JP5465133B2 - Air conditioner and remote control device - Google Patents

Description

  The present invention relates to an air conditioner and a remote control device for the air conditioner.

  There is a method of performing bidirectional communication between an air conditioner and a remote control device in a remote control device for an air conditioner. (For example, see Patent Documents 1 to 3).

JP2007-303821 JP 2001-41545 A JP-A-62-210343

  An object of the embodiment of the present invention is to display an operating state of an air conditioner during automatic operation of the air conditioner, for example, with a remote control device.

The remote control device according to the present invention is:
A remote control device receiver for receiving airflow information of conditioned air blown out from the air conditioner;
A remote control device storage unit for storing an air flow graphic pattern group for representing an air flow;
The air flow graphic pattern corresponding to the air flow information received by the remote control device receiving unit is searched from the air flow graphic pattern group stored in the remote control device storage unit, and the searched air flow graphic pattern is used. A remote control device processing unit for generating and outputting an airflow information pattern indicating a state of an airflow of conditioned air blown from the air conditioner;
And a remote control device display unit that displays the airflow information pattern output by the remote control device processing unit.

  The remote control device according to the present invention can display, for example, the operating state of the air conditioner during automatic operation.

FIG. 5 shows the first embodiment, and is an external view of an air conditioner 900 (air conditioner body 201) and a remote control device 901. FIG. 5 shows the first embodiment, and is an external view of a remote control device 901 of the air conditioner 900. FIG. 2 is a diagram illustrating the first embodiment and is a block diagram illustrating configurations of an air conditioner 900 and a remote control device 901; In the figure which shows Embodiment 1, the example of a display of the remote control apparatus display part 330 ((a) is a scene selection screen when the scene selection button 334 is operated, (b) is the case where the menu button 336 is operated (C) is a guidance navigation screen when the guidance navigation button 341 is operated). FIG. 5 is a diagram illustrating the first embodiment, and is a flowchart illustrating operations of the air conditioner 900 and the remote control device 901; FIG. 5 is a diagram illustrating the first embodiment, and is a front view in which illustration of a left and right airflow direction control plate of the air conditioner 900 is omitted. FIG. 5 is a diagram showing the first embodiment, and is a front view in which illustration of an up-and-down air direction control plate of the air conditioner 900 is omitted. FIG. 5 shows the first embodiment and is a longitudinal sectional view of an air conditioner 900. FIG. 3 is a diagram showing the first embodiment and is a wind direction control drive unit structure diagram showing a structure of a drive part related to wind direction control of the air conditioner 900; FIG. 4 is a diagram illustrating the first embodiment, and is a diagram illustrating a wind direction operation by control of the up / down air direction control plate 206 ((a) is a front view in which illustration of the left / right wind direction control plate 207 is omitted, and (b) is a side view illustrating the wind direction operation) Figure). FIG. 6 is a diagram showing the first embodiment, and is a front view in which an illustration of an up / down air direction control plate 206 showing a wind direction operation by control of a left / right air direction control plate 207 is omitted. FIG. 5 shows the first embodiment, and is a diagram of an airflow graphic pattern group (left) 602a. FIG. 5 shows the first embodiment, and is a diagram of an airflow graphic pattern group (right) 602b. The figure which shows Embodiment 1, The figure which shows the example of a display of an airflow information pattern ((a) is the 1st example of airflow information, (b) is the 2nd example of airflow information, (c) is Third example of airflow information). FIG. 5 shows the first embodiment and shows a list of airflow information patterns. FIG. 9 is a diagram illustrating the second embodiment and is a block diagram illustrating configurations of an air conditioner 900 and a remote control device 901; FIG. 8 is a diagram illustrating the second embodiment, and is a diagram illustrating a display example of a human figure pattern 606 ((a) is a display of only a human figure pattern 606, (b) is a display of a human figure pattern 606 and an airflow information pattern 603) . It is a figure which shows Embodiment 3, The figure which shows a windshield mode and a wind-off mode ((a) is a figure which shows a windbreak mode, (b) is a figure which shows a wind-off mode).

