, in the invention described in Patent Document 1, since this information is insufficient, it is considered that the accuracy of the simulation is lowered.

  In the invention described in Patent Document 2, the user uses electricity, gas, water usage, waste emission, gasoline purchase amount, garden planting area, waste composting amount, use of natural energy such as sunlight. Various inputs must be made to regulate living behavior, such as volume, rainwater usage, recycling and purchasing activities, and use of public facilities. Therefore, not only there are many input items, but there are many things that you have to check by yourself, which is very time consuming, and there are things that are difficult to check, such as the amount of garbage discharged, and the user gives up the input There is a possibility.

  The present invention was devised in view of the above points, and it is possible to simplify the input from the user, to input more easily in a shorter time, and to consume in the house It is an object of the present invention to provide a residential energy calculation method and a residential energy calculation system that can calculate energy consumption related information based on energy consumption or residential energy consumption more accurately.

In order to solve the above problems, the residential energy calculation method and residential energy calculation system according to the present invention take the following means. First, the first invention of the present invention is based on the input to the input items prepared in advance for the household and the house in which the household resides, and the information stored in the storage means, and the household is in the house. A housing energy consumption method, or a housing energy calculation method for obtaining energy consumption-related information based on the housing energy consumption and the housing energy consumption, the input means, the display means, and the control means And an input item display step for displaying the input item on a display unit using the storage unit, and input information input from the input unit for the input item displayed on the display unit Is read using the control means, and the input information read using the control means is stored in the storage means. Based on the information, the residential energy consumption, or the residential energy consumption and the consumption energy related information is obtained, the consumption energy calculation step, the residential energy consumption calculated in the consumption energy calculation step, Or it has a consumption energy display step of displaying at least one of the consumption energy related information on the display means. And as the input items, the type of each household member, the frequency of hot water filling in the bathtub, the frequency of cooking, the floor area of the room of the preset type, and the heat insulation performance of the house indicating the heat insulation performance of the house Or a building age, and an input including selection of at least one type of housing equipment such as heating equipment, cooling equipment, kitchen equipment, or home appliances in accordance with the type of the room. Input including selection from among preset types of heating equipment and hot water supply equipment is possible. The storage means stores living behavior information indicating a living behavior pattern corresponding to the type of household member, tap water temperature information, and outside air temperature information throughout the year. In the energy consumption calculation step, for each input household member, based on the living behavior information, the time at which the staying place is in the house is specified and corresponding to the time at which the staying place is in the house. The member behavior information specifying the room to stay is obtained, the obtained member behavior information, the input hot water frequency, the input cooking frequency, and the floor area for each input room The inputted heat insulation performance or the building age, the inputted type of the house equipment, the inputted type of the bathroom heating equipment and the kind of the hot water supply equipment, the tap water temperature information and the outside air temperature. This is a residential energy calculation method for calculating the residential energy consumption, or the residential energy consumption and the consumption energy related information based on the information.

In this first invention, the input items from the user are the type of each household member, the frequency of hot water filling in the bathtub, the frequency of cooking, the floor area of each type of room, and the thermal insulation performance value of the house. , Input including selection of at least one housing equipment type of heating equipment or cooling equipment or kitchen equipment or home appliances corresponding to the type of room, and selection of the type of bathroom heating equipment and the type of hot water supply equipment And the input including . Therefore, it is much simpler to enter the amount of electricity used in the past year, or to enter the amount of electricity, gas, water usage, waste discharge, etc. It is also possible to input. In addition, the member behavior information (who, what time, in what room, what, etc.) is requested, and the frequency of hot water bathing, the size of the air-conditioned room, the insulation performance of the room, etc. are input. Especially, the energy consumption related information based on the housing energy consumption consumed in a house or the house energy consumption can be calculated more accurately.

  Next, a second invention of the present invention is the residential energy calculation method according to the first invention, wherein the storage means includes a heating energy efficiency corresponding to the type of the heating equipment, and the cooling. The cooling energy efficiency corresponding to the type of the facility, the bathroom heating energy efficiency corresponding to the type of the bathroom heating facility, and the hot water supply energy efficiency corresponding to the type of the hot water supply facility are stored. Then, in the consumption energy calculation step, when calculating the residential energy consumption, or the residential energy consumption and the consumption energy related information, calculation is performed using the corresponding energy efficiency, and the calculated residential energy consumption Calculate gas consumption and power consumption based on quantity. In the consumption energy display step, the gas consumption amount and the power consumption amount are displayed on the display unit as the house energy consumption amount.

  According to the second aspect of the invention, by using the heating energy efficiency, the cooling energy efficiency, the bathroom heating energy efficiency, and the hot water supply energy efficiency, the gas consumption amount and the power consumption amount as the house energy consumption are calculated with higher accuracy. be able to. Moreover, since these energy efficiencies are stored in the storage means in advance, there is no need for the user to input them.

  Next, a third invention of the present invention is the residential energy calculation method according to the second invention, wherein, in the energy consumption calculation step, the gas is calculated based on the gas consumption and the power consumption. Primary energy consumption that is energy consumption of each of the supply source and the power supply source, or carbon dioxide emissions from each of the gas supply source and the power supply source, or carbon dioxide emissions from the house Calculate one. In the consumption energy display step, when the primary energy consumption is calculated, at least one of the primary energy consumption or the total amount of the primary energy consumption is displayed on the display means, and the carbon dioxide emission In the residential energy calculation method, when the amount is calculated, at least one of the carbon dioxide emission amount or the total amount of the carbon dioxide emission amount is displayed on the display means.

  According to the third aspect of the present invention, at least each of the primary energy consumption of the gas supply source and the power supply source, or the total amount of the primary energy consumption, or each of the carbon dioxide emissions, or the total amount of the carbon dioxide emissions. This is convenient because one is calculated automatically.

  Next, a fourth invention of the present invention is the residential energy calculation method according to the second or third invention, wherein the storage means includes a plurality of gases that can be contracted in the residential area. Energy contract information, which is a contract including basic charges and pay-as-you-go charges for each of a supply source and a plurality of power supply sources, is stored, and the contract includes a discount amount and a discount condition, or a discount rate and a discount condition. , At least one of them may be included. Then, in the energy consumption calculation step, a sum of a gas charge and an electricity charge is selected from the gas supply source and the power supply source based on the gas consumption amount, the power consumption amount, and the energy contract information. Select the contract with the gas supplier and the contract with the power supplier, or the contract with the predetermined number of the gas supplier and contract with the power supplier in order from the lowest payment amount. To do. Further, in the consumption energy display step, the energy calculation method for a house displays the gas charge and the electricity charge based on the selected gas supplier and contract and the power supplier and contract on the display means.

