JPWO2021064914A1 - Parts customization device, parts customization system, parts customization method, and parts customization program - Google Patents

Abstract

The air conditioner is installed in the living room used by the user. The parts specification calculation unit (220) customizes the airflow control parts used for controlling the airflow of the air conditioner according to the user request (52) based on the user request (52) and the living room information (251). The specifications of the parts are calculated as the parts specifications (53). The user request (52) is a user request for the air flow of the air conditioner. The living room information (251) represents the situation of the living room. The device transmission unit (230) transmits the component specification (53) to the user terminal of the user.

Description

The present invention relates to a component customization device, a component customization system, a component customization method, and a component customization program.

In recent years, there has been an increasing demand for air conditioners that perform optimum air conditioning control according to the lifestyle of the user. For example, by changing the shape of the component that controls the air flow of the air conditioner, more detailed air conditioning control can be realized.

Patent Document 1 discloses that the optimum blowing characteristics are given to each room by changing the type of parts such as louvers. It is disclosed that when selling an air conditioner, several types of louvers are prepared in advance, and the optimum blowout characteristics are obtained by exchanging the louvers according to the situation of the room in which the air conditioner is installed.

Japanese Unexamined Patent Publication No. 2003-329295

Usually, in a house, the room shape or the living conditions such as installed furniture are different for each user. In this way, it is very difficult for mass-produced mass-produced products to realize optimum airflow control in an air conditioner in response to different living room conditions for each user. In Patent Document 1, several types of louvers are prepared in advance when selling an air conditioner. Then, the louvers are replaced according to the situation of the room. However, in Patent Document 1, it is only possible to select from several types of louvers, and it is not possible to realize optimum airflow control according to the living conditions. Moreover, since the user does not have several types of louvers, it is difficult to respond to changes in the living conditions.

An object of the component customization device according to the present invention is to enable the user to change the airflow control component to the optimum one corresponding to the living room situation.

The component customization device according to the present invention is
The airflow used for controlling the airflow of the air conditioner based on the user's request for the airflow of the air conditioner provided in the living room used by the user and the living room information indicating the situation of the living room. A component specification calculation unit that calculates the specifications of customized components whose control components are customized according to the user's request as component specifications.
It is provided with a device transmission unit that transmits the component specifications to the user terminal of the user.

According to the component customization device according to the present invention, the airflow control component provided in the air conditioner can be customized to the optimum one according to the living room situation.

The block diagram of the parts customization system which concerns on Embodiment 1. FIG. The refrigerant circuit during the cooling operation of the air conditioner according to the first embodiment. The refrigerant circuit during the heating operation of the air conditioner according to the first embodiment. The block diagram of the component customization apparatus which concerns on Embodiment 1. FIG. The block diagram of the air conditioner which concerns on Embodiment 1. FIG. The block diagram of the user terminal which concerns on Embodiment 1. FIG. The flow diagram of the operation of the component customization system which concerns on Embodiment 1. FIG. An example of lifestyle information according to the first embodiment. The flow diagram of the update process of the lifestyle information which concerns on Embodiment 1. FIG. The figure explaining the specific example of the component customization process which concerns on Embodiment 1. The figure which shows the example of the air conditioner which concerns on Embodiment 1. The block diagram of the component customization apparatus which concerns on the modification of Embodiment 1. The block diagram of the air conditioner which concerns on the modification of Embodiment 1. The block diagram of the user terminal which concerns on the modification of Embodiment 1.

Hereinafter, the present embodiment will be described with reference to the drawings. In each figure, the same or corresponding parts are designated by the same reference numerals. In the description of the embodiment, the description will be omitted or simplified as appropriate for the same or corresponding parts. Further, in the following figure, the relationship between the sizes of the constituent members may differ from the actual one. Further, in the description of the embodiment, the orientation or position such as top, bottom, left, right, front, back, front, and back may be indicated. These notations are for convenience of explanation and do not limit the arrangement, direction and orientation of the device, instrument, parts, or the like.

Embodiment 1.
The configuration of this embodiment will be described with reference to FIGS. 1 to 6.

*** Explanation of configuration ***
FIG. 1 is a diagram showing a configuration of a component customization system 500 according to the present embodiment.
The parts customization system 500 is a parts customization device that communicates with each of the user terminal 300 used by the user 30, the air conditioner 100 provided in the living room 40 used by the user 30, and the user terminal 300 and the air conditioner 100. It is equipped with 200.