Embodiment 1 FIG.
The outline of the present embodiment will be described below.

  First, the air conditioner main body 201 of the air conditioner 900 will be described.

FIG. 1 is an external view of an air conditioner 900 (air conditioner body 201) and a remote control device 901.
As shown in FIG. 1, the air conditioner body 201 includes a radiation sensor 214 such as an infrared sensor on the front surface thereof. This radiation sensor 214 measures the temperature distribution data of the room to be air conditioned.

The air conditioner body 201 includes a room temperature sensor 215 that measures the room temperature of a room to be air conditioned, an air conditioner receiver 400 that receives a signal from the remote control device 901, and an air conditioner that transmits a signal to the remote control device 901. The transmitter 401 and the information lamp 216 indicating that the energy-saving operation of the air conditioner 900 is possible are provided.
In addition, the air conditioner body 201 has an up / down air direction control plate (left) 206a, an up / down air direction control plate (right) 206b, a left / right air direction control plate (left) 207a, A wind direction control plate (right) 207b is also provided.

  Next, the remote control device 901 will be described.

FIG. 2 is an external view of the remote control device 901 of the air conditioner 900.
As shown in FIG. 2, the remote control device 901 includes a remote control device display unit 330 that can display energy saving operation information and operation modes such as cooling, dehumidification, and heating. The remote control device display unit 330 is, for example, a liquid crystal display composed of a dot matrix.
The remote control device 901 stores a remote control device receiving unit 300 that receives a signal from the air conditioner 900, a remote control device transmitting unit 301 that transmits a signal to the air conditioner 900, and various information. Remote control device storage unit 320, and remote control device processing unit 310 that performs various processes based on various information stored in remote control device storage unit 320, signals from air conditioner 900, and the like.

  The remote control device 901 includes a remote control device input button unit 345. The remote control device input button unit 345 includes an operation on / off button 333, a scene select button 334, an upward movement button 335, a menu button 336, a downward movement button 337, a heating button 338, a dehumidifying button 339, a cooling button 340, and an announcement. A navigation button 341, a return button 342, and an enter button 343 are included.

  FIG. 3 is a block diagram illustrating configurations of the air conditioner 900 and the remote control device 901.

First, the configuration of the remote control device 901 will be described.
The remote control device input button unit 345 includes buttons (operation on / off button 333, scene select button 334, upward movement button 335, menu button 336, downward movement button 337, heating button 338, dehumidification button 339, cooling button. 340, an information navigation button 341, a return button 342, and an enter button 343) are input to the remote control device processing unit 310. The remote control device processing unit 310 executes processing according to the function corresponding to each button 333 to 343 based on the input signal.
The remote control device display unit 330 performs display corresponding to the signal output from the remote control device processing unit 310.
The remote control device storage unit 320 stores information such as characters and graphics to be displayed on the remote control device display unit 330.
The remote control device transmission unit 301 transmits the signal output from the remote control device processing unit 310 to the air conditioner reception unit 400, and the remote control device reception unit 300 receives the signal transmitted from the air conditioner transmission unit 401. .

Next, the configuration of the air conditioner 900 will be described.
Both the radiation sensor 214 and the room temperature sensor 215 measure the temperature data of the air-conditioning target room and input it to the air conditioner processing unit 410. At this time, the temperature data output from the radiation sensor 214 passes through the room information detection unit 430. The room information detection unit 430 detects room information such as the size of the room, the position of the wall of the room, the position of the floor of the room, and the shape of the room from the input temperature data.
The air conditioner processing unit 410 determines, for example, the wind direction of conditioned air blown from the air conditioner 900 from the input temperature data, and inputs a signal for controlling the determined wind direction to the air conditioner output unit 440. To do.
The air conditioner storage unit 420 stores operation information data of the air conditioner 900 such as the determined wind direction of the conditioned air.
The air conditioner output unit 440 includes an up / down wind direction (left) control stepping motor 210a that controls the wind direction based on an input signal, an up / down wind direction (right) control stepping motor 210b, and a left / right wind direction (left) control stepping motor. 212a, the left and right wind direction (right) control stepping motor 212b is driven. As a result, the up / down air direction control plate (left) 206a, the up / down air direction control plate (right) 206b, the left / right air direction control plate (left) 207a, and the left / right air direction control plate (right) 207b are controlled.
The air conditioner output unit 440 drives the indoor blower 202 based on the input signal in order to control the strength of the conditioned air that is blown out.

