JP2017180939A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To grasp a comfortable environment for a user.SOLUTION: An air conditioner includes: an indoor machine 13 configured to perform air-conditioning in a room 12; and a good button 33 provided separately from the indoor machine 13 in a portable manner, and configured to, when a user operates the air conditioner, generate a satisfaction signal; a sensor unit 34 provided together with the good button 33, and configured to detect a temperature and a wind speed; and a transmission unit 37 provided together with the good button 33, and configured to, when the good button 33 is operated, transmit to the indoor machine 13 the satisfaction signal of the good button 33, and the temperature information and wind speed information detected by the sensor unit 34.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an air conditioner.

  A “hot switch” or “cold switch” that can be operated by the user is provided, and when these switches are operated, the set temperature and humidity are adjusted based on the temperature and humidity detected by the indoor unit. There is.

Japanese Examined Patent Publication No. 7-92254

The “switch when hot” and “switch when cold” are operated when the user is not satisfied with the indoor air-conditioned environment. Thus, measures can be taken to approach a comfortable environment, but it is not always possible to determine whether or not the environment is uncomfortable based on temperature alone. In particular, since the comfort for human beings depends on the wind speed, the air conditioner cannot determine whether it is truly comfortable simply by whether it is hot or cold.
The subject of this invention is providing the air conditioner which can grasp | ascertain a comfortable environment for a user.

  An air conditioner according to an aspect of the present invention includes an indoor unit that performs indoor air conditioning, a satisfaction operation unit that is provided so as to be portable separately from the indoor unit, and that generates a satisfaction signal when operated by a user. A sensor unit that is provided with the operation unit and detects the temperature and the wind speed, and a satisfaction signal of the satisfaction operation unit and the temperature information and wind speed detected by the sensor unit when the satisfaction operation unit is operated. A transmission unit that transmits information to the indoor unit.

  According to the present invention, it is possible to detect that the user is satisfied with the indoor air-conditioned environment by operating the satisfaction operation unit, and it is also possible to detect the temperature and wind speed at that time by the sensor unit. Therefore, the air conditioner which can grasp | ascertain temperature and wind speed comfortable for a user can be provided.

It is the structure of an air conditioner. It is a functional block diagram of an indoor unit and a remote control. It is an image figure of an indoor unit (cooling). It is an image figure of an indoor unit (heating). It is a flowchart which shows an operation control process.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each drawing is schematic and may be different from the actual one. Further, the following embodiments exemplify apparatuses and methods for embodying the technical idea of the present invention, and the configuration is not specified as follows. That is, the technical idea of the present invention can be variously modified within the technical scope described in the claims.

"Constitution"
FIG. 1 is a configuration diagram of an air conditioner.
The air conditioner 11 includes an indoor unit 13 attached to the wall surface of the room 12 and an outdoor unit 14 installed outdoors. The air conditioner 11 is remotely operated by a user by wireless communication via a remote controller (hereinafter simply referred to as a remote controller) 15.
FIG. 2 is a functional block diagram of the air conditioner.
The indoor unit 13 includes a receiving unit 21, an indoor unit control unit 22, a main fan 23, a left side fan 24, and a right side fan 25.
The receiving unit 21 receives various signals from the remote controller 15.
The indoor unit control unit 22 receives various signals from the remote controller 15 and drives and controls the outdoor unit 14, the main fan 23, the left side fan 24, and the right side fan 25.

A refrigerant circuit is formed between the indoor unit 13 and the outdoor unit 14, and heat energy is exchanged by the refrigerant circulating in the refrigerant circuit, and cold air and warm air are supplied from the indoor unit 13 to the room 12. The The indoor unit control unit 22 controls the cooling / heating switching and the temperature of cool air and warm air blown out from the indoor unit by driving and controlling the compressor and the four-way valve of the outdoor unit 14.
3 and 4 are image diagrams of the indoor unit.
The main fan 23 is provided in the indoor unit 13 and blows out cool air and warm air supplied through the refrigerant circuit. That is, the air exchanged with the refrigerant is blown. The blowing direction of the air blown out by the main fan 23 can be adjusted by the orientations of the up and down wind direction plates and the left and right wind direction plates provided at the outlet of the housing.