The air conditioner 100 is installed in the living room 40 in which the user 30 lives. The living room 40 refers not only to one room but also to an area in the house where the air conditioner 100 is installed. The living room is also referred to as a user's house or a house area. The air conditioner 100 is a refrigeration cycle device that realizes functions such as cooling and heating.
The air conditioner 100 communicates with the user terminal 300 via a wireless LAN (Local Area Network) 12 such as Wi-Fi (registered trademark). Further, the air conditioner 100 communicates with the component customization device 200 via a network 20 such as the Internet.

Specifically, the component customization device 200 is a cloud server provided in the cloud system.
In FIG. 1, the user terminal 300 communicates with the component customization device 200 via the wireless LAN 12, the air conditioner 100, and the network 20. That is, the information communicated between the user terminal 300 and the component customization device 200 is relayed by the air conditioner 100. However, the information communicated between the user terminal 300 and the component customization device 200 may be directly communicated via the network 20.

Specifically, the user terminal 300 is a computer terminal such as a smartphone terminal, a tablet terminal, or a PC (Personal Computer).

The air conditioner 100 includes a sensor unit 101 and an air flow control component 102. The airflow control component 102 is a component used for controlling the airflow of the air conditioner 100. Specifically, the airflow control component 102 is a component such as an upper and lower flap or a left and right flap. The left and right flaps are also called louvers.
The sensor unit 101 senses the situation of the living room 40. Specifically, the situation of the living room 40 is the situation of the living room 40 such as the room shape, the heat load in the house such as high heat insulation or low heat insulation, the furniture arrangement, the living area of the user, or the flow line of the user. The status of these living rooms 40 is set in the lifestyle information 250 in real time as the living room information 251. Specifically, the sensor unit 101 is an infrared sensor that detects the absolute temperature in the room. Further, the sensor unit 101 may include a device such as a camera that captures an image of the room. Further, the sensor unit 101 senses the airflow arrival limit range in the living room 40 by a sensor that enables real-time sensing of the airflow arrival degree of the air conditioner 100. Then, the airflow reach limit range in the current living room 40 is set in the living room information 251.
The air conditioner 100 includes a sensor unit 101 that detects the temperature of the living room 40 while rotating. The sensor unit 101 generates one thermal image, for example, by rotating 360 degrees in the left-right direction. Then, by taking the difference between the thermal image generated by the rotation of the sensor unit 101 and the thermal image generated by the previous rotation, the indoor state such as the user's living position and the indoor temperature in the living room 40 can be obtained. Detect.

The configuration of the air conditioner 100 will be described with reference to FIGS. 2 and 3.
FIG. 2 shows the refrigerant circuit 31 during the cooling operation. FIG. 3 shows the refrigerant circuit 31 during the heating operation.

The air conditioner 100 includes a refrigerant circuit 31 in which a refrigerant circulates. The air conditioner 100 includes a compressor 32, a four-way valve 33, a first heat exchanger 34 which is an outdoor heat exchanger, an expansion mechanism 35 which is an expansion valve, and a second heat exchanger which is an indoor heat exchanger. 36 is further provided. The compressor 32, the four-way valve 33, the first heat exchanger 34, the expansion mechanism 35, and the second heat exchanger 36 are connected to the refrigerant circuit 31.

The compressor 32 compresses the refrigerant. The four-way valve 33 switches the flow direction of the refrigerant between the cooling operation and the heating operation. The first heat exchanger 34 operates as a condenser during the cooling operation and dissipates heat from the refrigerant compressed by the compressor 32. That is, the first heat exchanger 34 exchanges heat using the refrigerant compressed by the compressor 32. The first heat exchanger 34 operates as an evaporator during the heating operation, and heats the refrigerant by exchanging heat between the outdoor air and the refrigerant expanded by the expansion mechanism 35. The expansion mechanism 35 expands the refrigerant dissipated by the condenser. The second heat exchanger 36 operates as a condenser during the heating operation and dissipates heat from the refrigerant compressed by the compressor 32. That is, the second heat exchanger 36 exchanges heat using the refrigerant compressed by the compressor 32. The second heat exchanger 36 operates as an evaporator during the cooling operation, and heats the refrigerant by exchanging heat between the indoor air and the refrigerant expanded by the expansion mechanism 35.