  According to the fourth aspect of the invention, the contract with the gas supplier and the contract with the power supplier that makes the payment amount that is the sum of the gas charge and the electricity charge, or the contract with a predetermined number of gas suppliers in order from the lowest. It is also convenient because it displays the contract with the power supplier.

Next, a fifth aspect of the present invention is the residential energy calculation method according to the fourth aspect of the present invention, wherein the input item can be input to each of a plurality of patterns. In the input information reading step, the control unit is used to read the input information input to the input item for each pattern. Further, in the energy consumption calculation step, based on the input information for each read pattern and the information stored in the storage means, the house energy consumption for each pattern or the house energy consumption The amount and the energy consumption related information are calculated. In the consumption energy display step , the energy calculation method for a house is configured to display the gas rate and the electricity rate for each pattern on the display unit so as to be comparable.

  According to the fifth aspect of the present invention, the gas charge and the electricity charge for each of the plurality of patterns are displayed so that they can be compared, thereby appropriately assisting the user with the decision to renew or purchase the energy saving equipment. Can do.

  Next, a sixth aspect of the present invention is the residential energy calculation method according to the third aspect of the present invention, wherein when input including selection of the type of the hot water supply facility is possible, the type of the hot water supply facility Among them, a combined heat and power system is included, and the storage means stores the power generation efficiency and heat recovery efficiency of the combined heat and power system corresponding to the combined heat and power system. And, when the combined heat and power system is input from the hot water supply facility, in the energy consumption calculation step, based on the power generation efficiency and the heat recovery efficiency, the gas consumption amount and the power consumption amount, Each of the primary energy consumption, which is the energy consumption of each of the gas supply source and the power supply source, or the total amount of the primary energy consumption, or carbon dioxide emissions from each of the gas supply source and the power supply source Or the operation plan of the combined heat and power system that minimizes either the carbon dioxide emission from the house or the total amount of the carbon dioxide emission, and the operation plan calculated in the energy consumption display step is calculated. Is an energy calculation method for a house.

  According to the sixth aspect of the invention, the effect of the combined heat and power system can be indicated by specific numbers, and the user can be appropriately supported in the decision to update or purchase the combined heat and power system.

  Next, a seventh aspect of the present invention is the residential energy calculation method according to the fourth aspect of the present invention, wherein when input including selection of the type of the hot water supply facility is possible, the type of the hot water supply facility is Among them, a combined heat and power system is included, and the storage means stores the power generation efficiency and heat recovery efficiency of the combined heat and power system corresponding to the combined heat and power system. When the combined heat and power system is input from the hot water supply facility, in the energy consumption calculation step, the power generation efficiency and the heat recovery efficiency, the gas consumption amount, the power consumption amount, and the energy contract information From the gas supply source and the power supply source, a contract with the gas supply source and a contract with the gas supply source, and a contract with the power supply source, or a payment, which is the sum of the gas charge and the electricity charge. The operation plan of the combined heat and power system that minimizes the payment amount is calculated for each of the predetermined number of the gas supply source and the contract and the power supply source and the contract in order from the lowest price, and the energy consumption In the display step, the calculated operation plan is displayed on the display means.

  According to the seventh aspect, it is possible to show the effect of the combined heat and power system with specific numbers, and it is possible to appropriately assist the user with the decision to update or purchase the combined heat and power system.

  Next, 8th invention of this invention is the energy calculation method for houses which concerns on any one of the said 1st invention-7th invention, Comprising: The said hot-water supply equipment, the said heating equipment, and the said bathroom heating equipment At least one of the inputs can include an input including selection of two or more types of heating-related facilities from two or more different types of heating-related facilities. In the energy consumption calculation step, the residential energy consumption is calculated for each of the two or more types of heating-related facilities that are input, and in the energy consumption display step, the two or more types of the input It is a residential energy calculation method of displaying each said house energy consumption calculated with respect to each of heating-related facilities on the said display means so that comparison is possible.

  According to the eighth aspect of the invention, it is possible to select two or more types of at least one type of heating-related equipment among the types of hot water supply facilities, the types of heating facilities, and the types of bathroom heating facilities, and compare the results. It is possible to appropriately assist the user in renewing or purchasing a target type of heating-related equipment.

  Next, 9th invention of this invention is the energy calculation method for houses which concerns on any one of the said 1st invention-8th invention, Comprising: The said control means is the said energy consumption calculation step. When calculating the housing energy consumption, or the housing energy consumption and the energy related information, based on the member behavior information, the inputted hot water filling frequency, and the inputted cooking frequency. The water usage amount and the water rate corresponding to the water usage amount are obtained, and at least one of the residential energy consumption amount or the energy consumption related information is displayed on the display means in the consumption energy display step. At the time, it is the energy calculation method for houses which adds the water consumption and the water charge to the display.

  According to the ninth aspect of the present invention, the user knows more specific water and utility costs by obtaining water usage and water charges in addition to gas consumption and power consumption as housing energy consumption. This is convenient.

  Next, a tenth aspect of the present invention is the residential energy calculation method according to any one of the first to ninth aspects, wherein the control means is the energy consumption calculation step. A water-saving device including a water-saving shower head that reduces the amount of tap water used when calculating the residential energy consumption or the residential energy consumption and the energy-related information, or a hot water saving lever that reduces the frequency of hot water supply The housing energy consumption, or the housing energy consumption and the energy related information is calculated for each of the case where at least one of the hot water saving devices including the attached faucet is input and the case where it is not input. To do. And when displaying at least one of the residential energy consumption amount or the energy consumption related information on the display means in the energy consumption display step, when at least one of the water saving device or the hot water saving device is input This is a residential energy calculation method in which the case where these are not input is displayed so as to be comparable.

  According to the tenth aspect of the invention, the user can know the effects of the water-saving device and the water-saving device with specific numbers, so the user can make a decision to renew or purchase the water-saving device or the water-saving device. Can support appropriately.

  Next, an eleventh invention of the present invention comprises the input means, the display means, the control means, and the storage means, and any one of the first to tenth inventions. The residential energy consumption calculated based on the input information input from the input means and the information stored in the storage means, or related to the energy consumption. A residential energy calculation system for displaying at least one of information on the display means.

  According to the eleventh aspect of the present invention, it is possible to simplify the input from the user and to input more easily in a shorter time, and the residential energy consumption or the residential energy consumption consumed in the house. It is possible to realize a residential energy calculation system that can calculate energy-related information based on the above with higher accuracy.