  The left side fan 24 is provided on one side surface of the main body of the indoor unit 13, and the right side fan 25 is provided on the other side surface, and each blows out only air at room temperature. In other words, air that is not heat exchanged with the refrigerant is blown. The left side fan 24 and the right side fan 25 can be rotated about the same axis, respectively, and the blowing direction can be adjusted by their rotation position and the direction of the left and right wind direction plates provided in the housing. The indoor unit 13 is installed in the room 12 so that the rotation axes of the main fan 23, the left side fan 24, and the right side fan 25 are horizontal.

  FIG. 3 shows an example of the cooling operation. Here, as shown by the broken line, the cold air blown out by the main fan 23 is blown out in the horizontal direction, and as shown by the dotted line, the air blown by the left side fan 24 and the right side fan 25 is blown out obliquely downward. In this way, it is possible to feel a natural coolness even in a modest cooling operation by allowing the user to take air at a comfortable temperature while preventing the cool air from directly hitting the body.

  FIG. 4 shows an example of the heating operation. Here, as indicated by the broken line, the warm air blown out by the main fan 23 blows out directly below, and as indicated by the dotted line, the air blown by the left side fan 24 and the right side fan 25 is blown obliquely downward. In this way, by suppressing the rising of warm air by blowing air from the left side fan 24 and the right side fan 25, the warm air spreads to the back of the room 12 and the entire floor surface can be warmed.

The remote controller 15 is portable, and as shown in FIG. 2, a hot button 31, a cold button 32, a like button 33 (satisfied operation unit), a sensor unit 34, a storage unit 35, and a remote control unit 36 and a transmission unit 37.
The hot button 31 is a button operated when the user feels hot.
The cold button 32 is a button operated when the user feels cold.
The like button 33 is a button that is operated when the user feels comfortable with respect to temperature, humidity, and wind speed, that is, when the user is satisfied with the air-conditioned environment of the room 12.
The sensor unit 34 includes a temperature sensor that detects the temperature around the remote control and a wind speed sensor that detects the wind speed around the remote control. The temperature sensor uses a thermistor whose electrical resistance changes as the temperature changes. A wind speed sensor detects a wind speed (airflow) using a pair of thermistors.

The memory | storage part 35 memorize | stores various information, such as the operation setting made by the user, ie, temperature setting, air volume setting, and wind direction setting.
The remote control control unit 36 receives button signals from the buttons and sensor signals from the sensor unit 34 and sends them to the transmission unit 37. Specifically, the button signal when the hot button 31 is pressed, the button signal when the cold button 32 is pressed, the button signal (satisfaction signal) when the like button 33 is pressed, and the sensor unit 34 The detected temperature signal and wind speed signal.
Upon receiving the various signals, the transmission unit 37 transmits the various signals to the indoor unit 13. Moreover, the transmission part 37 is transmitting the sensor signal to the indoor unit 13 at a predetermined interval at any time.

Next, the operation control process executed by the indoor unit control unit 22 will be described.
Here, the processing according to the present invention is mainly described, and general processing such as control of the refrigerant circuit is omitted.
FIG. 5 is a flowchart showing an operation control process during the cooling operation.
The operation control process is started when the user performs an operation for instructing the indoor unit 13 to start the operation, and is then repeatedly executed according to a predetermined calculation cycle.
In step S101, it is determined whether or not the like button 33 has been operated. Depending on this determination result, either the normal operation mode or the satisfactory operation mode is set. If the like button 33 is not operated (S101-No), the process proceeds to step S102. On the other hand, when the like button 33 is operated (S101-Yes), the process proceeds to step S103.

In step S102, the normal operation mode is set, and the process returns to step S101. The normal operation mode is an operation mode in which air conditioning of the room 12 is performed according to the current temperature setting, air volume setting, and air direction setting stored in the storage unit 35.
In step S103, the satisfactory operation mode is set, and the process returns to step S101. In the satisfactory operation mode, the temperature and wind speed detected by the sensor unit 34 when the like button 33 is operated are stored in the storage unit 35 as the detected target temperature and detected target wind speed, and thereafter detected by the sensor unit 34. In this operation mode, air conditioning is performed so that the detected wind speed becomes the detected target wind speed so that the detected temperature becomes the detected target temperature. For example, when the user operates the like button 33 in the living room, the temperature detected by the sensor unit 34 at that time is stored in the storage unit as the detected target temperature and the wind speed is detected as the detected target wind speed. Thereafter, when the user moves to the dining room with the remote controller 15 and the temperature and wind speed detected by the sensor unit 34 have changed from the detected target temperature and detected target wind speed, the temperature becomes the detected target temperature. In addition, air conditioning is performed so that the wind speed becomes the detected target wind speed.
The above is the operation control process.