The air conditioner 100 further includes a controller 37 that controls the refrigeration cycle of the air conditioner 100.

Although FIGS. 2 and 3 show only the connection between the controller 37 and the compressor 32, the controller 37 is connected not only to the compressor 32 but also to components other than the compressor 32 connected to the refrigerant circuit 31. You may. The controller 37 monitors and controls the state of each component connected to the controller 37.

FIG. 4 is a diagram showing a configuration of a component customization device 200 according to the present embodiment.
The component customization device 200 is a computer. The component customization device 200 includes a processor 910 and other hardware such as a memory 921, an input interface 930, an output interface 940, and a communication device 950. The processor 910 is connected to other hardware via a signal line and controls these other hardware. Further, although not shown, the component customization device 200 includes an auxiliary storage device.

The component customization device 200 includes a sensor calculation unit 210, a component specification calculation unit 220, a device transmission unit 230, and a storage unit 240 as functional elements.

The functions of the sensor calculation unit 210, the component specification calculation unit 220, and the device transmission unit 230 are realized by software. The storage unit 240 is provided in the memory 921. The storage unit 240 stores the lifestyle information 250 in which the living room information 251 is set.

FIG. 5 is a diagram showing the configuration of the air conditioner 100 according to the present embodiment.
The air conditioner 100 includes a computer. The air conditioner 100 includes a processor 910 and other hardware such as a memory 921, an input interface 930, an output interface 940, and a communication device 950. The processor 910 is connected to other hardware via a signal line and controls these other hardware. Although not shown, the air conditioner 100 is provided with an auxiliary storage device.

The air conditioner 100 includes an information receiving unit 110, an information transmitting unit 120, a control unit 130, and a storage unit 140 as functional elements.

The functions of the information receiving unit 110, the information transmitting unit 120, and the control unit 130 are realized by software. The storage unit 140 is provided in the memory 921. The storage unit 140 stores the lifestyle information 250 in which the living room information 251 is set. Further, the control unit 130 is an example of the controller 37 of FIGS. 2 and 3.

FIG. 6 is a diagram showing a configuration of a user terminal 300 according to the present embodiment.
The user terminal 300 is a computer. The user terminal 300 includes a processor 910 and other hardware such as a memory 921, an input interface 930, an output interface 940, and a communication device 950. The processor 910 is connected to other hardware via a signal line and controls these other hardware. Further, although not shown, the user terminal 300 is provided with an auxiliary storage device.

The user terminal 300 includes a request receiving unit 310, a specification receiving unit 320, a presenting unit 330, and a storage unit 340 as functional elements.

The functions of the request receiving unit 310, the specification receiving unit 320, and the presenting unit 330 are realized by software. The storage unit 340 is provided in the memory 921. The component specification 53 is stored in the storage unit 340.

In the present embodiment, the same reference numerals are given to hardware having the same function for the sake of simplicity. However, the air conditioner 100, the component customization device 200, and the user terminal 300 each have their own hardware.

The processor 910 is a device that executes a component customization program. The component customization program is a program that realizes the function of the air conditioner 100, the function of the component customization device 200, or the function of the user terminal 300. The functions of the air conditioner 100 are the functions of the information receiving unit 110, the information transmitting unit 120, and the control unit 130. The functions of the component customization device 200 are the functions of the sensor calculation unit 210, the component specification calculation unit 220, and the device transmission unit 230. The functions of the user terminal 300 are the functions of the request receiving unit 310, the specification receiving unit 320, and the presenting unit 330. In the following description, at least a part of the air conditioner 100, the component customization device 200, and the user terminal 300 will be referred to as each device of the component customization system 500. Further, at least a part of the function of the air conditioner 100, the function of the component customization device 200, and the function of the user terminal 300 are referred to as the function of each device of the component customization system 500.

The processor 910 is an IC (Integrated Circuit) that performs arithmetic processing. Specific examples of the processor 910 are a CPU (Central Processing Unit), a DSP (Digital Signal Processor), and a GPU (Graphics Processing Unit).

