JP2015014384A - Prediction utility cost display system and program, and comfort level display system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that when plural air conditioners are arranged in an air conditioning space, a user cannot easily grasp which air conditioner is best for high energy saving performance.SOLUTION: A display system (prediction utility cost display system) calculates prediction utility costs for each or a combination of plural air conditioners arranged in an air conditioning space, on the basis of at least one of the scheduled operation time and operation range of the air conditioner. Then, the display system displays the lowest prediction utility cost among the plural calculated utility costs, and the air conditioner corresponding to the prediction utility cost, on a display screen 10.

Description

  The present invention relates to an expected utility cost display system and an expected utility cost display program for displaying an expected utility cost of an air conditioner, and a comfort level display system and a comfort level display program for displaying the comfort level of an air conditioner.

  Some conventional air conditioners calculate an expected electricity bill (expected utility cost) from the predicted power consumption and the unit price of electricity charge, and display the calculated expected electricity bill on a display screen of a remote controller.

JP 2010-175102 A

  Due to the recent increase in energy conservation, there are multiple air conditioners (for example, air conditioners, fan heaters, electric stoves, hot carpets, kotatsu, etc. in the case of heating devices) in an air conditioned space. There is a need for the user to know whether using an air conditioner is the most energy efficient. However, in the conventional air conditioner, there is a guideline of power consumption in the specifications of each air conditioner, etc., or the expected utility cost is displayed like the above air conditioner. In order to grasp whether the energy saving performance is the highest in use, the user must memorize the power consumption standard of each air-conditioning device and the expected utility cost and compare the energy saving performance by the user himself / herself. For this reason, there is a problem that the user cannot easily grasp which air-conditioning device is the most energy efficient.

  In addition, when a plurality of air conditioners are arranged in an air conditioned space, there is a need for the user to know which air conditioner is most comfortable to use. However, since the comfort level of each air conditioner cannot be compared with the conventional air conditioner, there is a problem that the user cannot easily know which air conditioner is most comfortable to use.

  Accordingly, an object of the present invention is to provide an expected utility cost display system and an expected utility cost display program that can easily grasp the air-conditioning equipment having the highest energy saving performance.

  Moreover, the objective of this invention is providing the comfort display system and comfort display program which can grasp | ascertain easily the air conditioning apparatus with the highest comfort.

  An expected utility cost display system according to a first aspect of the present invention includes an air conditioner storage unit that stores a plurality of air conditioners arranged in an air conditioned space, and an operation information storage that stores at least one of a scheduled operation time and an operation range of the air conditioner. And an expected light heat for each or a combination of a plurality of air conditioners stored in the air conditioner storage unit based on at least one of a scheduled operation time and an operation range of the air conditioner stored in the operation information storage unit A first expected utility cost calculating means for calculating costs, a lowest expected utility cost among a plurality of expected utility costs calculated by the first expected utility cost calculating means, and an air conditioner corresponding to the expected utility cost. And display means for displaying on the display screen.

  The expected utility cost display program according to the fifth invention is an expected utility cost display program for displaying the expected utility cost of the air conditioner, and the computer is based on at least one of the scheduled operation time and the operation range of the air conditioner, A first expected utility cost calculation means for calculating an expected utility cost for each of a plurality of air conditioners or a combination thereof; and the lowest expected utility cost among the expected utility costs calculated by the first expected utility cost calculation means; It is characterized by functioning as information supply means for supplying information about the air conditioner corresponding to the expected utility cost to the terminal device.

  In the expected utility cost display system and the expected utility cost display program, the expected utility cost for each of the plurality of air conditioners or a combination thereof is calculated based on at least one of the scheduled operation time and the operation range of the air conditioner, Since the lowest expected utility cost and the air conditioner corresponding to the estimated utility cost are displayed on the display screen, the user can easily grasp the most energy efficient air conditioner.

  The expected utility cost display system according to a second aspect of the invention is the expected utility cost display system according to the first aspect of the invention, wherein the operation information storage means stores the scheduled operation time of the air conditioner, and the operation information storage means The second expected light heat for calculating the expected light and heat cost at the predetermined time for each of or a combination of the plurality of air conditioners stored in the air conditioner storage means based on the predetermined time of the start of the scheduled operation time stored in Cost calculation means, wherein the display means includes the lowest expected utility cost calculated by the first expected utility cost calculation means and an air conditioner corresponding to the expected utility cost, and the second The lowest expected utility cost calculated by the expected utility cost calculating means and an air conditioner corresponding to the expected utility cost are displayed on the display screen. .

  In this expected utility cost display system, the lowest expected utility cost among a plurality of expected utility costs calculated based on at least one of the scheduled operation time and operating range of the air conditioner and an air conditioner corresponding to the expected utility cost, The lowest expected utility cost calculated based on the predetermined start time of the scheduled operation time and the air conditioning equipment corresponding to the estimated utility cost are displayed on the display screen. When a plurality of air conditioners are operated in combination at a predetermined start time, the user can easily grasp the air conditioner with the highest energy saving performance.

  An expected utility cost display system according to a third aspect of the present invention is the expected utility cost display system according to the first or second aspect of the invention, wherein the display means is a plurality of expected utility heat calculated by the first expected utility cost calculation means. Expenses and air-conditioning equipment respectively corresponding to the plurality of expected utility expenses are displayed on the display screen.

  In this expected utility cost display system, the calculated plurality of expected utility costs and the air conditioning equipment corresponding to each of the plurality of expected utility costs are displayed. Therefore, the expected utility cost for each of the plurality of air conditioning equipments or a combination thereof is displayed. Can be grasped.

  An expected utility cost display system according to a fourth aspect of the present invention is the expected utility cost display system according to the third aspect of the invention, wherein the display means predicts in order from the lowest expected utility cost calculated by the first expected utility cost calculation means. A utility cost and an air conditioner corresponding to the expected utility cost are displayed on the display screen.

  In this expected utility cost display system, the expected utility cost and the air conditioner corresponding to the expected utility cost are displayed in order from the lowest expected utility cost, so that the user can easily grasp the air conditioner with the lower expected utility cost.

  In the comfort level display system according to the sixth aspect of the invention, the air conditioner storage means for storing a plurality of air conditioners arranged in the air conditioned space, and the operation information storage means for storing at least one of the scheduled operation time and the operation range of the air conditioner. And the comfort level of each of the plurality of air conditioners stored in the air conditioner storage unit or a combination thereof based on at least one of the scheduled operation time and the operation range of the air conditioner stored in the operation information storage unit First comfort level calculation means for calculating, and display means for displaying on the display screen the highest comfort level among the plurality of comfort levels calculated by the first comfort level calculation means and the air conditioning equipment corresponding to the comfort level It is characterized by providing.

  A comfort level display program according to a tenth aspect of the present invention is a comfort level display program for displaying the comfort level of an air conditioner, wherein the computer is operated based on at least one of a scheduled operation time and an operation range of the air conditioner. First comfort level calculation means for calculating the comfort level for each of the devices or a combination thereof, the highest comfort level among the comfort levels calculated by the first comfort level calculation means, and an air conditioning device corresponding to the comfort level It is characterized by functioning as information supply means for supplying information on the terminal device to the terminal device.

  In this comfort level display system and comfort level display program, the comfort level for each of or a combination of a plurality of air conditioners is calculated and calculated based on at least one of the scheduled operation time and the operation range of the air conditioners. Since the highest comfort level among the plurality of comfort levels and the air conditioner corresponding to the comfort level are displayed on the display screen, the user can easily grasp the air conditioner with the highest comfort level.