  FIG. 4 is a display example of the remote control device display unit 330 ((a) is a scene selection screen when the scene selection button 334 is operated, and (b) is a menu screen when the menu button 336 is operated. (C) is an announcement navigation screen when the announcement navigation button 341 is operated).

Here, functions corresponding to the input buttons 333 to 343 will be briefly described.
The operation on / off button 333 corresponds to a command function for operating and stopping the air conditioner 900.
The heating button 338 corresponds to a command function for setting the operation mode of the air conditioner 900 to the heating operation. Similarly, the dehumidifying button 339 corresponds to a command function for setting the operation mode of the air conditioner 900 to the dehumidifying operation, and the cooling button 340 corresponds to a command function for setting the operation mode of the air conditioner 900 to the cooling operation.

The scene select button 334 corresponds to a function for selecting an arbitrary setting condition from the conditioned air setting conditions stored in the remote control device storage unit 320.
FIG. 4A shows an example of a scene selection screen displayed by the remote control device display unit 330 when the scene selection button 334 is operated. Items representing human emotions such as “I want to sterilize / deodorize”, “I want to dry in the room”, “I want to cool quickly”, “I want to beautify my skin”, “I want to apply wind” are displayed. These items are stored in the remote control device storage unit 320. On the other hand, the remote control device storage unit 320 stores conditioned air setting conditions corresponding to these display items. For example, when “I want to cool quickly” is selected, the remote control device storage unit 320 stores setting conditions such as setting the strength of the conditioned air blown out from the air conditioner 900 to the strongest. . Then, based on the set condition, the remote control device processing unit 310 performs various processes for increasing the fan rotation speed of the indoor blower 202, for example.

  The menu button 336 corresponds to a function for performing detailed operation setting of the air conditioner 900. For example, FIG. 4B is an example of a menu screen displayed by the remote control device display unit 330 when the menu button 336 is operated. In FIG. 4B, items stored in the remote control device storage unit 320 such as “Easy timer”, “Driving reservation”, “Student”, “Wind adjustment”, “Variety function”, and “Setting” are displayed. ing. The remote control device operator makes detailed settings for these items using the remote control device input button unit 345.

The upward movement button 335 corresponds to a function of changing the temperature in the cooling / heating operation and the direction to increase the humidity in the dehumidifying operation. Alternatively, the upward movement button 335 corresponds to a function for moving an item selection such as a menu screen or a scene selection screen upward. The downward movement button 337 corresponds to a function of changing the temperature during the cooling / heating operation and the humidity during the dehumidifying operation. Alternatively, the downward movement button 337 corresponds to a function for moving the item selection on the menu screen, the scene selection screen or the like downward. The determination button 343 corresponds to a function for determining the item selection.
For example, in FIG. 4A, the remote control device display unit 330 displays the cursor 344 at the position “I want to sterilize / deodorize”, but the remote control device operator selects “I want to cool quickly”. Is assumed. The operator of the remote control device presses the downward movement button 337 twice to move the cursor 344 two times downward, and presses the determination button 343 to determine the selection of “I want to cool quickly”.
The return button 342 corresponds to a function for returning to the normal operation display as shown in FIG. 2 from the menu screen, the scene selection screen, or the like.

  FIG. 4C is an example of an announcement navigation screen displayed by the remote control device display unit 330 when the announcement navigation button 341 is operated. The news navigation is a function that the remote control device display unit 330 displays the operating state of the air conditioner 900 at the time when the news navigation button 341 is operated.

  Here, operations of the air conditioner 900 and the remote control device 901 will be described.