It is a figure explaining the example of the whole structure of the energy calculation system for houses of this invention. It is a figure explaining the example of the various information used with the energy calculation system for houses. It is a flowchart explaining the example of the process sequence of the control means of the energy calculation system for houses. It is a figure explaining the relationship between the flow of a process and various information. It is a figure explaining the example of the input item displayed on the display means. It is a figure explaining the example which displayed the housing energy consumption and the consumption energy related information on the display means.

EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated using drawing.
● [Overall structure of residential energy calculation system 1 (Fig. 1) and examples of various information (Fig. 2)]
As shown in FIG. 1, the residential energy calculation system 1 of the present invention includes a management device 10 connected to a communication line 50, and terminal devices 21A, 22A, 21B, 22B, and 32C connected to the communication line 50. Configured.

  The communication line 50 is, for example, the Internet, and each terminal device and the management apparatus 10 can transmit and receive data and the like via the communication line 50 in a wired or wireless manner.

  The management device 10 is a so-called server, and includes an input unit, a display unit, a control unit, and a storage unit 11, and various types of information, programs, and the like are stored in the storage unit 11. And the management apparatus 10 provides the energy calculation service for houses according to the request | requirement from a terminal device. As shown in FIG. 2, various information is stored in the storage unit 11 of the management apparatus 10, and details thereof will be described later. The input means is, for example, a keyboard, a touch panel, or a mouse, the display means is, for example, a liquid crystal monitor or a touch panel, the control means is, for example, a CPU, and the storage means is, for example, a storage device such as an HDD.

  The terminal devices 21A, 22A, 21B, 22B, and 32C are, for example, desktop or notebook personal computers, tablet computers, and the like, and have input means, display means, control means, and storage means. By the operation, the management device 10 is requested to calculate the residential energy, and the calculation result of the management device 10 is displayed on the display means.

  Note that the residential energy calculation program may be stored in the management device 10 or in each terminal device. Various types of information used in the residential energy calculation program may be stored in the management device 10 or in each terminal device. For example, when various types of information used in a residential energy calculation program and a residential energy calculation program are stored in the management device 10, the residential energy calculation system has the configuration shown in FIG. The management device 10 is requested to calculate the energy for housing, the calculation result of the management device 10 is received, and the received calculation result is displayed on the display means of the terminal device. In addition, for example, when various information used in a residential energy calculation program and a residential energy calculation program is stored in each terminal device, the residential energy calculation system is configured only by the terminal device, Then, the calculation of residential energy is executed, and the calculation result is displayed on the display means. In the following description, various examples of information used in the residential energy calculation program and the residential energy calculation program will be described using an example in which the management apparatus 10 stores the information.

● [Overall flow of processing procedure of control means (Fig. 3)]
Next, an example of the processing procedure of the control means (in this case, the control means of the management apparatus 10) will be described using the flowchart shown in FIG. The user does not need to input the electricity bill for one year only by making an input for the input items shown in the example of FIG. 5, and the energy of the target house can be obtained with a simpler input. You can know the consumption. First, an overview of the entire processing procedure will be described.

  When the user operates the input unit of the terminal device to input an instruction to execute the calculation of residential energy, the terminal device accesses the management device 10 and displays the display unit of the terminal device, for example, in the example of FIG. The input items are displayed, and in step S10, the control means of the terminal device accepts input from the user. This step S10 corresponds to an input item display step for displaying input items on the display means.

  In step S20, the control unit of the terminal apparatus determines whether or not the input from the user is completed. If the input is completed (Yes), the process proceeds to step S25, where the input is not yet completed. If not (No), the process returns to step S10 and continues to accept input. Details of the input items will be described later.

  When the process proceeds to step S25, the control means of the terminal device reads the input information input from the user for the input item displayed on the display means, and proceeds to step S30. This step S25 corresponds to an input information reading step.

  In step S <b> 30, the control unit of the terminal device transmits the read input information to the management device 10, and causes the control unit of the management device 10 to start executing residential energy calculation. When the control means of the management apparatus 10 receives the input information, based on the input information and the various information stored in the storage means, the member behavior information for each household member input to the input item is obtained. calculate. A household member is a person who makes up a household living in the target house, and the member behavior information stays corresponding to the time when the household member stays in the target house. This is information specifying a room, and details of household members and member behavior information will be described later.

  In step S40, the control unit of the management apparatus 10 determines the use time zone of each room input in the input item based on the calculated member behavior information and various information stored in the storage unit. The energy consumption amount of each room is calculated on the basis of the calculated use time zone and the residential equipment or the like that is preset in each room or input from an input item. The details of the procedure for calculating the energy consumption of each room will be described later.

  In step S50, the control unit of the management apparatus 10 calculates a residential energy consumption amount that is the sum of the calculated energy consumption amounts of the rooms.

  In step S60, the control unit of the management apparatus 10 calculates consumption energy related information based on the house energy consumption, and transmits the calculated house energy consumption and consumption energy related information to the terminal device. The calculation of energy consumption related information may be omitted. The processing in steps S40 to S60 is for determining the energy consumption of the house, or the energy consumption related to the house energy consumption and the energy consumption based on the input information and various information stored in the storage means. This corresponds to a calculation step.

  In step S <b> 70, the control unit of the terminal device receives the house energy consumption amount and the energy consumption related information from the management device 10, and displays at least one of the house energy consumption amount or the energy consumption related information on the display unit. Also, when there are multiple residential energy consumption (gas consumption and power consumption, etc.) and there are multiple consumption energy related information (gas charges and electricity charges, etc.), at least one of them is used as the display means. indicate. This step S70 corresponds to a consumption energy display step. A display example is shown in FIG. The example shown in FIG. 6 shows an example in which (annual) gas consumption, (annual) power consumption, and (annual) tap water usage are displayed as housing energy consumption. In addition, energy consumption-related information includes (annual) primary energy consumption of gas supplier, (annual) primary energy consumption of power supplier, (annual) CO2 emissions of gas supplier, (annual) CO2 emissions of power supplier This shows an example in which the amount, (annual) residential carbon dioxide emissions, (annual) gas rate, (annual) electricity rate, and (annual) water rate are displayed.

[Details of input items displayed in step S10 (FIG. 5)]
Next, details of the input items displayed on the display unit of the terminal device in step S10 will be described in order with reference to FIG.

  The column “household member” is an area for inputting the composition of the household living in the target house, and the user selects and inputs the number of household members and the type of each household member. For example, if there are four households, enter “4” in the number input section, and each household member is a father (company employee), mother (full-time housewife), child (university student), or child (high school student). As shown in the example of FIG. Also, in the lower column than the household members, the input section related to the reference house, the input section for comparison 1 that is partly changed with respect to the reference house, and a part changed with respect to the reference house In the following, the input to the input part of the reference house will be described first.