  A comfort level display system according to a seventh aspect of the present invention is the comfort level display system according to the sixth aspect of the present invention, wherein the operation information storage means stores a scheduled operation time of the air conditioner and stores it in the operation information storage means. Second comfort level calculating means for calculating the comfort level at the predetermined time for each of the plurality of air conditioners stored in the air conditioner storage means or a combination thereof, based on the predetermined time for starting the scheduled operation time. The display means is calculated by the second comfort level calculating means and the air conditioner corresponding to the highest comfort level among the plurality of comfort levels calculated by the first comfort level calculating means and the comfort level. The highest comfort level among a plurality of comfort levels and an air conditioner corresponding to the comfort level are displayed on the display screen.

  In this comfort level display system, the highest comfort level among a plurality of comfort levels calculated based on at least one of the scheduled operating time and operating range of the air conditioning equipment, the air conditioning equipment corresponding to the comfort level, and the scheduled operating time Among the plurality of comfort levels calculated based on the predetermined start time, the highest comfort level and the air conditioner corresponding to the comfort level are displayed on the display screen. The user can easily grasp the air conditioner with the highest degree of comfort when operating with other air conditioners.

  A comfort level display system according to an eighth aspect of the present invention is the comfort level display system according to the sixth or seventh aspect, wherein the display means includes a plurality of comfort levels calculated by the comfort level calculation means, and a plurality of the comfort levels. An air conditioner corresponding to each comfort level is displayed on the display screen.

  In this comfort level display system, a plurality of calculated comfort levels and air conditioners corresponding to the plurality of comfort levels are displayed, so that the comfort level of each of the plurality of air conditioners or a combination thereof can be grasped.

  A comfort level display system according to a ninth aspect is the comfort level display system according to the eighth aspect, wherein the display means sets the comfort level and the comfort level in descending order of the comfort level calculated by the comfort level calculating means. A corresponding air conditioner is displayed on the display screen.

  In this comfort level display system, the comfort level and the air conditioners corresponding to the comfort level are displayed in descending order of comfort level, so that the user can easily grasp the air conditioner with high comfort level.

  As described above, according to the present invention, the following effects can be obtained.

  In the first and fifth aspects of the invention, an expected utility cost for each of the plurality of air conditioners or a combination thereof is calculated based on at least one of the scheduled operation time and operation range of the air conditioner, and the calculated plurality of Since the lowest expected utility cost and the air conditioner corresponding to the expected utility cost are displayed on the display screen, the user can easily grasp the most energy efficient air conditioner.

  In 2nd invention, the air conditioner corresponding to the lowest estimated utility cost and the estimated utility cost among the plurality of expected utility costs calculated based on at least one of the scheduled operation time and the operation range of the air conditioner, and the scheduled operation The lowest expected utility cost calculated based on the predetermined time at the start of the time and the air conditioner corresponding to the expected utility cost are displayed on the display screen. When a plurality of air conditioners are used in combination for a predetermined time, the user can easily grasp the air conditioner with the highest energy saving performance.

  In the third aspect of the invention, the calculated plurality of estimated utility costs and the air conditioners corresponding to the plurality of estimated utility costs are displayed, so that the estimated utility costs for each of the plurality of air conditioners or a combination thereof are grasped. it can.

  In the fourth invention, since the expected utility cost and the air conditioner corresponding to the expected utility cost are displayed in order from the lowest expected utility cost, the user can easily grasp the air conditioner with the lower expected utility cost.

  In the sixth and tenth inventions, the comfort level for each of the plurality of air conditioners or a combination thereof is calculated based on at least one of the scheduled operation time and the operation range of the air conditioners, and the calculated plurality of comforts Since the highest comfort level and the air conditioning equipment corresponding to the comfort level are displayed on the display screen, the user can easily grasp the air conditioning equipment with the highest comfort level.

  In the seventh invention, the air conditioning device corresponding to the highest comfort level and the comfort level calculated from at least one of the scheduled operation time and the operation range of the air conditioner, and the start of the planned operation time The highest comfort level among the multiple comfort levels calculated based on the predetermined time and the air conditioner corresponding to the comfort level are displayed on the display screen. When operating with an air conditioner, the user can easily grasp the air conditioner with the highest degree of comfort.

  In the eighth aspect, since the calculated plurality of comfort levels and the air conditioners corresponding to the plurality of comfort levels are displayed, the comfort levels of each of the plurality of air conditioners or a combination thereof can be grasped.

  In the ninth aspect, since the comfort level and the air conditioner corresponding to the comfort level are displayed in descending order of comfort level, the user can easily grasp the air conditioner with high comfort level.

It is a figure which shows the air-conditioning information display system which concerns on embodiment of this invention. It is a figure which shows the list of the some air conditioning apparatus arrange | positioned in the air conditioned space. It is a figure which shows the information database of the air conditioning apparatus memorize | stored in the server. It is explanatory drawing explaining the calculation method of a comfort level. It is explanatory drawing explaining the calculation method of a comfort level. It is explanatory drawing explaining operation which displays air-conditioning information. It is a figure which shows the display screen on which the air-conditioning information was displayed. It is a flowchart which shows operation | movement of an air-conditioning information display system. It is a figure which shows the 1st modification of the display screen on which the air conditioning information was displayed. It is a figure which shows the 2nd modification of the display screen on which the air conditioning information was displayed.

  Hereinafter, embodiments of the display system 1 (expected utility cost display system, comfort level display system) according to the present invention will be described with reference to the drawings.

[Overall configuration of display system 1]
The display system 1 of the present embodiment calculates an expected utility cost and comfort level for each of or a combination of a plurality of air conditioners arranged in an air-conditioned space, and has the lowest expected utility cost and the corresponding air conditioner, and This is a display system that displays the highest comfort level and the corresponding air conditioner on the display screen. For example, in the case of heating operation, when a plurality of heating devices (for example, an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu) are arranged in the air-conditioned space, each of the heating devices or a combination thereof The expected utility cost and comfort level are calculated to display which heating equipment or combination thereof has the lowest utility cost or the highest comfort level. As shown in FIG. 1, the display system 1 includes a terminal device 2 and a server 3 that communicates information with the terminal device 2.

(Terminal device 2)
The terminal device 2 is a liquid crystal terminal such as a smartphone, and includes a display screen 10 and a control unit 20. The control unit 20 includes a CPU (Central Processing Unit) which is an arithmetic processing unit, a control program executed by the CPU and a ROM (Read Only Memory) in which data used for the control program is stored, and data when the program is executed. RAM (Random Access Memory) for temporarily storing. This control program is downloaded to the terminal device 2 using communication means such as a network. By executing this control program, it is possible to cause the terminal device 2 to exhibit functions such as the storage unit 22, the operation detection unit 25, the display unit 26, and the communication unit 27. Alternatively, the control program may be installed from a recording medium such as a CD or a DVD.