The memory 921 is a storage device that temporarily stores data. A specific example of the memory 921 is a SRAM (Static Random Access Memory) or a DRAM (Dynamic Random Access Memory).
Auxiliary storage is a storage device that stores data. A specific example of the auxiliary storage device is an HDD. Further, the auxiliary storage device may be a portable storage medium such as an SD (registered trademark) memory card, CF, NAND flash, a flexible disk, an optical disk, a compact disc, a Blu-ray (registered trademark) disk, or a DVD. HDD is an abbreviation for Hard Disk Drive. SD (registered trademark) is an abbreviation for Secure Digital. CF is an abbreviation for CompactFlash®. DVD is an abbreviation for Digital Versaille Disk.

The input interface 930 is a port connected to an input device such as a mouse, a keyboard, or a touch panel. Specifically, the input interface 930 is a USB (Universal Serial Bus) terminal. The input interface 930 may be a port connected to a LAN (Local Area Network).
The output interface 940 is a port to which a cable of an output device such as a display is connected. Specifically, the output interface 940 is a USB terminal or an HDMI (registered trademark) (High Definition Multimedia Interface) terminal. Specifically, the display is an LCD (Liquid Crystal Display).

The communication device 950 has a receiver and a transmitter. The communication device 950 is connected to a communication network such as a LAN, the Internet, or a telephone line. Specifically, the communication device 950 is a communication chip or a NIC (Network Interface Card).

The component customization program is executed in each device of the component customization system 500. The component customization program is read into the processor 910 and executed by the processor 910. The memory 921 stores not only the component customization program but also the OS (Operating System). The processor 910 executes the component customization program while executing the OS. The component customization program and the OS may be stored in the auxiliary storage device. The component customization program and the OS stored in the auxiliary storage device are loaded into the memory 921 and executed by the processor 910. A part or all of the component customization program may be incorporated in the OS.

Each device of the component customization system 500 may include a plurality of processors that replace the processor 910. These multiple processors share the execution of the component customization program. Each processor, like the processor 910, is a device that executes a component customization program.

The data, information, signal values and variable values used, processed or output by the component customization program are stored in the memory 921, the auxiliary storage device, or the register or cache memory in the processor 910.

The "part" of each part of each device of the component customization system 500 may be read as "processing", "procedure", or "process". Further, the "process" in which the "part" of each part of each device of the component customization system 500 is replaced is "program", "program product", "computer-readable storage medium in which the program is stored", or "program is recorded". It may be read as "a computer-readable recording medium".
The component customization program causes a computer to execute each process, each procedure or each process in which the "part" of each of the above parts is read as "process", "procedure" or "process". Further, the component customization method is a method performed by each device of the component customization system 500 executing a component customization program.
The component customization program may be provided stored in a computer-readable recording medium. Further, the component customization program may be provided as a program product.

*** Explanation of operation ***
The operation of the component customization system 500 according to the present embodiment will be described with reference to FIG. 7. The operation procedure of the component customization system 500 corresponds to the component customization method. Further, the program that realizes the operation of the component customization system 500 corresponds to the component customization program.

<Processing of user terminal 300>
In step S301, the request receiving unit 310 receives the user request 52, which is the user's request for the air flow of the air conditioner 100. Specifically, the request reception unit 310 displays a request reception screen on the display screen of the user terminal 300, and causes the user 30 to input a request for the air flow of the air conditioner 100. For example, the user 30 inputs a request for the airflow to reach outside the current airflow reach limit range of the current airflow control component 102 as the user request 52.
In step S302, the request receiving unit 310 transmits the user request 52 to the component customization device 200 via the air conditioner 100.

<Processing of air conditioner 100>
In step S101, the information receiving unit 110 receives the user request 52, and the information transmitting unit 120 transmits the user request 52 to the component customization device 200. That is, the air conditioner 100 relays the user request 52. In the present embodiment, the user request 52 is transmitted from the user terminal 300 to the component customization device 200 via the air conditioner 100. However, the user request 52 may be directly transmitted from the user terminal 300 to the component customization device 200 via the network 20.

<Processing of parts customization device 200>
In step S201, the component specification calculation unit 220 receives the user request 52.
In step S202, the component specification calculation unit 220 calculates the specification of the customized component 103 in which the airflow control component 102 is customized according to the user request 52 as the component specification 53 based on the user request 52 and the living room information 251. When the component specification calculation unit 220 is input to the 3D printer 50, the customized component 103 calculates the component specification 53 output from the 3D printer 50.