FIG. 5 is a flowchart showing operations of the air conditioner 900 and the remote control device 901.
In the explanation, the navigation function is used as an example.
When the guidance navigation button 341 of the remote control device input button unit 345 is pressed, the guidance navigation button 341 inputs a signal corresponding to the guidance navigation button 341 to the remote control device processing unit 310.
The remote control device processing unit 310 outputs a signal requesting notification of the operating state of the air conditioner 900 based on the signal corresponding to the input guidance navigation button 341.
The remote control device transmission unit 301 transmits the signal output from the remote control device processing unit 310 to the air conditioner reception unit 400.
The air conditioner receiver 400 receives the signal transmitted by the remote control device transmitter 301 and inputs the signal to the air conditioner processor 410.
By the signal input to the air conditioner processing unit 410, the air conditioner processing unit 410 accesses the air conditioner storage unit 420, and the latest operation of the air conditioner 900 stored in the air conditioner storage unit 420 is performed. Get information data.
The air conditioner transmission unit 401 transmits the operation information data of the air conditioner 900 acquired by the air conditioner processing unit 410 to the remote control device reception unit 300.
The remote control device reception unit 300 receives the operation information data transmitted from the air conditioner transmission unit 401 and inputs it to the remote control device processing unit 310.
The remote control device processing unit 310 requests the remote control device storage unit 320 for data corresponding to the input operation information data.
In addition, the remote control device processing unit 310 has a function of analyzing the input operation information data and outputting the analysis result. Then, the remote control device processing unit 310 can request the data corresponding to the analysis result from the remote control device storage unit 320.
Then, the remote control device processing unit 310 acquires the data (data corresponding to the operation information data or data corresponding to the analysis result) stored in the remote control device storage unit 320 from the remote control device storage unit 320. The remote control device display unit 330 displays data acquired by the remote control device processing unit 310.

The example of FIG.4 (c) has shown the information of energy saving operation, and is the result of the remote control apparatus process part 310 analyzing the operation information data of the air conditioner 900 input into the remote control apparatus process part 310. FIG. . As a result, it is determined that the energy-saving operation is possible by changing the set temperature and the set humidity. Alternatively, the air conditioner processing unit 410 can be provided with an analysis function of the operation information data of the air conditioner 900.
If the remote control device processing unit 310 determines that the energy-saving operation of the air conditioner 900 is possible, the determination result is transmitted to the air conditioner processing unit 410 via the remote control device transmission unit 301. And the air conditioner process part 410 performs the process which makes the information lamp 216 light. When the air conditioner processing unit 410 determines that the energy-saving operation of the air conditioner 900 is possible, the air conditioner processing unit 410 performs the process of lighting the information lamp 216 as it is.

  Next, control of conditioned air will be described.

FIG. 6 is a front view of the air conditioner 900 with the left and right airflow direction control plates omitted.
FIG. 7 is a front view of the air conditioner 900 with the vertical air direction control plate omitted.
6 and 7 are diagrams showing a state in which the air conditioner 900 is stopped, but FIG. 6 makes it easy to understand the operation states of the up / down air direction control plate (left) 206a and the up / down air direction control plate (right) 206b. For this reason, the illustration of the left and right wind direction control plates is omitted. Further, in FIG. 7, the illustration of the vertical wind direction control plate is omitted for easy understanding of the operation state of the left and right wind direction control plate (left) 207a and the left and right wind direction control plate (right) 207b.

FIG. 8 is a longitudinal sectional view of the air conditioner 900.
As shown in FIG. 8, the air conditioner 900 includes an indoor fan 202 that sucks and blows air into the air conditioner body 201, a prefilter 208 that removes dust and the like contained in the sucked air, and a first indoor heat exchange. The container 205a, the second indoor heat exchanger 205b, the third indoor heat exchanger 205c, and the fourth indoor heat exchanger 205d are accommodated.
The air inlet port of the air conditioner main body 201 is provided with a suction port 203, and the air outlet 204 of the air conditioner main body 201 is provided with an up / down air direction control plate 206 and a left / right air direction control plate 207.
The indoor blower 202 is rotationally driven by an indoor fan motor (not shown). Thereby, indoor air is taken in into the air conditioner main body 201 from the suction port 203, and heat exchange is performed when the air removed by the prefilter 208 passes through the indoor heat exchangers 205a to 205d. Thereafter, the sucked air passes through the indoor blower 202, is rectified in the vertical and horizontal directions by the left and right airflow direction control plates 207 and the vertical airflow direction control plate 206 disposed at the outlet 204, and is blown out from the air conditioner body 201 to the indoor space. .