  The storage unit 22 includes an air conditioner storage unit 23 (air conditioner storage unit) and an operation information storage unit 24 (operation information storage unit). The air conditioner storage unit 23 stores a plurality of air conditioners together with an air conditioned space in which the air conditioners are arranged. In this embodiment, as shown in FIG. 2, an air conditioner (air conditioner), a fan heater, an electric stove, a hot carpet, a kotatsu, etc. are arranged in the living room, and an air conditioner, a hot carpet, and an air purifier are arranged in the bedroom. Is stored in the air conditioner storage unit 23. These air conditioners are air conditioners owned by the user, for example. When the user inputs information on the air conditioner by operating the display screen 10, the information on the air conditioner is stored in the air conditioner storage unit 23. The air conditioner information includes, in addition to the air conditioning space in which the air conditioner is arranged, the category of the air conditioner (heating device, cooling device, dehumidifying device, etc.), model name, and the like. In the present invention, the air conditioning device is a general term for devices that perform air conditioning such as a heating device, a cooling device, a dehumidifying device, a humidifying device, and an air purifying device. Examples of the heating device include an air conditioner, a fan heater, an electric stove, a hot carpet, a kotatsu, and a gas stove. Examples of the cooling device include an air conditioner and a fan.

  The operation information storage unit 24 stores information about an air-conditioned space to be air-conditioned, an operation purpose, an expected utility cost, and a scheduled operation time and an operation range used when calculating comfort. When the user selects a predetermined option from a plurality of options displayed on the display screen 10, the driving information is stored in the driving information storage unit 24.

  The storage unit 22 includes an expected utility cost and comfort level for each of the plurality of air conditioners supplied from the communication unit 35 of the server 3 or a combination thereof, and an air conditioning device corresponding to the expected utility cost and comfort level. Store information about.

  The operation detection unit 25 detects an operation when the user touches the display screen 10 and performs an operation of the air conditioner displayed on the display screen 10. Information about the operation detected by the operation detection unit 25 is stored in the storage unit 22, and then supplied to the air conditioner capable of information communication with the terminal device 2 via the communication unit 27.

  The display unit 26 displays all the expected utility costs and comfort levels of each of the plurality of air conditioners supplied from the communication unit 35 of the server 3 or a combination thereof, and the air conditioners corresponding to the expected utility costs and comfort levels. Display on the screen 10. Therefore, the display unit 26 displays on the display screen 10 the lowest expected utility cost among the plurality of expected utility costs and the air conditioner corresponding to the expected utility cost. In addition, the highest comfort level among the plurality of comfort levels and the air conditioner corresponding to the comfort level are displayed on the display screen 10. The display unit 26 displays on the display screen 10 in descending order of comfort.

  The communication unit 27 can supply information from the terminal device 2 to the server 3 and can receive information supplied from the server 3 or the network (Internet). The communication unit 27 may be, for example, a wireless LAN, ZigBee, bluetooth, optical communication, or the like. For example, the communication unit 27 supplies the server 3 with information about a plurality of air-conditioning devices stored in the air-conditioning device storage unit 23, model names, air-conditioning spaces in which the air-conditioning devices are arranged, and categories of the air-conditioning devices. In addition, the communication unit 27 supplies the server 3 with information on the air-conditioned space to be air-conditioned, the operation purpose, the scheduled operation time, and the operation range stored in the operation information storage unit 24. In addition, the communication unit 27 includes information on the expected utility cost and the comfort level of each of the plurality of air conditioning devices or the combination thereof from the communication unit 35 of the server 3 and the air conditioning device corresponding to the expected utility cost and comfort level. Receive.

(Server 3)
The server 3 has a server control unit 30. The server control unit 30 includes a CPU (Central Processing Unit) that is an arithmetic processing device, a ROM (Read Only Memory) that stores a control program executed by the CPU and data used for the control program, and a program execution time. It has a RAM (Random Access Memory) for temporarily storing data. This control program is downloaded to the server 3 using communication means such as a network. By executing this control program, the storage unit 31, the air conditioner selection unit 32, the expected utility cost calculation unit 33 (first expected utility cost calculation means), and the comfort level calculation unit 34 (first comfort level calculation) are stored in the server 3. Means), the communication unit 35 (information supply means) and the like can be exhibited. Alternatively, the control program may be installed from a recording medium such as a CD or a DVD.

  The memory | storage part 31 memorize | stores the information database in which the information about the energy consumption, capability, etc. for every air conditioner and the air conditioner was memorize | stored. In this information database, as shown in FIG. 3, air conditioning equipment, model name, energy used at startup (within 15 minutes from startup) and stable (after 15 minutes from startup), immediate effect Information on the upper limit of the size of the air-conditioning space that is highly sustainable and effective is stored. In the information database shown in FIG. 3, for example, information on three types of air conditioners is stored, but in an actual information database, information on a large number of air conditioners of each company type is stored.

Here, in the case of an air conditioner that uses only electricity, such as an air conditioner, for example, the energy used means the power used (kw), and corresponds to, for example, the power consumption described in the specifications of the air conditioner. In the case of an air conditioner that uses electricity and kerosene, such as a fan heater or an electric heater, for example, it means the power used (kw) and the amount of kerosene used per unit time (L). In the case of an air conditioner that uses gas, such as a gas stove, it means the gas used (m ³ ). Immediate effect is, for example, an evaluation of the speed of time until the air-conditioned space reaches the target air-conditioning state. Sustainability is, for example, the state after the air-conditioned space reaches the target air-conditioning state. This is the evaluation of sustainability. Various types of information stored in the information database may be automatically acquired from a database on a network (such as a website of a company that sells each air conditioner), or may be input by a user. May be.

  In addition, the storage unit 31 stores information about a plurality of air conditioning devices, model names, air conditioning spaces in which the air conditioning devices are arranged, and categories of the air conditioning devices supplied from the communication unit 27 of the terminal device 2. Similarly, the information about the air-conditioned space to be conditioned, the operation purpose, the scheduled operation time, and the operation range supplied from the communication unit 27 of the terminal device 2 is stored.

  The air-conditioning equipment selection unit 32 selects an air-conditioning equipment that calculates an expected utility cost and a comfort level from a plurality of air-conditioning equipment based on information about the air-conditioned space to be air-conditioned and the operation purpose. For example, when the air-conditioned space to be air-conditioned is a living room and the operation purpose is a heating operation, the air-conditioning equipment corresponding to “living” and “heating” from a plurality of air-conditioning equipment shown in FIG. , Electric stove, hot carpet, and kotatsu (all model name A).

  The expected utility cost calculation unit 33 (first expected utility cost calculation means) is configured to select each of the plurality of air conditioning devices selected by the air conditioning device selection unit 32 based on the information on the scheduled operation time and the energy used in the information database, or its Calculate the expected utility cost for the combination. Specifically, the expected utility cost for each of the plurality of air conditioners selected by the air conditioner selection unit 32 is calculated, and the expected utility cost for the combination of the air conditioner and one other air conditioner is calculated. For example, when the air conditioner selected by the air conditioner selecting unit 32 is an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A), the following nine expected utility costs are calculated. That is, the expected utility cost for each of the air conditioner, fan heater, electric stove, hot carpet, kotatsu, air conditioner and fan heater, air conditioner and electric stove, air conditioner and hot carpet, air conditioner and kotatsu is calculated.

In the expected utility cost calculation unit 33, the planned operation time, the energy used in the information database, and the registered utility cost per hour (for example, a power charge unit price of 22 yen / kWh, a gas charge unit price of 150 yen / m ^3). From the kerosene unit price 70 yen / L), the expected utility cost is calculated. If the electricity unit price or gas unit price fluctuates over time depending on the contract plan with the power company or gas company, register the power unit price or gas unit price for each time zone, or register the contract plan. The expected utility cost is calculated at the unit price for each time period.