The living room information 251 represents the situation of the living room 40. The situation of the living room 40 includes the room shape, heat load such as high heat insulation or low heat insulation, furniture arrangement, user's living area, user's flow line, and airflow reach limit range.
The living room information 251 is included in the lifestyle information 250.

FIG. 8 is a diagram showing an example of the lifestyle information 250 according to the present embodiment.
The lifestyle information 250 is information representing the lifestyle of the user 30. In the lifestyle information 250, the room information 251 of the user 30 and the lifestyle 252 of the user 30 are set.
Information such as the room shape, heat load such as high heat insulation or low heat insulation, furniture arrangement, user's living area, user's flow line, and airflow arrival limit range is set in the living room information 251.
Various information for specifying the lifestyle of the user 30 is set in the lifestyle 252. For example, it is desirable that information such as the gender, age, family structure, job form, behavior pattern, preference, or house information of the user 30 is included. It is also desirable to include vital data such as blood pressure, heart rate, and respiration of the human body. From these lifestyles 252, the lifestyle itself is recognized as an attribute of the user. As a specific example, if the user 30 is a two-person household consisting of a male in his thirties and a female in his thirties, it is desirable to recognize whether or not the household is a double-income household without children. It is desirable that behavior patterns such as when to get up, go out, go home, take a bath, and go to bed are also recognized as attributes. Preference such as hot or cold may also be recognized as an attribute. Alternatively, preferences such as emphasis on comfort or emphasis on energy saving may be included. It may also include preferences such as the color or shape of the object.

For example, the component specification calculation unit 220 determines whether or not the content of the user request 52 exceeds the current airflow arrival limit range based on the living room information 251. When the content of the user request 52 exceeds the current airflow arrival limit range, the component specification calculation unit 220 specifies the specifications of the airflow control component capable of reaching the airflow beyond the current airflow arrival limit range. Calculated as specification 53. The airflow control component for allowing the airflow to reach beyond the current airflow reach limit range is a customized component 103 in which the current airflow control component 102 is customized according to the user request 52.
Further, the component specification calculation unit 220 may calculate the component specification 53 by arranging the shape of the customized component 103 according to the preference included in the lifestyle 252. Further, the component specification calculation unit 220 may include the color of the customized component 103 in the component specification 53 according to the preference included in the lifestyle 252. For example, the component specification calculation unit 220 may include the color number of the color tape or the color spray in the component specification 53. Further, the component specification calculation unit 220 may include the mold for cutting the color tape in the component specification 53.

The component specification calculation unit 220 calculates the component specification 53 of the customized component 103 to be replaced with the airflow control component 102. Alternatively, the component specification calculation unit 220 may calculate the component specification 53 of the customized component 103 to be mounted on the airflow control component 102.

In step S203, the device transmission unit 230 transmits the component specification 53 to the user terminal 300 via the air conditioner 100.

<Processing of air conditioner 100>
In step S102, the information receiving unit 110 receives the component specification 53, and the information transmitting unit 120 transmits the component specification 53 to the user terminal 300. That is, the air conditioner 100 relays the component specification 53. In the present embodiment, the component specification 53 is transmitted from the component customization device 200 to the user terminal 300 via the air conditioner 100. However, the component specification 53 may be transmitted directly from the component customization device 200 to the user terminal 300 via the network 20.
As described above, the communication between the user terminal 300 and the component customization device 200 may be relayed by the air conditioner 100, or the user terminal 300 and the component customization device 200 may directly communicate with each other.

<Processing of user terminal 300>
In step S303, the specification receiving unit 320 receives the component specification 53 transmitted from the component customization device 200 via the air conditioner 100.
In step S304, the presentation unit 330 presents the component specification 53 transmitted from the component customization device 200 to the user 30. Specifically, the presentation unit 330 stores the component specification 53 in the storage unit 340. Then, the presentation unit 330 displays the component specification 53 on the display via the output interface 940 at the request of the user 30. Alternatively, the presentation unit 330 outputs the component specification 53 to the printer.

In step S305, the component specification 53 is input to the three-dimensional printer 50. Then, the three-dimensional printer 50 outputs the customized component 103 according to the component specification 53. The component specification 53 may be automatically input to the three-dimensional printer 50 from the user terminal 300. Alternatively, the user 30 may input the component specification 53 into the 3D printer 50 owned by the user 30 or the 3D printer 50 installed in another place such as a convenience store.