<Effect>
Next, operational effects will be described.
The hot button 31 and the cold button 32 are operated when the user is not satisfied with the indoor air-conditioned environment. Thus, it is not possible to take measures to approach a comfortable environment, such as lowering the set temperature that is the target value of the room temperature when the hot button 31 is operated, and increasing the set temperature when the cold button 32 is operated. However, it is not always possible to determine whether or not the environment is uncomfortable only by temperature. In particular, since the comfort for a person depends on the wind speed, the air conditioner 11 cannot determine whether it is truly comfortable simply by whether it is hot or cold.

The wind speed can be roughly estimated by the amount of air blown from the indoor unit 13, but a person feels comfortable in a narrow range called a fine wind speed, and the user's location is not always fixed. It is also difficult to accurately estimate the wind speed comfortable for the user.
Therefore, a sensor unit 34 for detecting temperature and wind speed is incorporated in the remote controller 15 so that the temperature and wind speed around the remote controller 15 can be detected, and a like button 33 is provided on the remote controller 15. When the like button 33 is operated by the user, a satisfaction signal that is information indicating that the like button 33 has been operated is generated, and the satisfaction signal, temperature information and wind speed information around the remote controller 15 are transmitted. The unit 37 transmits to the indoor unit 13. Moreover, the transmission part 37 is transmitting the sensor signal to the indoor unit 13 at a predetermined interval at any time.

Thus, the like button 33 of the remote controller 15 can detect that the user is satisfied with the air-conditioned environment where the user is present at that time, and the sensor unit 34 can be used to control the remote controller 15 at that time. It is also possible to detect the temperature and wind speed in the vicinity of the operated user. Therefore, when the indoor unit 13 receives the detection value, the air conditioner 11 can accurately grasp the temperature and wind speed comfortable for the user.
Further, by incorporating the sensor unit 34 into the remote controller 15, the user can easily carry the sensor unit 34. Since the remote controller 15 is often placed within the reach of the user, the air conditioner 11 can grasp the temperature and wind speed around the user, that is, the temperature and wind speed felt by the user. In addition, the like button 33 can be easily operated.

When the like button 33 is not operated (the determination in step S101 is “No”), the indoor unit 13 executes the normal operation mode (step S102). That is, the air conditioning of the room 12 is performed according to the current temperature setting, air volume setting, and wind direction setting. On the other hand, when the like button 33 is operated (the determination in step S101 is “Yes”), the satisfactory operation mode is executed (step S103). That is, air conditioning is performed so that the temperature and the wind speed detected by the sensor unit 34 are maintained when the like button 33 is operated. Thereby, a comfortable environment for the user can be maintained.
Although the present invention has been described with reference to a limited number of embodiments, the scope of rights is not limited thereto, and modifications of the embodiments based on the above disclosure are obvious to those skilled in the art.

11 Air Conditioner 12 Indoor 13 Indoor Unit 14 Outdoor Unit 15 Remote Control 22 Indoor Unit Control Unit 23 Main Fan 24 Left Side Fan 25 Right Side Fan 31 Hot Button 32 Cold Button 33 Like Button 34 Sensor Unit 35 Storage Unit 36 Remote Control Unit 37 Transmitter

Claims (2)

An indoor unit that performs indoor air conditioning;
A satisfaction operation unit that can be carried separately from the indoor unit and generates a satisfaction signal when operated by a user;
A sensor unit that is provided together with the satisfactory operation unit and detects temperature and wind speed;
A transmission unit that is provided together with the satisfaction operation unit and transmits a satisfaction signal of the satisfaction operation unit, and temperature information and wind speed information detected by the sensor unit to the indoor unit when the satisfaction operation unit is operated; An air conditioner comprising: The satisfactory operation unit is:
The air conditioner according to claim 1, wherein the air conditioner is provided in a remote controller of the indoor unit.

Images