For example, the expected electricity cost M (yen) when the heating operation by the air conditioner (model name A) is performed for T minutes, when T ≦ 15, is the following using the power consumption energy and the unit price of power charge at startup. Calculated by (Equation 1). Further, in the case of T> 15, it is calculated by the following (Equation 2) using the power consumption energy at the start-up, the power consumption energy at the time of stabilization, and the power unit price. However, the power consumption energy at startup is X (kW), the power consumption energy at stability is Y (kW), and the power unit price E (yen / kWh). When calculating the expected utility cost for a combination of an air conditioner and one other air conditioner, calculate the expected utility cost for the air conditioner and the expected utility cost for one other air conditioner separately, and add them together. Calculate the expected utility cost.

... (Formula 1)

... (Formula 2)

  The comfort level calculation unit 34 (first comfort level calculation means) includes information about the scheduled driving time and the driving range, information about the immediate effect, sustainability of the information database, and the upper limit of the size of the air-conditioned space that is highly effective. Based on the above, the comfort level for each of or a combination of the plurality of air conditioners selected by the air conditioner selection unit 32 is calculated. Specifically, the comfort level for each of the plurality of air conditioners selected by the air conditioner selection unit 32 is calculated, and the comfort level for the combination of the air conditioner and another air conditioner is calculated. For example, when the air conditioner selected by the air conditioner selecting unit 32 is an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A), the following nine comfort levels are calculated. That is, the comfort level is calculated for each of the air conditioner, fan heater, electric stove, hot carpet, kotatsu, air conditioner and fan heater, air conditioner and electric stove, air conditioner and hot carpet, air conditioner and kotatsu.

  The comfort level calculation unit 34 evaluates the comfort level of the air conditioner by comparing the scheduled operation time with the transition time (the time for transition from the startup time to the stable time). The transition time is appropriately determined and is, for example, 15 minutes. FIG. 4A is a diagram in which the comfort level of an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A) is evaluated depending on whether or not the scheduled operation time is longer than, for example, 15 minutes. The evaluation of the comfort level is a point system, ◎ is 2P (points), ◯ is 1P, and Δ is 0P. This evaluation of comfort is based on information about the immediate effect and sustainability of the information database. For example, an air conditioner (model name A) will be described as an example. As shown in FIG. 3, the air conditioner (model name A) has poor immediate effect (evaluation Δ) and good sustainability (evaluation ◎). Therefore, as shown in FIG. 4A, when the scheduled driving time is within 15 minutes, that is, when the immediate effect greatly affects the comfort level, the evaluation becomes low (evaluation Δ), and the comfort level is 0P. It becomes. On the other hand, when the scheduled driving time exceeds 15 minutes, that is, when the sustainability greatly affects the comfort level, the evaluation becomes high (evaluation ◎), and the comfort level becomes 2P.

  Further, the comfort level calculation unit 34 evaluates the comfort level of the air conditioner depending on whether the operation range is narrow or wide. FIG. 4B is a diagram in which the comfort level of an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A) is evaluated depending on whether the operation range is a spot (narrow area) or the entire room (wide area). It is. The evaluation of the comfort level is a point system, where ◎ is 2P, ◯ is 1P, and Δ is 0P. This evaluation of the comfort level is based on information on the immediate upper limit of the information database, the sustainability, and the upper limit of the size of the air-conditioned space that is highly effective. For example, an air conditioner (model name A) will be described as an example. The air conditioner (model name A) is not effective immediately (evaluation Δ), but has good sustainability (evaluation ◎), and the upper limit of the size of the air-conditioning space that is highly effective. Is also wide. Therefore, as shown in FIG.4 (b), when a driving range is a spot (narrow area), evaluation is normal (evaluation (circle)) and a comfort level is 1P. On the other hand, when the operation range is the entire room (wide area), the upper limit of the size of the air-conditioning space that has good sustainability and high effect is wide, so the evaluation is high (evaluation ◎), and the comfort level is 2P. .

  And this comfort level calculation part 34 calculates each comfort level of an air-conditioning apparatus by adding the evaluation result based on scheduled driving | running time, and the evaluation result based on driving range. For example, when the scheduled operation time is 1 hour (over 15 minutes) and the operation range is the entire room, the comfort level of the air conditioner and the fan heater is 4P, and the comfort level of the hot carpet is as shown in FIG. 2P, the comfort level of the kotatsu is 1P, and the comfort level of the electric stove is 0P. FIG. 5 is a quick reference table of the comfort level obtained by adding the evaluation result based on the scheduled driving time and the evaluation result based on the driving range.

In addition, the comfort level calculation unit 34 calculates the comfort level for the combination of the air conditioner and another air conditioner by the following (formula 3). For example, when the scheduled operation time is 1 hour (more than 15 minutes) and the operation range is the entire room, the comfort level of the air conditioner and the fan heater is half the comfort level of the air conditioner (4P) and the comfort level of the fan heater. This is the sum of (2P) and 6P.
(Comfort level of combination of an air conditioner and one other air conditioner) = (Comfort level of air conditioner) + 1/2 × (Comfort level of other air conditioner) (Equation 3)

  The communication unit 35 can supply information from the server 3 to the terminal device 2 and can receive information supplied from the terminal device 2 or the network (Internet). The communication unit 35 may be, for example, a wireless LAN, ZigBee, bluetooth, optical communication, or the like.

[Display contents displayed on the display screen 10]
Next, the display content displayed on the display screen 10 of the terminal device 2 will be described with reference to FIGS. 6 and 7.

  As shown in FIG. 6A, when the control program downloaded to the terminal device 2 is executed, an air-conditioned space selection unit 11 that selects an air-conditioned space to be air-conditioned, and an operation purpose selection unit 12 that selects an operation purpose The timer selection unit 13 that selects ON / OFF of the timer is displayed on the display screen 10. When the user selects the conditioned space selection unit 11, a screen for selecting the conditioned space is displayed on the display screen 10 although illustration is omitted. When the user selects an air-conditioned space to be air-conditioned from a plurality of air-conditioned spaces displayed on the display screen 10, the selected air-conditioned space is displayed on the display screen 10. FIG. 6A shows an example in which the user selects a living room from a plurality of air-conditioned spaces (for example, a living room and a bedroom).

  The driving purpose selection unit 12 displays icons corresponding to a plurality of driving purposes. When the user selects an icon corresponding to a desired driving purpose from these icons, the display screen 10 is switched to the scheduled driving time selection screen as shown in FIG. FIG. 6A shows an example in which the user selects the heating operation. When the icon displayed as “automatic” is selected from the driving purpose selection unit 12, the communication unit 27 of the terminal device 2 displays the weather information, the outside air temperature / humidity information, the indoor temperature / humidity information, etc. received from the network or the like. Based on this, the control unit 20 automatically determines the driving purpose.

  The timer selection unit 13 can select ON / OFF of the timer. When the timer is set to ON, the operation of the air conditioner capable of information communication with the terminal device 2 is stopped when the planned operation time selected by the planned operation time selection unit 14 has elapsed. When the timer is set to OFF, the operation of the air conditioner continues even after the scheduled operation time has elapsed.