When the customized component 103 according to the component specification 53 is output from the three-dimensional printer 50, the user 30 replaces the current airflow control component 102 with the customized component 103. Alternatively, the user 30 adds the customized component 103 to the current airflow control component 102 to customize the current airflow control component to the optimum airflow control component that meets the user request 52.
It is preferable that the mounting mechanism of the airflow control component 102 of the air conditioner 100 is configured so that even the user 30 can easily replace or add it.

<Update process of lifestyle information 250>
Next, the update process of the lifestyle information 250 according to the present embodiment will be described with reference to FIG. 9.
In step S111, the sensor unit 101 of the air conditioner 100 transmits the sensor information 51 to the component customization device 200. The sensor unit 101 periodically transmits the sensor information 51 to the component customization device 200.

In step S211th, the sensor calculation unit 210 of the component customization device 200 receives the sensor information 51 from the sensor unit 101 of the air conditioner 100.
In step S212, the sensor calculation unit 210 calculates the lifestyle information 250, which is the lifestyle information 250 representing the lifestyle of the user 30, and includes the living room information 251, based on the sensor information 51. For example, the sensor calculation unit 210 calculates the lifestyle information 250 of the user 30 by learning the sensor information 51. The lifestyle information 250 of the user 30 includes the room information 251 and the lifestyle 252 of the user 30. Further, the sensor calculation unit 210 learns the lifestyle information 250 including the preference of the user 30 based on the sensor information 51. The user's preference is, for example, "the airflow reaches the entire living room 40".

In step S212, the sensor calculation unit 210 updates the lifestyle information 250 including the living room information 251 by using the lifestyle information 250 obtained by the calculation. The lifestyle information 250 is stored in the storage unit 240. The living room information 251 indicating the situation of the living room 40 is also stored in the storage unit 240.
In step S213, the sensor calculation unit 210 updates the lifestyle information 250 stored in the storage unit 240. In this way, the lifestyle information 250 is information that reflects the lifestyle of the user 30 in real time. The living room information 251 is also updated in real time.
In step S214, the device transmission unit 230 transmits the lifestyle information 250 to the air conditioner 100 via the communication device 950.

In step S112, the information receiving unit 110 of the air conditioner 100 receives the lifestyle information 250 and stores it in the storage unit 140. That is, the lifestyle information 250 of the storage unit 140 of the air conditioner is also updated in real time.
In step S113, the control unit 130 controls the air conditioner 100 based on the lifestyle information 250.

FIG. 10 is a diagram showing a specific example of the component customization process according to the present embodiment. Further, FIG. 11 is a diagram showing an example of the air conditioner 100 according to the present embodiment.
A specific example of the component customization process according to the present embodiment will be described with reference to FIGS. 10 and 11.
In the living room 40 shown in FIG. 10, the airflow reach limit range of the living space and the dining space is the state of the solid line L1. At this time, it is assumed that the shelf 70 is arranged between the living space and the dining space. Then, it is assumed that a part of the airflow toward the living space is blocked by the shelf 70, and the airflow arrival limit range in the living space is in the state of the dotted line L2. At this time, by the processing of the sensor calculation unit 210, the living room information 251 of the lifestyle information 250 is set so that the airflow arrival limit range of the living space is the dotted line L2. Since the airflow does not reach the entire living space, the user 30 inputs to the user terminal 300 a user request 52 that the airflow wants to reach the entire living space.
The component specification calculation unit 220 acquires information such as that the current airflow reach limit range is the dotted line L2 and the arrangement of the shelves 70 from the living room information 251 and determines the specifications of the customized component 103 for satisfying the user request 52. Calculated as part specification 53.
The user 30 receives the part specification 53 of the customized part 103. The user 30 acquires the customized component 103 by inputting the component specification 53 into the three-dimensional printer 50. Then, the user 30 replaces the current airflow control component 102 with the customized component 103, or adds the customized component 103 to the current airflow control component 102.
In this way, the user 30 can acquire the optimum airflow control component according to the request.
The customized component 103 is, for example, a variation of the shape, size, or number of airflow control components 102 such as the upper and lower flaps or the left and right flaps shown in FIG.