FIG. 9 is a structure diagram of the wind direction control drive unit showing the structure of the drive part related to the wind direction control of the air conditioner 900.
The up / down air direction control plate 206 includes an up / down air direction control plate (left) 206a and an up / down air direction control plate (right) 206b. The up / down air direction control plate (left) 206a is connected to the up / down air direction (left) control stepping motor 210a by the up / down air direction control plate (left) link rod 209a. The angle of the up / down air direction control plate (left) 206a is changed by rotating the up / down air direction (left) control stepping motor 210a, so that the up / down air direction angle of the left half air flow blown out from the air conditioner body 201 is changed. It can be adjusted and rectified.

  Similarly, the up / down air direction control plate (right) 206b is connected to the up / down air direction (right) control stepping motor 210b by the up / down air direction control plate (right) link rod 209b. The angle of the up / down air direction control plate (right) 206b is changed by rotationally driving the up / down air direction (right) control stepping motor 210b, and thereby the up / down air direction angle of the right half airflow blown out from the air conditioner body 201 is changed. It can be adjusted and rectified.

  The left / right airflow direction control plate 207 includes a left / right airflow direction control plate (left) 207a and a left / right airflow direction control plate (right) 207b. The left / right wind direction control plate (left) 207a is composed of a plurality of plates, but the plurality of plates are connected by the left / right wind direction control plate (left) link rod 211a and all perform the same operation. A left / right air direction (left) control stepping motor 212a is connected to the tip of the left / right air direction control plate (left) link bar 211a. The angle of the left / right wind direction control plate (left) 207a is changed by rotationally driving the left / right wind direction (left) control stepping motor 212a, and thereby the left / right wind direction angle of the left half airflow blown out from the air conditioner body 201 is changed. It can be adjusted and rectified.

  Similarly, the left / right wind direction control plate (right) 207b is also composed of a plurality of plates, but the plurality of plates are connected by the left / right wind direction control plate (right) link rod 211b and all perform the same operation. A left / right air direction (right) control stepping motor 212b is connected to the tip of the left / right air direction control plate (right) link bar 211b. The angle of the left / right wind direction control plate (right) 207b is changed by rotationally driving the left / right wind direction (right) control stepping motor 212b, and the right / left wind direction angle of the right half airflow blown out from the air conditioner body 201 is thereby changed. It can be adjusted and rectified.

  The rotational drive amounts of the up / down wind direction (left) control stepping motor 210a, the up / down wind direction (right) control stepping motor 210b, the left / right wind direction (left) control stepping motor 212a, and the left / right wind direction (right) control stepping motor 212b are: The air conditioner processing unit 410 shown in FIG. Based on the result calculated by the air conditioner processing unit 410, the air conditioner output unit 440 includes an up / down air direction (left) control stepping motor 210a, an up / down air direction (right) control stepping motor 210b, and a left / right air direction (left). The control stepping motor 212a and the left and right wind direction (right) control stepping motor 212b are driven to rotate.

FIG. 10 is a view showing the wind direction operation by the control of the up / down air direction control plate 206 ((a) is a front view in which the illustration of the left and right wind direction control plate 207 is omitted, and (b) is a side view showing the wind direction operation).
Here, the vertical air direction control plate (left) 206a and the vertical air direction control plate (right) 206b are driven independently. Then, for example, as shown in FIG. 10B, the wind direction is switched in five steps up and down by the control of the up and down wind direction control plate 206 (up and down wind direction (A) 501, up and down wind direction (B) 502, up and down wind direction (C ) 503, vertical wind direction (D) 504, vertical wind direction (E) 505). That is, since the up / down air direction control plate (left) 206a and the up / down air direction control plate (right) 206b are independent, there are 5 stages × left / right = 10 combinations.
In addition, an up / down wind direction swing 506 that swings up and down continuously in five steps of up and down can be set as the switching of the wind direction.