  The scheduled operation time selection unit 14 can select the scheduled operation time. When the user selects a scheduled operation time from a plurality of times displayed on the planned operation time selection unit 14 and selects “next” in the upper right of the display screen 10, as shown in FIG. 10 switches to the operation range selection screen 15. FIG. 6B shows an example in which the user selects one hour from a plurality of scheduled operation times displayed on the display screen 10. In FIG. 6B, when the display screen 10 is scrolled downward, although the illustration is omitted, the scheduled operation time exceeding 3 hours is displayed (for example, 4 hours, 5 hours, 10 hours). Therefore, the user can select a scheduled operation time exceeding 3 hours. In the present embodiment, the user selects the scheduled operation time by the scheduled operation time selection unit 14, but the user may be able to input a desired scheduled operation time.

  On the operation range selection screen 15, the operation range of the air conditioning equipment desired by the user can be selected. FIG. 6C shows an example in which a spot and the entire room are displayed as the operation range, and the user selects the entire room. For example, in the heating operation, when it is desired to warm only a local range, a spot is selected, and when it is desired to warm the entire room, the entire room is selected. When the user selects the operating range of the air conditioner and selects “next” in the upper right of the display screen 10, the air conditioning selected by the air conditioner selecting unit 32 in the expected utility cost calculation unit 33 and the comfort level calculation unit 34. Expected utility costs and comfort for each or a combination of devices is calculated.

  When the driving range is selected on the driving range selection screen 15, as shown in FIGS. 7A and 7B, the air conditioning information display unit 16 on which the air conditioning information such as the comfort level and the estimated utility cost is displayed, An operation start selection unit 17 for selecting start is displayed on the display screen 10.

  The air conditioning information display unit 16 includes the expected utility cost calculated by the expected utility cost calculation unit 33, the comfort level calculated by the comfort level calculation unit 34, and the air conditioning equipment corresponding to the expected utility cost and comfort level, The model name is displayed. The comfort level is displayed by, for example, the number of heart marks. If one of the heart marks is black, 1P, if the half of the heart mark is black, 0.5P, if the heart mark is white Indicates 0P. Therefore, when all (six) heart marks are painted black, the comfort level is 6P.

  7A and 7B, a total of nine air-conditioning information display sections 16 are displayed. That is, the expected utility costs and comfort for each of the following nine types of air conditioner, fan heater, electric stove, hot carpet, kotatsu, air conditioner and fan heater, air conditioner and electric stove, air conditioner and hot carpet, air conditioner and kotatsu, The air conditioner corresponding to the expected utility cost and comfort level, and the model name are displayed. In addition, because the size of the display screen 10 is limited, only up to five air-conditioning information display units 16 are displayed, and the remaining four are displayed when the user touches the display screen 10 and scrolls down. (When the screen shown in FIG. 7A is scrolled down, the screen shown in FIG. 7B is obtained).

  Of the nine air conditioning information display sections 16, the air conditioning information display section 16 in which the highest comfort level is displayed is the air conditioning information display section 16a shown in FIG. 7A, and the air conditioning information in which the lowest expected utility cost is displayed. The display unit 16 is the air conditioning information display unit 16b shown in FIG. The highest comfort level is 6P, and the air conditioner corresponding to the comfort level is a combination of an air conditioner and a fan heater. The lowest expected utility cost is 4 yen, and the air conditioning equipment corresponding to the expected utility cost is Kotatsu. The air conditioning information display unit 16a displaying the highest comfort level and the air conditioning information display unit 16b displaying the lowest expected utility cost are displayed on different screens, but this is simply the size of the display screen 10. It is assumed that they are displayed on the same display screen. Therefore, the user can grasp simultaneously the air-conditioning equipment with the highest energy saving and the air-conditioning equipment with the highest comfort level. The nine air conditioning information display units 16 are displayed in descending order of comfort. For example, in FIGS. 7A and 7B, the comfort levels are displayed from the top in descending order. Therefore, the user can easily grasp the air conditioner having a high degree of comfort.

  Each of the air conditioning information display units 16 is provided with an operation selection unit 18 (marked with a square) for selecting an air conditioning device to be operated. As shown in FIG. 7 (a), when the user touches the air conditioning information display unit 16, a “re” mark indicating that it is selected in the □ mark of the operation selection unit 18 is displayed, and the air conditioner to be operated is displayed. Selected. For example, in FIG. 7A, an air conditioner and a hot carpet are selected. When the user selects the operation start selection unit 17 in a state where the air conditioner to be operated is selected, the air conditioner to be operated (the air conditioner and the hot carpet in FIG. 7A) can communicate information with the terminal device 2. In this case, the operation of the air conditioner to be operated is started.

[Operation of display system 1]
Next, the operation of the display system 1 will be described with reference to FIG.

  When the air-conditioned space to be air-conditioned is selected by the air-conditioned space selection unit 11, the air-conditioned space to be air-conditioned is stored in the operation information storage unit 24 (S1). When the driving purpose is selected by the driving purpose selection unit 12, the driving information is stored in the driving information storage unit 24 (S2). When the scheduled operation time is selected by the scheduled operation time selection unit 14, the scheduled operation time is stored in the operation information storage unit 24 (S3). Further, when the operation range is selected on the operation range selection screen 15, the operation range is stored in the operation information storage unit 24 (S4).

  Next, the air-conditioning device selection unit 32 selects an air-conditioning device that calculates the expected utility cost and comfort from a plurality of air-conditioning devices based on the air-conditioned space to be air-conditioned and the operation purpose (S5). In the present embodiment, as shown in FIG. 6A, “living room” is selected as the air-conditioned space to be air-conditioned, and “heating operation” is selected as the operation purpose. Air conditioners corresponding to “living room” and “heating”, that is, air conditioners, fan heaters, electric heaters, hot carpets, and kotatsu (all model names A) are selected from the devices.

  Next, the expected utility cost calculation unit 33 estimates the expected utility cost for each of or a combination of the plurality of air conditioning devices selected by the air conditioning device selection unit 32 based on the information on the scheduled operation time and the energy used in the information database. Is calculated (S6). In this embodiment, the expected utility costs are as follows for each of the following nine types: air conditioner, fan heater, electric stove, hot carpet, kotatsu, air conditioner and fan heater, air conditioner and electric stove, air conditioner and hot carpet, air conditioner and kotatsu. Calculated.

  Next, the comfort level calculation unit 34 performs air conditioning based on the information about the scheduled operation time and the operation range and the information on the immediate effect, sustainability, and the upper limit of the size of the air-conditioned space that is highly effective. The comfort level for each of the plurality of air-conditioning devices selected by the device selection unit 32 or a combination thereof is calculated (S7). In this embodiment, the expected utility costs are as follows for each of the following nine types: air conditioner, fan heater, electric stove, hot carpet, kotatsu, air conditioner and fan heater, air conditioner and electric stove, air conditioner and hot carpet, air conditioner and kotatsu. Calculated.

  Next, the display unit 26 displays all of the plurality of expected utility costs and comfort levels calculated by the expected utility cost calculation unit 33 and the comfort level calculation unit 34, and the air conditioning equipment corresponding to the expected utility cost and comfort level. They are displayed on the display screen 10 in descending order of comfort (S8). In the present embodiment, as shown in FIGS. 7A and 7B, the display screen displays all of the above nine expected utility costs and comfort levels and the air conditioning equipment corresponding to the expected utility costs and comfort levels. 10 is displayed.

<Characteristics of display system of this embodiment>
The display system 1 of the present embodiment has the following features.

  In the display system 1 of the present embodiment, the expected utility cost calculation unit 33 estimates the expected utility cost for each of or a combination of a plurality of air conditioners selected by the air conditioner selection unit 32 based on the scheduled operation time of the air conditioner. Is calculated, and the lowest expected utility cost and the air conditioner corresponding to the estimated utility cost are displayed on the display screen 10, so that the air conditioner with the highest energy saving can be selected. The user can easily grasp it.