*** Other configurations ***
<Modification 1>
In the present embodiment, a component customization system 500 for customizing airflow control components such as upper and lower flaps or left and right flaps provided in the air conditioner 100 has been described. In addition, the present embodiment can be applied to a cleaning filter provided in the air conditioner 100 and the like. Further, other than the air conditioner 100, the present embodiment can be applied as long as it is an electric device whose parts can be customized according to a user's request. Specifically, the present embodiment can be applied to equipment and parts such as a fan blade or a reflector of a lighting fixture.

<Modification 2>
For the user 30 registered in the component customization system 500, the component specification 53 may be distributed to the user terminal 300 for a fee. Then, the user 30 may acquire the customized component 103 by inputting the purchased component specification 53 into the three-dimensional printer 50.

<Modification 3>
In this embodiment, the component customization system 500 provides the user 30 with the optimum component specification 53. However, a plurality of types of component specifications 53 may be provided to the user 30. Specifically, the component customization system 500 may present the component specification 53 for each version such as the optimum version, the energy-saving version, and the designability version, and let the user 30 select the component specification 53. In this case, the component specification calculation unit 220 calculates a plurality of types of component specifications 53 based on the user's lifestyle information 250 and the user request 52. Then, the user terminal 300 presents the component specification 53 for each version, and causes the user 30 to select the component specification 53.

<Modification example 4>
In the present embodiment, the component specification calculation unit 220 calculates the component specification 53 based on the user request 52 input by the user 30. However, the component specification calculation unit 220 may calculate the component specification 53 with the preference of the user 30 included in the lifestyle information 250 as the user request 52.
For example, it is assumed that the lifestyle 252 of the lifestyle information 250 is set to "the air flow reaches the entire living room 40" as a preference of the user 30. As shown in FIG. 10, when the component specification calculation unit 220 detects that the airflow reach limit range has become the dotted line L2 due to the arrangement of the shelf 70, the customized component for setting the airflow reach limit range to the solid line L1. The component specification 53 of 103 may be automatically calculated. Then, the component specification 53 may be automatically transmitted to the user terminal 300.

<Modification 5>
In the present embodiment, the functions of each device of the component customization system 500 are realized by software. As a modification, the functions of each device of the component customization system 500 may be realized by hardware.
Specifically, each device of the component customization system 500 includes an electronic circuit 909 instead of the processor 910.

FIG. 12 is a diagram showing a configuration of a component customization device 200 according to a modified example of the present embodiment. FIG. 13 is a diagram showing a configuration of an air conditioner 100 according to a modified example of the present embodiment. FIG. 14 is a diagram showing a configuration of a user terminal 300 according to a modified example of the present embodiment.
The electronic circuit 909 is a dedicated electronic circuit that realizes the functions of each device of the component customization system 500. The electronic circuit 909 is specifically a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, a logic IC, a GA, an ASIC, or an FPGA. GA is an abbreviation for Gate Array. ASIC is an abbreviation for Application Specific Integrated Circuit. FPGA is an abbreviation for Field-Programmable Gate Array.

The function of each device of the component customization system 500 may be realized by one electronic circuit, or may be realized by being distributed in a plurality of electronic circuits.

As another modification, some functions of each device of the component customization system 500 may be realized by an electronic circuit, and the remaining functions may be realized by software. Further, some or all the functions of each device of the component customization system 500 may be realized by the firmware.

Each of the processor and the electronic circuit is also called a processing circuit. That is, the function of each device of the component customization system 500 is realized by the processing circuit.

*** Explanation of the effect of this embodiment ***
Usually, the housing environment conditions such as room shape or furniture arrangement are different for each user's house. In this way, it is very difficult to realize the optimum air flow of the air conditioner corresponding to all the housing environmental conditions different for each user's house in the current mass-produced mass-produced products.
According to the parts customization system 500 according to the present embodiment, it is possible to realize the optimum airflow according to the user's request in consideration of the housing environment conditions such as the room shape of the user's house, the heat load, or obstacles such as furniture. Airflow control components can be customized. Therefore, it is possible to realize airflow control that achieves both comfort and energy saving in response to the user's housing environment conditions.