  The column “residential area” is an input section for the area of the target house, and the user selects and inputs a prefecture, for example. This is because tap water temperature information and outside air temperature information, which will be described later, differ depending on the region.

  The column “Housing Insulation Performance (Q Value) or Building Age” is an input section for the insulation performance (Q value) of the target house, and the Q value is selected and input. It is possible to increase the calculation accuracy of the air conditioning load by the heat insulation performance of the house and the floor area of the air-conditioned room. When the heat insulation performance of the house is unknown, the general heat insulation performance value at the time of building the house is automatically set by inputting the building age. As for the air conditioning load, it is estimated from the member behavior information of household members who is doing what in which room, in what time zone, so there is no housing equipment such as air conditioning equipment in each room. It is possible to estimate which time zone is used. Furthermore, the air conditioning load can be obtained with higher calculation accuracy using the outside air temperature information.

  The column of “type of hot water supply equipment (including combined heat and power supply system)” is an input section of the type of hot water supply equipment of the target house, and the user can select, for example, gas hot water supply equipment, electric hot water supply equipment, kerosene hot water supply equipment, Select the desired hot water supply equipment from the combined heat and power system, etc.

  The column of “Water filling frequency” is an input section for the frequency of filling the bath in the target house, and the user can select, for example, once / one day, twice / one day, once / 2 days, etc. Select from and enter. In addition, in order to improve the calculation accuracy of the energy load in the hot water supply, the hot water filling frequency of the bath is input.

  The “cooking frequency” column is an input section for the frequency of cooking by the cook of this household. The user can select from twice / one day, three times / one day, once / one day, etc. Select and enter.

  In the column “Presence / absence of use of water-saving device”, there is an input section for determining whether or not to use a water-saving device (water-saving shower head, etc.) to be described later. ) Or.

  The column of “whether or not a hot water saving device is used” is an input section for whether or not to use a hot water saving device (a hot water saving type mixing faucet, etc.) to be described later. Or not use (no).

  The column “Bathroom” is an input unit related to the bathroom of the target house. The user selects and inputs the floor area of the bathroom, for example, and the type of bathroom heating equipment includes gas heating, electric air conditioner, and kerosene type. Select from heating, no heating, etc. and enter. In addition, when the floor area is input for each room below the “bathroom”, the control means determines that the room is “present”, and when the floor area is not input, the control means determines that the room is “ By determining “No”, the presence or absence of the room is determined. It is sufficient that at least one of the above facilities can be selected.

  The column “LDK” is an input unit related to a living / dining / kitchen room of the target house, and the user selects and inputs the floor area of the LDK, for example. Further, as the type of heating equipment, the user selects and inputs, for example, gas heating (blowing type), gas heating (floor heating), electric air conditioner, kerosene heating, no heating, and the like. In addition, as the type of cooling equipment, the user selects and inputs, for example, an electric air conditioner or no cooling. Further, the user selects and inputs, for example, a gas stove, an electromagnetic stove, or the like as a stove type that is a kitchen facility. Moreover, you may enable it to select TV, an electric carpet, etc. as household appliances. It is sufficient that at least one of the above facilities can be selected.

  The column “Bedroom” is an input unit related to the bedroom of the target house, and the user selects and inputs the floor area of the bedroom, for example, and the heating equipment type is, for example, gas heating (blowing type) or gas heating. (Floor heating), electric air conditioner, kerosene heating, no heating, and the like are selected and input. As the cooling equipment type, for example, an electric air conditioner, no cooling is selected and input. Moreover, you may enable it to select TV, an electric carpet, etc. as household appliances. It is sufficient that at least one of the above facilities can be selected.

  The column of “Children's room 1” is an input unit related to the child room of the target house, and the user selects and inputs the floor area of the child room (in this case, the room of a college student, for example), and the heating facility For example, gas heating (blowing type), gas heating (floor heating), electric air conditioner, kerosene heating, no heating, etc. are selected and input, and the cooling equipment type is, for example, electric air conditioner, cooling Select from none, etc. and enter. Moreover, you may enable it to select TV, an electric carpet, etc. as household appliances. It is sufficient that at least one of the above facilities can be selected.

  Hereinafter, the same input is performed for each room of the target house. In this way, there is no need to enter monthly electricity charges throughout the year and monthly gas charges, and it is not necessary to listen and enter the actions of each household member. The input can be completed in a relatively short time.

[Relationship between details of each processing in steps S30 and S40 and various kinds of information stored in storage means (FIG. 4)]
Next, details of each processing of steps S30 and S40 in the flowchart shown in FIG. 3 will be described with reference to FIG. FIG. 4 shows the order of items obtained by the control means in the flow of the block Bxx shown by a rectangle, and shows a related diagram showing information used in each block by a parallelogram. In FIG. 4, blocks B31 to B34 indicate housing energy consumption, and blocks B41 to B48 indicate energy consumption related information.

[Details of processing in step S30]
As shown in block B11 of FIG. 4, the household member information obtained from step S30 of the flowchart shown in FIG. 3 includes the household member information input from the input items shown in FIG. The hot water filling frequency information input from the input information, the cooking frequency information input from the input items, the floor area information (and the presence or absence of the room) input from the input items, and stored in the storage means It is calculated based on the living behavior information. In the living behavior information, standard living behavior patterns corresponding to the types of members (company employees, full-time housewives, etc.) are recorded in a database in advance.

  The behavior of each individual member of a household is often addictive but uncertain, and if there are multiple rooms in a house, listen to all the members of the household to determine which room they are acting in. It is very cumbersome and time consuming to input it into the system. Note that even if such information is listened to and input to the system, it does not necessarily contribute to an improvement in calculation accuracy of energy consumption due to uncertainty of individual behavior. However, if a simulation is performed while ignoring actions involving energy consumption, the calculated value of energy consumption may be undercalculated. Therefore, by inputting the room configuration of the target house and the area of each room from the input items, the room and time zone (mainly) used by each household member are automatically assigned, so these problems To solve.

  For example, the floor plan of a house is divided into a main room (generally a living / dining / kitchen (LDK)) used by all household members and other rooms, and living activities are performed in the main room. Distinguish between actions and other room actions. By assigning a room to be used mainly to each household member, it is possible to determine the living activities of all the household members in the house and the stay rooms according to time zones.