  Further, in the display system 1 of the present embodiment, the predicted utility cost calculation unit 33 displays all the calculated expected utility costs and the air conditioning devices respectively corresponding to all the expected utility costs. It is possible to grasp all the expected utility costs for each of the plurality of air conditioners selected by the unit 32 or a combination thereof.

  In the display system 1 of the present embodiment, the comfort level calculation unit 34 uses the air conditioner scheduled operation time and the operation range to select each of the air conditioners selected by the air conditioner selection unit 32 or a combination thereof. Comfort level is calculated, and the highest comfort level among the calculated comfort levels and the air conditioning equipment corresponding to the comfort level are displayed on the display screen 10. Therefore, the air conditioning equipment with the highest comfort level is selected. The user can easily grasp it.

  Further, in the display system 1 of the present embodiment, the comfort level calculation unit 34 displays all the calculated comfort levels and air conditioning devices corresponding to all the comfort levels. It is possible to grasp all the comfort levels for each of the selected plurality of air conditioners or a combination thereof.

  Further, in the display system 1 of the present embodiment, the comfort level and the air conditioners corresponding to the comfort level are displayed in descending order of the comfort level, so that the user can easily grasp the air conditioner with the high comfort level.

[First Modification]
Next, a first modification of the present invention will be described with reference to FIG. In the display system according to the first modified example, the display unit (display unit) displays the expected utility cost and the comfort level and the air conditioning equipment corresponding to the expected utility cost and the comfort level in descending order of the expected utility cost. It is the same as that of the said embodiment in another point unlike embodiment. In addition, about the display system of the 1st modification which has the structure similar to the display system 1 of the said embodiment, the description is abbreviate | omitted using the same code | symbol.

  As shown in FIGS. 9A and 9B, the nine air-conditioning information display sections 16 are displayed in order from the lowest expected utility cost. For example, in FIG. 9 (a), (b), it is displayed from the top in order with low expected utility costs. Therefore, the air conditioning information display unit 16c on which the lowest expected utility cost (4 yen) and the air conditioning equipment (kotatsu) corresponding to the expected utility cost are displayed is displayed on the top of the display screen 10.

<Characteristics of Display System of First Modification>
The display system of the first modification has the following features.

  In the display system of the first modified example, the expected utility cost and the air conditioner corresponding to the expected utility cost are displayed in order from the lowest expected utility cost, so that the user can easily grasp the air conditioner with the lower expected utility cost.

[Second Modification]
Next, a second modification of the present invention will be described with reference to FIG. The display system according to the second modified example is the same as the above-described embodiment except for the functions of the expected utility cost calculation unit, the comfort level calculation unit, and the display unit. In addition, about the display system of the 2nd modification which has the structure similar to the display system 1 of the said embodiment, the description is abbreviate | omitted using the same code | symbol.

  The expected utility cost calculation unit according to the second modification includes a first expected utility cost calculation unit (first expected utility cost calculation unit) and a second expected utility cost calculation unit (second expected utility cost calculation unit). ing. The first expected utility cost calculation unit (first expected utility cost calculation means) has substantially the same configuration as the expected utility cost calculation unit 33 of the above embodiment, but the expected utility cost calculation unit 33 of the above embodiment. However, while calculating the estimated utility cost for each of the plurality of air conditioners selected by the air conditioner selection unit 32 or a combination thereof, the first expected utility cost calculation unit according to the second modification is the air conditioner selection This is different from the above embodiment in that an expected utility cost for a combination of a plurality of air conditioners selected by the unit 32 is not calculated. Therefore, when the air-conditioning equipment selected by the air-conditioning equipment selection unit 32 is an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A), the first expected utility cost calculation unit uses an air conditioner and a fan heater. Calculate the expected utility costs for electric stoves, hot carpets, and kotatsu.

The second expected utility cost calculation unit (second expected utility cost calculation means) is a predetermined time for each of the plurality of air conditioners selected by the air conditioner selection unit 32 based on the predetermined time at which the scheduled operation time starts. Calculate the expected utility cost at. The predetermined time is appropriately determined within a range shorter than the scheduled operation time. For example, the predetermined time is shorter than the above-described transition time (time for transition from startup to stable), for example, five minutes. In the second expected utility cost calculation unit, the predetermined time for starting the scheduled operation time, the energy used in the information database, and the registered utility cost unit price per hour (for example, power unit price 22 yen / kWh, gas unit price) 150 yen / m ³ and kerosene unit price 70 yen / L), the expected utility cost for a predetermined time is calculated.

  The comfort level calculation unit according to the second modification includes a first comfort level calculation unit (first comfort level calculation unit) and a second comfort level calculation unit (second comfort level calculation unit). The first comfort level calculation unit (first comfort level calculation means) has substantially the same configuration as the comfort level calculation unit 34 of the above embodiment, but the comfort level calculation unit 34 of the above embodiment includes an air conditioner. While the expected utility cost for each of the plurality of air conditioners selected by the selector 32 or a combination thereof is calculated, the first comfort level calculator according to the second modification is selected by the air conditioner selector 32. Further, it differs from the above-described embodiment in that an expected utility cost for a combination of a plurality of air conditioners is not calculated. Therefore, when the air conditioner selected by the air conditioner selecting unit 32 is an air conditioner, a fan heater, an electric stove, a hot carpet, and a kotatsu (all model names A), the first comfort level calculating unit includes an air conditioner, a fan heater, The comfort level is calculated for each electric stove, hot carpet, and kotatsu.

  The second comfort level calculation unit (second comfort level calculation means) is configured to determine the predetermined value for each of the plurality of air conditioners selected by the air conditioner selection unit 32 based on the predetermined time and the operation range of the scheduled operation time. Calculate comfort in time. The predetermined time is appropriately determined within a range shorter than the scheduled operation time. For example, the predetermined time is shorter than the above-described transition time (time for transition from startup to stable), for example, five minutes.

  The second comfort level calculation unit evaluates the comfort level of the air conditioner by comparing a predetermined time at the start of the scheduled operation time with a transition time (a time for shifting from the startup time to the stable time). The transition time is appropriately determined and is, for example, 15 minutes. Further, the second comfort level calculation unit evaluates the comfort level of the air conditioner depending on whether the driving range is narrow or wide. And a 2nd comfort level calculation part calculates each comfort level of an air-conditioning apparatus by adding together the evaluation result based on the predetermined time of the start of scheduled driving time, and the evaluation result based on a driving range. For example, when the predetermined start time of the scheduled operation time is 5 minutes (within 15 minutes) and the operation range is the entire room, the comfort level of the fan heater at the predetermined time is 4P, air conditioner, electric stove, hot carpet The comfort level is 2P and the comfort level of the kotatsu is 1P.

  As shown in FIG. 10, the display unit (display unit) according to the second modification includes the highest comfort level among the comfort levels for each of the air conditioners calculated by the first expected utility cost calculation unit, and the comfort level thereof. The air conditioner corresponding to the degree is displayed on the first display unit 41 above the display screen 10. As shown in FIG. 10, the highest comfort level is 4P, and the air conditioning equipment corresponding to the comfort level is an air conditioner or a fan heater. In addition, as shown in FIG. 10, the display unit includes the highest comfort level among the comfort levels for each of the air conditioners calculated by the second expected utility cost calculation unit, and an air conditioner corresponding to the comfort level. Is displayed on the second display section 42 below the display screen 10. As shown in FIG. 10, the highest comfort level is 4P, and the air conditioner corresponding to the comfort level is a fan heater.