In the above-described first embodiment, each part of each device of the component customization system 500 has been described as an independent functional block. However, the configuration of each device of the component customization system 500 does not have to be the configuration as in the above-described embodiment. The functional block of each device of the component customization system 500 may have any configuration as long as the functions described in the above-described embodiment can be realized. Further, each device of the component customization system 500 may be a system composed of a plurality of devices instead of one device.
Further, in the first embodiment, a plurality of parts may be combined and carried out. Alternatively, one part of these embodiments may be implemented. In addition, these embodiments may be implemented in any combination as a whole or partially.
That is, in the first embodiment, it is possible to freely combine each embodiment, modify any component of each embodiment, or omit any component in each embodiment.

It should be noted that the embodiments described above are essentially preferred examples and are not intended to limit the scope of the invention, the scope of application of the invention, and the scope of use of the invention. The above-described embodiment can be variously modified as needed.

12 wireless LAN, 20 network, 30 users, 31 refrigerant circuit, 32 compressor, 33 four-way valve, 34 first heat exchanger, 35 expansion mechanism, 36 second heat exchanger, 37 controller, 40 living room, 50 3D printer , 51 sensor information, 52 user requirements, 53 parts specifications, 70 shelves, 100 air conditioners, 101 sensor parts, 102 airflow control parts, 103 customized parts, 110 information receivers, 120 information transmitters, 130 control parts, 200 parts. Customized device, 210 sensor calculation unit, 220 parts specification calculation unit, 230 device transmission unit, 140, 240, 340 storage unit, 250 lifestyle information, 251 living room information, 252 lifestyle, 300 user terminal, 310 request reception unit, 320 Specifications Receiver, 330 presenter, 500 component customization system, 909 electronic circuit, 910 processor, 921 memory, 930 input interface, 940 output interface, 950 communication device.

Claims (9)

The airflow used for controlling the airflow of the air conditioner based on the user's request for the airflow of the air conditioner provided in the living room used by the user and the living room information indicating the situation of the living room. A component specification calculation unit that calculates the specifications of customized components whose control components are customized according to the user's request as component specifications.
A component customization device including a device transmission unit that transmits the component specifications to the user terminal of the user. The parts specification calculation unit
The component customization device according to claim 1, wherein when input to a three-dimensional printer, the customized component is output from the three-dimensional printer to calculate the component specifications. The parts customization device is
It is provided with a sensor calculation unit that receives sensor information from the sensor unit of the air conditioner and calculates lifestyle information including the living room information, which is lifestyle information representing the lifestyle of the user, based on the sensor information. The component customization device according to claim 1 or 2. The sensor calculation unit is
Based on the sensor information, the lifestyle information including the user's preference is learned, and the lifestyle information is learned.
The parts specification calculation unit
The component customization device according to claim 3, wherein the component specifications are calculated with the user's preference included in the lifestyle information as the user's request. The parts specification calculation unit
The component customization device according to any one of claims 1 to 4, wherein the component specifications of the customized component for replacement with the air flow control component are calculated. The parts specification calculation unit
The component customization device according to any one of claims 1 to 4, wherein the component specifications of the customized component for mounting on the airflow control component are calculated. In a parts customization system including a user terminal used by a user, an air conditioner provided in a room used by the user, and a parts customization device that communicates with each of the user terminal and the air conditioner.
The user terminal is
A request receiving unit that receives a user request, which is a user's request for the air flow of the air conditioner, and transmits the user request to the component customization device is provided.
The parts customization device is
A storage unit that stores room information indicating the status of the room,
Based on the user request transmitted from the user terminal and the living room information, the specifications of the customized parts in which the air flow control parts used for controlling the air flow of the air conditioner are customized according to the user request are specified. The parts specification calculation unit calculated as
A device transmission unit that transmits the component specifications to the user terminal is provided.
The user terminal is
A component customization system including a presentation unit that presents the component specifications transmitted from the component customization device to the user. The parts specification calculation unit is based on the user's request for the air flow of the air conditioner provided in the room used by the user and the room information indicating the situation of the room, and the air flow of the air conditioner. The specifications of the customized parts in which the airflow control parts used for the control of the above are customized according to the user's request are calculated as the parts specifications.
A component customization method in which the device transmitter transmits the component specifications to the user terminal of the user. The airflow used for controlling the airflow of the air conditioner based on the user's request for the airflow of the air conditioner provided in the living room used by the user and the living room information indicating the situation of the living room. A component specification calculation process that calculates the specifications of customized components whose control components are customized according to the user's request as component specifications, and
A component customization program that causes a computer to execute a device transmission process for transmitting the component specifications to the user terminal of the user.

Images