  For example, if the household member is a company employee, the room to be used is mainly LDK, staying at LDK during the time of 6:00 am to 7:00 am, and at 20:00 pm at night (when returning from the company) Stay at LDK at 23:30, stay at bathroom at night from 23:30 to 24:00, stay at bedroom at night from 24:00 to 6:00 in the morning. Equivalent to employee behavior information). For example, if the household member is a high school student, the room used mainly is a child room, staying in the LDK during the hours from 6:30 to 7:30 in the morning, and at 20:00 in the evening (going home from a cram school etc.) ~ Last night at 21:00 stay in LDK, 21:00 to 24:00 night, stay in children's room, 24:00:00 to night 24:30, stay in bathroom, night 24 : From 30 to 6:30 in the morning, stay in the child's room and confirm the daily activities (equivalent to member behavior information). For example, if the household member is a full-time housewife, staying at the LDK between 5:30 am and 7:30 am and preparing for breakfast during the time from 5:30 am to 6:00 am Equivalent to employee behavior information).

[Details of Step S40]
The energy consumption amount of each room according to the usage time zone of each room obtained in step S40 of the flowchart shown in FIG. 3 is obtained from a great deal of information as shown in block B21 of FIG. First, the member behavior information obtained in block B11, the information on the heat insulation performance or building age, the information on the residential area, the room facility information (such as the type of heating equipment), the floor area (room), which are input from the input items Information), bathroom heating facility information, hot water supply facility information, and outdoor air temperature information, tap water temperature information, etc. stored in the storage means in advance. The outdoor temperature information records the outdoor temperature of each residential area throughout the year, and uses the input outdoor temperature information corresponding to the residential area. Similarly, in the tap water temperature information, the tap water temperature of each residential area throughout the year is recorded, and the input tap water temperature information corresponding to the residential area is used.

  And it becomes possible to relate the energy consumption consumed in the room accompanying the living act by confirming the living act according to the time zone of all the members of the household (corresponding to the member action information). In the case of the above household members, someone in the household stays in the LDK from 5:30 am to 7:30 am, and cooking equipment (toaster or microwave oven from 5:30 am to 6:00 am) Etc.), 5:30 am to 7:30 am in the morning are associated with energy consumption by lighting, TV (TV), and air conditioning equipment. Each room is assigned several devices by default. For example, devices such as lighting, a refrigerator, a microwave oven, a toaster, and a TV are assigned to the LDK, and the air conditioning equipment is selected from input items.

  For heating / cooling loads, calculate the amount of heat required for heating / cooling the room, and use the heating energy efficiency and cooling energy efficiency stored in advance in the storage means to obtain more accurate energy consumption. You may make it calculate. In this case, the storage means includes heating energy efficiency corresponding to the type of heating equipment, cooling energy efficiency corresponding to the type of cooling equipment, bathroom heating energy efficiency corresponding to the type of bathroom heating equipment, and hot water supply. The hot water supply energy efficiency corresponding to the type of equipment is stored. In addition, it is not limited to heating / cooling, and for each facility, the energy consumption efficiency of city gas fuel and the energy consumption efficiency of electricity are stored in the storage means for use in hot water supply, heating, cooling, cooking, home appliances, etc. It becomes possible to calculate and display the required city gas consumption and power consumption separately.

  After obtaining the energy consumption of each room according to the above procedure, calculate the total energy consumption of each room to obtain the energy consumption of the house (gas consumption, power consumption, tap water usage, etc.) Can be obtained (see FIG. 4). Moreover, after calculating | requiring housing energy consumption, it is possible to calculate | require consumption energy related information (gas charges, electricity charges, etc.) based on housing energy consumption (refer FIG. 4). In the case of a house equipped with a combined heat and power system, the purchased power amount obtained by subtracting the amount of power generated by the combined heat and power system from the power consumption amount is set as a new power consumption amount. And as shown in FIG. 4, member action information, hot water filling frequency, cooking frequency, floor area for each room, house insulation performance or age, type of housing equipment, type of bathroom heating equipment, Based on the type of hot water supply facility, tap water temperature information, and outside air temperature information, the residential energy consumption, or the residential energy consumption and the related energy consumption information is calculated.

  When calculating the hot water supply load, it is calculated based on tap water temperature information throughout the year (for example, monthly tap water temperature information) and outside air temperature information throughout the year (for example, monthly outside air temperature information). Further, since the tap water temperature varies from region to region, the tap water temperature information for each region is stored in advance in the storage means, and the tap water temperature information corresponding to the region input from the input items is used. Similarly, regarding the heating / cooling load, since the outside air temperature varies from region to region, the outside temperature information for each region is stored in the storage means in advance, and the outside temperature information corresponding to the region input from the input item is used. To do. Thereby, it is possible to calculate a more accurate energy consumption amount according to the region.

  For water usage, for example, shower usage per person, wash usage, toilet usage, dishwashing usage, laundry usage, etc. are set in advance, and the number of household members (member behavior) Information), cooking frequency, and hot water filling frequency. Since it is considered that there is a high correlation between the cooking frequency at home and the number of times of dishwashing, it is possible to set the cooking frequency as an input item and to set it in relation to the amount of hot water used for dishwashing.

  In this way, by entering the types of all household members living in the house from the input items, the standard daily activities of each household member can be entered without entering the monthly electricity usage throughout the year. Assume that you live a life (equivalent to member behavior information). And by setting the energy efficiency of the equipment (lighting, TV, etc.) set by default in each room and the selected housing equipment (air conditioning equipment, etc.), hot water supply, heating, cooling, cooking, The energy consumption required by home appliances can be automatically calculated.

● [Calculation method of gas charges and electricity charges]
In general, city gas and LP gas charges and electricity charges vary depending on the rate structure of the gas supply source (gas supply company) and the power supply source (electric power company) with which the house (the head of the household) contracts. . Further, even for the same gas supply source and power supply source, a plurality of rate contract types (discount amount and discount condition, discount rate and discount condition, etc.) are often set. For example, for the power supply source, there may be a contract type in which the electricity charge for the midnight time zone is cheaper than the electricity charge for the time zone other than midnight.

  The storage means stores energy contract information, which is a contract including a plurality of gas supply sources that can be contracted in a residential area, and basic charges and metered charges at a plurality of power supply sources that are input in the input item. Yes. The contract may include at least one of a discount amount and a discount condition or a discount rate and a discount condition. And a control means calculates | requires a gas charge and an electricity bill based on gas consumption, electric power consumption, and energy contract information (refer FIG. 4), and calculates | requires the payment amount which is the sum.

  Depending on the type of housing facility, the availability of the contract may differ depending on the type of housing facility. Therefore, a contract that can be contracted according to the type of housing equipment owned by the house (input from the input items). A contract with a gas supplier and a power supplier that make the lowest charge (payment amount) among the types, or a contract with a predetermined number of gas suppliers and a contract with a power supplier (for example, the cheaper one) 3 etc.) can be selected and displayed on the display means. For example, as a method of selecting a contract with a supplier whose price is the cheapest, a charge is calculated for each of all contractable suppliers and contracts at each supplier, and the supplier with the lowest price among them is calculated. This is possible by extracting the contract. And the gas charge calculated by contract with the extracted supplier and the electricity charge can be displayed on the display means. The gas usage is the usage of city gas and LP gas according to the gas supply sources that can be contracted in the area. Similarly, the gas fee is a city gas fee or LP gas fee.