<Characteristics of Display System of Second Modification>
The display system of the second modification has the following features.

  In the display system according to the second modified example, the comfort level calculated based on at least one of the scheduled operation time and the operation range of the air conditioner, the air conditioner corresponding to the comfort level, and the predetermined time at the start of the scheduled operation time The comfort level calculated and the air conditioner corresponding to the comfort level are displayed on the display screen 10. Therefore, when driving with a plurality of air conditioners at the predetermined time of the scheduled operation time, The user can easily grasp the air conditioning equipment having a high degree of comfort.

  Further, in the display system of the second modified example, the scheduled operation time is longer than the transition time (the time for transition from the startup time to the stable time), and the predetermined time for starting the scheduled operation time is the transition time (from the startup time to the stable time). If the air conditioning equipment is stable (after the transition time), the air conditioning equipment with a high degree of comfort and the air conditioning equipment with a high degree of comfort at the start-up time (before the transition time) User can grasp.

[Third Modification]
Next, a third modification of the present invention will be described. In the display system according to the third modification, the display unit (display unit) has the lowest expected utility cost among the expected utility costs for each of the air conditioners calculated by the first expected utility cost calculation unit, and the expected utility heat. The air-conditioning equipment corresponding to the cost is displayed on the display screen 10, and the lowest expected utility cost of each of the air-conditioning equipment calculated by the second expected utility cost calculation unit and the expected utility cost correspondence This is different from the second modification in that the air-conditioning equipment is displayed on the display screen 10, and is the same as the second modification in other points.

<Characteristics of Display System of Third Modification>
The display system of the third modification has the following features.

  In the display system of the third modified example, the expected utility cost calculated based on at least one of the scheduled operation time and the operation range of the air conditioner, the air conditioner corresponding to the expected utility cost, and a predetermined time for starting the scheduled operation time The expected utility cost calculated based on the cost and the air conditioner corresponding to the expected utility cost are displayed on the display screen 10, so that a plurality of air conditioners are operated in combination at a predetermined time at the start of the scheduled operation time. In this case, the user can easily grasp the air conditioner with the lowest expected utility cost.

  Further, in the display system of the third modified example, the scheduled operation time is longer than the transition time (the time for transition from the startup time to the stable time), and the predetermined time for starting the scheduled operation time is the transition time (from the startup time to the stable time). If the air conditioning equipment is stable (after the transition time), the air conditioning equipment has a low expected utility cost, and the air conditioning equipment has a low expected utility cost when the air conditioning equipment is started up (before the transition time). At the same time.

  As mentioned above, although embodiment of this invention was described based on drawing, it should be thought that a specific structure is not limited to these embodiment. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes meanings equivalent to the scope of claims for patent and all modifications within the scope.

  In the said embodiment, as shown to Fig.7 (a), (b), although the expected utility cost and comfort level, and the air-conditioning apparatus corresponding to the estimated utility cost and comfort level are displayed on the display screen 10, One of the expected utility cost and the comfort level may be displayed on the display screen 10. Therefore, one of the expected utility cost calculation unit 33 and the comfort level calculation unit 34 may be omitted.

  Further, in the above embodiment, all expected utility costs calculated by the expected utility cost calculation unit 33 and the air conditioners corresponding to each of the expected utility costs are displayed on the display screen 10. Some of the expected utility costs calculated by the cost calculation unit 33 and the air-conditioning equipment corresponding to each of the some expected utility costs may be displayed on the display screen 10. Therefore, for example, several expected utility costs are selected in order from the expected utility cost with the lowest expected utility cost calculated by the expected utility cost calculation unit 33, and some of the expected utility costs and some of the expected utility costs are selected. May be displayed on the display screen 10. Further, only the lowest expected utility cost calculated by the expected utility cost calculation unit 33 and the air conditioner corresponding to the expected utility cost may be displayed on the display screen 10.

  Moreover, in the said embodiment, although all the comfort levels calculated by the comfort level calculation part 34 and the air conditioning apparatus corresponding to each of all the comfort levels are displayed on the display screen 10, the comfort level calculation part 34 Some of the comfort levels calculated in (1) and air conditioners corresponding to each of the several comfort levels may be displayed on the display screen 10. Therefore, for example, several comfort levels are selected in order from the highest comfort level calculated by the comfort level calculation unit 34, and some of the comfort levels and the air conditioning equipment corresponding to the several comfort levels are selected. May be displayed on the display screen 10. Also, the highest comfort level calculated by the comfort level calculation unit 34 and only the air conditioning equipment corresponding to the comfort level may be displayed on the display screen 10.

  In the above embodiment, the expected utility cost is calculated based on the scheduled operation time of the air conditioner. However, the expected utility cost may be calculated based on the operation range of the air conditioner. For example, the energy used is determined based on the operating range (specifically, the energy used increases as the operating range increases), and the expected utility cost per unit time is calculated from the energy used and the utility cost unit price. May be. Note that the expected utility cost may be calculated based on the scheduled operating time and operating range of the air conditioner.

  In the above embodiment, the comfort level is calculated based on the scheduled operation time and the operation range of the air conditioner. However, the comfort level may be calculated based on the planned operation time or the operation range of the air conditioner.

  Moreover, in the said embodiment, the expected utility cost and the air-conditioning equipment corresponding to the estimated utility cost are displayed on the display screen 10 in the order from the lowest expected utility cost. The air conditioning equipment corresponding to the comfort level is displayed on the display screen 10, but it may not be displayed in the order from the lowest expected utility cost or the highest comfort level.

  In addition, the calculation method of the expected utility cost and the calculation method of the comfort level described in the above embodiment are examples, and the expected utility cost or the comfort level is calculated based on at least one of the scheduled operation time and the operation range of the air conditioner. If so, another calculation method may be selected.

  Moreover, in the said embodiment, although the estimated utility cost and the comfort level are displayed on the display screen 10 only about the combination of an air conditioner and one other air conditioner as a combination of a plurality of air conditioners, the combination of a plurality of air conditioners Is not limited to this. Therefore, the combination of a plurality of air conditioners may be a combination of an air conditioner and other air conditioners, or a combination of air conditioners other than an air conditioner.

  Moreover, in the said embodiment, although the estimated utility cost and comfort degree about each of several air conditioning equipment and the expected utility cost and comfort degree about the combination of several air conditioning equipment are displayed on the display screen 10, several air conditioning Expected utility costs and comfort levels for either one of the devices or a combination of a plurality of air conditioning devices may be displayed on the display screen 10.

  Moreover, in the said embodiment, although the highest comfort level is one (6P of the combination of an air conditioner and a fan heater), as shown in FIG. 10 of a 2nd modification, there may be several highest comfort levels. (4P for air conditioner or fan heater). In the above embodiment, the lowest expected utility cost is one (4 yen for kotatsu), but there may be a plurality of lowest expected utility costs.

  Moreover, in the said 2nd and 3rd modification, although the estimated utility bill about the combination of the some air conditioning equipment selected by the air conditioning equipment selection part 32 is not calculated, you may calculate. Moreover, although the comfort level about the combination of the several air conditioning equipment selected by the air conditioning equipment selection part 32 is not calculated, you may calculate.