● [Calculation methods for primary energy consumption, carbon dioxide emissions, etc.]
For example, in the case of a house that receives supply of (city) gas and electricity, it is possible to calculate the annual (city) gas consumption and power consumption by the above method. By storing the primary energy information for (city) gas to calculate the primary energy consumption from the (city) gas consumption in the storage means, the (annual) primary energy consumption of the gas supply source is stored. The amount (gas) can be calculated (see FIG. 4). Similarly, by storing the primary energy information for power for calculating the primary energy consumption of the power supplier from the power consumption in the storage means, the (annual) primary energy consumption (electricity) of the power supplier is stored. ) Can be calculated (see FIG. 4). The primary energy consumption (gas) of the gas supplier and the primary energy consumption (electricity) of the power supplier can be displayed on the display means. At least one of the primary energy consumption of the gas supplier or the power supplier or the total primary energy consumption is calculated, or at least one of the calculated primary energy consumptions is calculated. You may make it display on a display means.

Also, by storing (city) gas supply source CO ₂ emission information for calculating the carbon dioxide emission of the gas supply source from the (city) gas consumption, (annual) CO2 emission information of the gas supply source is stored. Carbon emissions (supplier CO ₂ emissions (gas)) can be calculated (see FIG. 4). Similarly, by storing the power supply source CO ₂ emission information for calculating the carbon dioxide emission of the power supply source from the power consumption, the (annual) carbon dioxide emission (supply) of the power supply source is stored. The original CO ₂ emission amount (electricity)) can be calculated (see FIG. 4). Similarly, by storing residential CO ₂ emission information for calculating the carbon dioxide emission of the house from the (city) gas consumption, the (annual) carbon dioxide emission (housing CO _{2 of the} house) is stored. Discharge amount) can be calculated (see FIG. 4). Note that carbon dioxide is not emitted from the house from the power consumption. It should be noted that at least one of each of the carbon dioxide emissions or the total amount of carbon dioxide emissions is calculated, or at least one of the calculated carbon dioxide emissions or the total amount of carbon dioxide emissions. May be displayed on the display means.

● [When the combined heat and power system is selected as the hot water supply system]
In recent years, cogeneration systems called cogeneration are often installed in houses. In a house where a combined heat and power system is installed, a part of electric power and thermal energy (used for hot water supply, heating, etc.) consumed in the house can be supplied by the combined heat and power system. In the case where the combined heat and power system is selected (input) from the hot water supply facilities in the input items, for example, the combined heat and power system is used for the load of hot water, heating, cooling, cooking, and home appliances obtained by the above-described method. In all possible operation schedules (corresponding to operation plans) under certain operation constraint conditions, each of the primary energy consumption (of the gas supply source and power supply source), or the total amount of primary energy consumption, or (gas Payments that are each of the carbon dioxide emissions (from the supplier, the power supplier), the carbon dioxide emissions of the house, or the total amount of carbon dioxide emissions, or the sum of gas and electricity charges, or the sum of gas and electricity charges The amount of money can be calculated, and the operation schedule in which one or more designated from among these can be determined can be determined. Further, this operation schedule may be displayed on the display means together with the house energy consumption and the like. In addition, by storing the power generation efficiency and heat recovery efficiency of the combined heat and power system corresponding to the combined heat and power system in the storage means and using them for calculation, more accurate gas consumption and power consumption (in the example of FIG. Amount) can be calculated.

  In addition, the operation constraint conditions assumed in the combined heat and power system include the number of times the combined heat and power system is started per day, the minimum time division during operation, the minimum output, the maximum output, and the like. When the combined heat and power system operates, heat output is generated in addition to power output. The generated heat output can be stored in the hot water storage tank (a hot water storage tank is included in the configuration of the combined heat and power system), but the amount of heat once stored in the hot water storage tank is proportional to the temperature difference between the heat storage amount and the outside air temperature. Heat dissipation loss occurs. When calculating the above-mentioned primary energy consumption, or carbon dioxide emissions (from gas suppliers and power suppliers), or carbon dioxide emissions from homes, or gas and electricity charges, these heat dissipation losses were taken into account. An operation can be performed, and a more accurate value can be calculated. In addition, when the amount of heat stored in the hot water storage tank is insufficient, heat is supplied using an auxiliary boiler (the auxiliary boiler is included in the configuration of the combined heat and power system), but the energy consumption of the auxiliary boiler at this time is also In view of the above, the calculation of the above-mentioned primary energy consumption, carbon dioxide emissions (from the gas supply source and power supply source), carbon dioxide emissions from the house, gas charges and electricity charges can be performed.

  Thus, when selection (input) of the type of hot water supply facility is possible from the input items, the type of hot water supply facility includes a combined heat and power system, and the storage means is compatible with the combined heat and power system. The power generation efficiency and heat recovery efficiency of the combined heat and power supply system are stored. When a combined heat and power supply system is selected (input) from the hot water supply facilities of the input items, in the energy consumption calculation step, based on the power generation efficiency and the heat recovery efficiency, the gas consumption and the power consumption, the primary An operation plan that minimizes either the energy consumption amount, the total primary energy consumption amount, the carbon dioxide emission amount, or the carbon dioxide emission amount is calculated and displayed on the display unit. Also, instead of calculating an operation plan that minimizes each primary energy consumption (or total amount) or each carbon dioxide emission (or total amount), a contract with the supplier that pays the least amount, or A contract with a predetermined number (for example, three) of suppliers is calculated in order from the lowest payment amount, and an operation plan that minimizes the payment amount is calculated and displayed on the display means for each supply source and amount. .

● [Comparison support method for new or updated equipment]
In the residential energy calculation system according to the present embodiment, the results of a plurality of candidates (the above-mentioned primary energy consumption, carbon dioxide emissions, or gas rate and electricity rate) for a residential facility that is desired to be newly established or renewed. At least one) can be displayed on the display means so as to be comparable. For example, in the input from the input item, as the heating equipment type of LDK, by inputting the gas hot water type floor heating in the “reference” column and the electric air conditioner in the “comparison 1” column, Each of the primary energy consumption, the total amount of primary energy consumption, or the carbon dioxide emissions (from the gas supply source and the power supply source) in each case of “reference” and “comparison 1”, Alternatively, at least one of the carbon dioxide emissions of the house, or the total amount of carbon dioxide emissions, or the gas and electricity charges, or the payment amount can be displayed on the display means so as to be comparable.

  Thus, input items can be input to each of a plurality of patterns. Then, the housing energy consumption (and consumption energy related information) for each pattern can be calculated, and the housing energy consumption (and consumption energy related information) for each pattern can be displayed on the display means so as to be comparable. So it can help users make decisions.

  Moreover, you may enable it to select (input) two or more types from two or more types of different heating-related facilities at least one heating-related facility of a hot water supply facility, a heating facility, and a bathroom heating facility. The housing energy consumption (and energy consumption related information) calculated for each of the two or more types of heating related facilities selected (input) is displayed on the display means so as to be comparable. For example, four types (two or more types) of gas hot water supply facilities, electric hot water supply facilities, kerosene type hot water supply facilities, and combined heat and power supply systems are prepared, and three types (two or more types) are selected from these. You may be able to do it. In the example shown in FIG. 5, three types can be selected from the reference, the comparison 1 and the comparison 2, and each can be compared as shown in FIG.

● [Display of water usage and water charges]
In the above description, an example of obtaining gas consumption and power consumption as housing energy consumption and obtaining gas charges and electricity charges has been explained, but calculation of water usage and water charges and display on display means are added You can also. For example, the usage status of the room in the house by the member behavior information of each household member, the input hot water frequency, the input cooking frequency, the preset toilet use frequency, the wash use frequency, the washing frequency, etc. A tap water usage amount is calculated based on the calculated tap water usage amount and a tap water fee information stored in advance in the storage means. And it is possible to add the display of water consumption and a water rate to a display means.

● [Effective comparison support method of water-saving equipment that saves water usage and water-saving equipment that saves hot water supply]
In recent years, water-saving faucets and water-saving faucets that can save water usage and hot water supply have been put on the market, and it is possible to compare the use of these with and without them. An example of a water-saving device is a shower head with a reduced amount of discharged water. An example of a water-saving device is a water-saving type mixing faucet (on the hot water side until the mixing lever clicks from the center position) If you don't turn it in, the hot water will not come out). The water-saving water-saving effect information for calculating the water-saving effect by these water-saving devices, the water-saving effect by the water-saving devices, etc. is stored in the storage means in advance. This makes it possible to compare water usage and water charges with and without water-saving equipment, gas consumption and gas charges with and without water-saving equipment, etc. It can be displayed on the display means so that the comparison is possible.

  For example, in the input items shown in FIG. 5, in the column of “Presence / absence of use of water-saving device” and “Presence / absence of use of hot water-saving device” in the reference, comparison 1 and comparison 2, Enter “None” in both fields, enter “Yes” only in the “Use / non-use of water-saving equipment” field in the comparison 1 field, and enter “Use of water-saving equipment” in the 2 field for comparison. “Yes” is input only to the “existence” input section. In this case, the effect of using the water-saving device and using the water-saving device can be confirmed as compared with the case where the water-saving device and the hot water-saving device are not used.

  Thus, when calculating housing energy consumption (and energy consumption related information), housing energy for each of cases where at least one of water saving equipment or hot water saving equipment is entered and not entered. Calculate consumption (and energy consumption related information). Then, by displaying the case where at least one of the water-saving device or the hot water-saving device is inputted and the case where the water-saving device is not inputted, the water saving device or the hot water saving device is provided in the house for the user. Can help make decisions.

  The residential energy calculation method and the residential energy calculation system of the present invention are not limited to the appearance, configuration, operation, processing procedure, and the like described in the present embodiment, and various changes are made without changing the gist of the present invention, Can be added or deleted.

  Examples of input items are not limited to the example shown in FIG. Moreover, the display example of the calculated house energy consumption (and energy consumption related information) is not limited to the display example shown in FIG.

  Further, the processing procedure is not limited to the flowchart shown in the example of FIG. 3, and the association of each information is not limited to the example shown in FIG. 4.

  In the above description, the example of obtaining gas consumption, power consumption, water usage, and further calculating gas charges, electricity charges, water charges as housing energy consumption has been explained, but kerosene consumption and kerosene charges, You may make it add calculation of a sewage charge etc. and the display to a display means.

  In the description of the present embodiment, an example has been described in which the obtained residential energy consumption and energy consumption-related information are displayed on the display unit. However, it may be printed out on paper or the like via a printing unit such as a printer. .

  In the description of the present embodiment, a desktop or notebook personal computer or a tablet computer is shown as an example of the terminal device. However, the present invention is not limited to this, and a smartphone or the like may be included.

DESCRIPTION OF SYMBOLS 1 Residential energy calculation system 10 Management apparatus 11 Storage means 21A, 22A, 21B, 22B, 32C Terminal apparatus 50 Communication line

Claims (11)