  Moreover, in the said 2nd modification, although only the air conditioning apparatus corresponding to the highest comfort level and the comfort level was displayed on the display screen 10 among the several comfort levels calculated in the 1st comfort level calculation part, A plurality of comfort levels and air conditioning devices corresponding to the respective comfort levels may be displayed on the display screen 10. In that case, the comfort level and the air conditioning equipment corresponding to the comfort level may be displayed on the display screen 10 in descending order of comfort level. The same applies to the second comfort level calculation unit.

  In the second modified example,

  Moreover, in the said 3rd modification, only the lowest expected utility cost and the air conditioning apparatus corresponding to the estimated utility cost are displayed on the display screen 10 among several expected utility costs calculated by the 1st estimated utility cost calculation part. However, a plurality of expected utility costs and air conditioners corresponding to the plurality of expected utility costs may be displayed on the display screen 10. In this case, the expected utility cost and the air conditioning equipment corresponding to the expected utility cost may be displayed on the display screen 10 in the order of lower expected utility cost. The same applies to the second expected utility cost calculation unit.

  Moreover, in the said 2nd and 3rd modification, although the 2nd estimated utility cost calculation part is calculating the estimated utility cost based on the predetermined time of the start of scheduled operation time, The expected utility cost may be calculated based on the operating range. Therefore, “calculating the expected utility cost based on the predetermined time at the start of the scheduled operation time” means to exclude calculating the expected utility cost based on the predetermined time at the start of the scheduled operation time and the operation range. Absent.

  Moreover, in the said 2nd and 3rd modification, although the 2nd comfort level calculation part has calculated | required the estimated utility cost based on the predetermined time and driving | running | working range of the scheduled driving time start, The expected utility cost may be calculated based on the time. Therefore, “calculating the comfort level based on the predetermined time at the start of the planned driving time” does not mean to exclude calculating the comfort level based on the predetermined time at the start of the planned driving time and the driving range.

  The display system 1 according to the above embodiment includes the terminal device 2 and the server 3, but may include only the terminal device 2. Therefore, the terminal device 2 may have an expected utility cost calculation unit that calculates an expected utility cost and a comfort level calculation unit that calculates a comfort level. In this case, it is assumed that the terminal device 2 can acquire the information database via a network (Internet) or the like. Further, the display system 1 may include a server 3 and a display screen connected to the server 3. Accordingly, the server 3 stores air conditioner storage means for storing a plurality of air conditioners arranged in the air conditioned space, operation information storage means for storing the scheduled operation time and operation range of the air conditioner, expected utility costs, and comfort level. You may have the display means which displays the air-conditioning apparatus corresponding to the estimated utility bill and comfort on a display screen.

  If this invention is utilized, the air-conditioning apparatus with the highest energy-saving property can be grasped | ascertained easily. In addition, you can easily grasp the most comfortable air conditioning equipment

1 Display system (expected utility bill display system, comfort display system)
2 Terminal device 10 Display screen 23 Air conditioner storage unit (air conditioner storage means)
24 Driving information storage unit (driving information storage means)
27 Display section (display means)
33 Expected utility cost calculation unit (first expected utility cost calculation means)
34 Comfort level calculator (first comfort level calculation means)
35 Communication section (information communication means)

Claims (10)

Air-conditioning device storage means for storing a plurality of air-conditioning devices arranged in the air-conditioned space;
Operation information storage means for storing at least one of a scheduled operation time and an operation range of the air conditioner;
Based on at least one of the scheduled operating time and operating range of the air conditioning equipment stored in the operation information storage means, the expected utility cost for each of the air conditioning equipment stored in the air conditioning equipment storage means or a combination thereof is calculated. A first expected utility cost calculation means,
A display means for displaying, on a display screen, the lowest expected utility cost calculated by the first expected utility cost calculating means and an air conditioner corresponding to the expected utility cost. Expected utility bill display system. The operation information storage means stores the scheduled operation time of the air conditioner,
Based on a predetermined time at the start of the scheduled operation time stored in the operation information storage means, an expected utility cost at the predetermined time for each of the plurality of air conditioners stored in the air conditioner storage means or a combination thereof is calculated. Comprising a second expected utility cost calculation means,
The display means includes
The lowest expected utility cost calculated by the first expected utility cost calculation means and the air conditioning equipment corresponding to the expected utility cost, and the plurality of the expected energy costs calculated by the second expected utility cost calculation means 2. The expected utility cost display system according to claim 1, wherein a lowest expected utility cost and an air conditioner corresponding to the expected utility cost are displayed on the display screen. The display means includes
3. The display apparatus according to claim 1, wherein a plurality of expected utility costs calculated by the first expected utility cost calculation unit and air conditioners respectively corresponding to the plurality of expected utility costs are displayed on the display screen. The expected utility bill display system described. The display means includes
4. The expected utility cost and the air conditioning equipment corresponding to the expected utility cost are displayed on the display screen in ascending order of the expected utility cost calculated by the first expected utility cost calculating means. Expected utility cost display system. An expected utility bill display program that displays the expected utility cost of an air conditioner,
Computer
A first expected utility cost calculation means for calculating an expected utility cost for each of a plurality of air conditioners or a combination thereof based on at least one of a scheduled operation time and an operation range of the air conditioner;
Causing the terminal device to function as information supply means for supplying information about the lowest expected utility cost calculated by the first expected utility cost calculation means and the air conditioning equipment corresponding to the expected utility cost to the terminal device. An expected utility bill display program. Air-conditioning device storage means for storing a plurality of air-conditioning devices arranged in the air-conditioned space;
Operation information storage means for storing at least one of a scheduled operation time and an operation range of the air conditioner;
Based on at least one of the scheduled operation time and the operation range of the air conditioner stored in the operation information storage unit, the comfort level for each of the plurality of air conditioners stored in the air conditioner storage unit or a combination thereof is calculated. First comfort level calculating means;
A comfort level, comprising: a display unit that displays the highest comfort level among the plurality of comfort levels calculated by the first comfort level calculation unit and an air conditioner corresponding to the comfort level on a display screen. Display system. The operation information storage means stores the scheduled operation time of the air conditioner,
Based on a predetermined time for starting the scheduled operation time stored in the operation information storage means, the comfort level at the predetermined time for each of the plurality of air conditioners stored in the air conditioner storage means or a combination thereof is calculated. A second comfort level calculating means,
The display means includes
Among the plurality of comfort levels calculated by the first comfort level calculation means, the highest comfort level and the air conditioning equipment corresponding to the comfort level, and the most among the plurality of comfort levels calculated by the second comfort level calculation means The comfort level display system according to claim 6, wherein a high comfort level and an air conditioner corresponding to the comfort level are displayed on the display screen. The display means includes
The comfort level according to claim 6 or 7, wherein a plurality of comfort levels calculated by the first comfort level calculation means and air conditioning devices respectively corresponding to the plurality of comfort levels are displayed on the display screen. Degree display system. The display means includes
The comfort level display system according to claim 8, wherein comfort levels and air conditioners corresponding to the comfort levels are displayed on the display screen in descending order of the comfort levels calculated by the first comfort level calculating means. . A comfort level display program for displaying the comfort level of an air conditioner,
Computer
First comfort level calculating means for calculating a comfort level for each of a plurality of air conditioners or a combination thereof based on at least one of a scheduled operation time and an operation range of the air conditioners;
It functions as information supply means for supplying information about the highest comfort level calculated by the first comfort level calculation means and air conditioning equipment corresponding to the comfort level to the terminal device. Comfort level display program.