Based on the input to the input items prepared in advance for the household and the house in which the household resides, and the information stored in the storage means, the household energy consumption consumed by the household in the house, or the house A method for calculating energy consumption for a house, which calculates energy consumption and information related to energy consumption based on the housing energy consumption,
Using the input means, the display means, the control means, and the storage means,
An input item display step of displaying the input item on a display means;
An input information reading step of reading input information input from the input means for the input items displayed on the display means using the control means;
Based on the input information read using the control means and the information stored in the storage means, the residential energy consumption amount, or the residential energy consumption amount and the consumption energy related information is obtained. , Energy consumption calculation step,
A consumption energy display step of displaying at least one of the residential energy consumption calculated in the consumption energy calculation step or the consumption energy related information on the display means,
As the input item,
The type of each household member,
The frequency of hot water filling the bathtub,
Cooking frequency,
The floor area of a preset type of room,
It is possible to input the heat insulation performance or the building age indicating the heat insulation performance of the house,
Corresponding to the type of the room, an input including a selection of at least one residential equipment type of heating equipment or cooling equipment or kitchen equipment or home appliances is possible,
Input including selection from among preset types of bathroom heating equipment and hot water supply equipment is possible.
In the storage means,
Living behavior information indicating living behavior patterns corresponding to the types of household members,
Tap water temperature information and outdoor temperature information throughout the year are stored,
In the energy consumption calculation step,
For each input household member, based on the living behavior information, the member who specified the time in which the staying place is in the house and the room in which the room is staying corresponding to the time in the house is specified Seeking action information,
The obtained member behavior information, the inputted hot water filling frequency, the inputted cooking frequency, the inputted floor area for each room, the inputted house insulation performance or the building age, Based on the input type of the housing equipment, the input type of the bathroom heating equipment and the type of the hot water supply equipment, the tap water temperature information and the outside air temperature information, the residential energy consumption, or the Calculating housing energy consumption and said energy consumption related information,
Residential energy calculation method. It is the energy calculation method for houses of Claim 1,
In the storage means, heating energy efficiency corresponding to the type of the heating equipment, cooling energy efficiency corresponding to the type of the cooling equipment, bathroom heating energy efficiency corresponding to the type of the bathroom heating equipment, The hot water supply energy efficiency corresponding to the type of the hot water supply facility is stored,
In the energy consumption calculation step,
When calculating the residential energy consumption or the residential energy consumption and the energy related information, the gas consumption and power based on the calculated residential energy consumption are calculated using the corresponding energy efficiency. Calculate consumption,
In the energy consumption display step,
As the residential energy consumption, the gas consumption and the power consumption are displayed on the display means.
Residential energy calculation method. It is the energy calculation method for houses of Claim 2, Comprising:
In the energy consumption calculation step,
Based on the gas consumption and the power consumption, primary energy consumption that is the energy consumption of each of the gas supply source and the power supply source, or carbon dioxide from each of the gas supply source and the power supply source Calculating at least one of emissions, or carbon dioxide emissions from the house,
In the energy consumption display step,
When calculating the primary energy consumption, at least one of the primary energy consumption or the total amount of the primary energy consumption is displayed on the display means, and when calculating the carbon dioxide emission, Displaying at least one of carbon dioxide emissions or the total amount of carbon dioxide emissions on the display means;
Residential energy calculation method. It is the energy calculation method for houses of Claim 2 or 3,
In the storage means,
Energy contract information that is a contract including a plurality of gas suppliers that can be contracted in the residential area and respective basic charges and metered charges at a plurality of power suppliers is stored, and the contract includes a discount May include at least one of an amount and a discount term, or a discount rate and a discount term,
In the energy consumption calculation step,
Based on the gas consumption, the power consumption, and the energy contract information, the payment amount that is the sum of the gas charge and the electricity charge is the lowest among the gas supply source and the power supply source. Select a contract with a gas supplier and a contract with the power supplier, or a predetermined number of the gas supplier and contract and the contract with the power supplier in order from the lowest payment amount,
In the energy consumption display step,
Displaying on the display means a gas charge and an electricity charge based on the selected gas supplier and contract and the power supplier and contract;
Residential energy calculation method. It is the energy calculation method for houses of Claim 4, Comprising:
The input item can be input to each of a plurality of patterns,
In the input information reading step,
Using the control means, the input information input to the input item is read for each pattern,
In the energy consumption calculation step,
Based on the input information for each read pattern and the information stored in the storage means, the residential energy consumption for each pattern, or the residential energy consumption and the energy related information, Calculate
In the energy consumption display step ,
Displaying the gas charge for each pattern and the electricity charge on the display means so as to be comparable;
Residential energy calculation method. It is the energy calculation method for houses of Claim 3,
When input including selection of the type of the hot water supply facility is possible,
The types of hot water supply facilities include a combined heat and power system,
The storage means stores the power generation efficiency and heat recovery efficiency of the combined heat and power system corresponding to the combined heat and power system,
When the combined heat and power system is input from the hot water supply facility,
In the energy consumption calculation step,
Based on the power generation efficiency and the heat recovery efficiency, the gas consumption and the power consumption, each of the primary energy consumption that is the energy consumption of each of the gas supply source and the power supply source, or the Either the total amount of primary energy consumption, or carbon dioxide emissions from each of the gas supply source and the power supply source, or carbon dioxide emissions from the house, or the total amount of carbon dioxide emissions, is the minimum. Calculate the operation plan of the combined heat and power system,
In the energy consumption display step,
Displaying the calculated operation plan on the display means;
Residential energy calculation method. It is the energy calculation method for houses of Claim 4, Comprising:
When input including selection of the type of the hot water supply facility is possible,
The types of hot water supply facilities include a combined heat and power system,
The storage means stores the power generation efficiency and heat recovery efficiency of the combined heat and power system corresponding to the combined heat and power system,
When the combined heat and power system is input from the hot water supply facility,
In the energy consumption calculation step,
Based on the power generation efficiency and the heat recovery efficiency, the gas consumption and the power consumption, and the energy contract information, a gas charge and an electricity charge are selected from the gas supply source and the power supply source. A contract with the gas supplier and a contract with the power supplier where the payment amount that is the sum is the cheapest, or a contract with a predetermined number of the gas supplier and a contract with the power supplier in order from the lowest payment amount For each, calculate the operation plan of the combined heat and power system with the least amount of payment,
In the energy consumption display step,
Displaying the calculated operation plan on the display means;
Residential energy calculation method. It is the energy calculation method for houses as described in any one of Claims 1-7,
At least one of the hot water supply facility, the heating facility, and the bathroom heating facility can be input including selection of two or more types of heating related facilities from two or more different types of heating related facilities,
In the energy consumption calculation step,
Calculate the residential energy consumption for each of the two or more input heating-related facilities,
In the energy consumption display step,
Displaying each of the residential energy consumption calculated for each of the two or more input heating-related facilities on the display means so as to be comparable;
Residential energy calculation method. It is the energy calculation method for houses as described in any one of Claims 1-8,
The control means includes
When calculating the residential energy consumption in the consumption energy calculation step, or the residential energy consumption and the consumption energy related information,
Based on the member behavior information, the inputted hot water filling frequency, and the inputted cooking frequency, a water usage amount and a water rate corresponding to the water usage amount are obtained,
When displaying at least one of the residential energy consumption amount or the energy consumption related information on the display means in the consumption energy display step, the water usage amount and the water charge are added to the display.
Residential energy calculation method. It is the energy calculation method for houses as described in any one of Claims 1-9,
The control means includes
When calculating the residential energy consumption in the consumption energy calculation step, or the residential energy consumption and the consumption energy related information,
When at least one of water-saving equipment including a water-saving shower head that reduces the amount of tap water used or hot water-saving equipment including a faucet with a water-saving lever that reduces the frequency of hot water supply is input or not. For each of the housing energy consumption, or the housing energy consumption and the energy related information,
When at least one of the water-saving device or the hot water-saving device is input when displaying at least one of the residential energy consumption or the energy-related information on the display means in the energy consumption display step, and If you don't enter, it will be displayed so that it can be compared.
Residential energy calculation method. The input means, the display means, the control means, and the storage means,
It calculated | required based on the said input information input from the said input means, and the information memorize | stored in the said memory | storage means using the energy calculation method for houses as described in any one of Claims 1-10. Displaying at least one of the residential energy consumption amount or the energy consumption related information on the display means;
Residential energy calculation system.