FIG. 11 is a front view of the up / down air direction control plate 206 showing the air direction operation by the control of the left / right air direction control plate 207 with the illustration omitted.
Then, it is assumed that the wind direction is switched in six steps to the left and right by the control of the left and right wind direction control plate 207 (left and right wind direction (A) 511, left and right wind direction (B) 512, left and right wind direction (C) 513, left and right wind direction (D) 514, Left and right wind direction (E) 515, left and right wind direction (F) 516).
In addition, a left / right wind direction swing 517 that repeatedly swings left and right in six steps on the left and right can be set as a change in wind direction.

  Next, an operation example of the air conditioner 900 will be described.

Assume that the room temperature of the air-conditioning target room is 30 ° C., for example, and the remote control device operator wants to lower the room temperature to 27.5 ° C.
It is assumed that the automatic operation mode is performed in which the air conditioner processing unit 410 determines various settings of the air conditioner 900.

It is assumed that the air conditioner 900 is in a stopped state.
In order to perform air conditioning, the remote control device operator operates the operation on / off button 333 or the cooling button 340 of the remote control device 901. As a result, the operation on / off button 333 or the cooling button 340 inputs a signal corresponding to the operation on / off button 333 or the cooling button 340 to the remote control device processing unit 310. Further, the remote control device processing unit 310 inputs a signal processed based on the signal corresponding to the input operation on / off button 333 or the cooling button 340 to the remote control device transmission unit 301. The remote control device transmission unit 301 transmits the signal processed by the remote control device processing unit 310 to the air conditioner reception unit 400.

  Next, in order to set the set temperature of the air-conditioning target room, the remote control device operator operates the upward movement button 335 or the downward movement button 337 and is displayed on the remote control device display unit 330. The set temperature is changed to 27.5 degrees. By this operation, the upward movement button 335 or the downward movement button 337 inputs a signal indicating information on the set temperature to the remote control device processing unit 310. The remote control device processing unit 310 inputs the input set temperature information to the remote control device transmission unit 301. The remote control device transmission unit 301 transmits the input set temperature information to the air conditioner reception unit 400.

  On the other hand, the air conditioner receiver 400 of the air conditioner 900 receives the signal transmitted by the remote control device transmitter 301. The signal received by the air conditioner receiving unit 400 is sent to the air conditioner processing unit 410. The air conditioner processing unit 410 is a cooling operation in which the operation content is set to 27.5 degrees in the room. Recognize that there is.

The air conditioner 900 includes a radiation sensor 214 and a room temperature sensor 215. The radiation sensor 214 inputs the measured temperature information to the air conditioner processing unit 410 via the room information detection unit 430. In addition, the room temperature sensor 215 inputs the measured temperature information to the air conditioner processing unit 410.
The temperature information measured by the room temperature sensor 215 becomes temperature data at one point near the place where the room temperature sensor 215 is installed, but the temperature information measured by the radiation sensor 214 becomes temperature distribution data of the entire room to be air conditioned. .

  A method in which, for example, an infrared sensor is used as the radiation sensor 214, the air conditioner 900 acquires temperature distribution data of the entire room subject to air conditioning, and detects the size of the room, the position of the wall of the room, and the position of the floor of the room. Is described in Japanese Patent Application Laid-Open No. 2010-91253.

  Then, the air conditioner processing unit 410 compares the set temperature information of the room with the information of the measured temperature measured by the sensor, and the optimum wind direction and strength of the conditioned air blown from the air conditioner 900 are compared. Calculate the length. And the air conditioner memory | storage part 420 memorize | stores the operation information of the air conditioner 900 containing the information of the airflow calculated in the air conditioner process part 410. FIG.

In general, during cooling, the vertical wind direction is set to a horizontal position such as the vertical wind direction (A) 501 shown in FIG. On the other hand, during heating, the setting of the up and down wind direction is a downward position such as the up and down wind direction (E) 505 shown in FIG.
However, in the temperature distribution data measured by the radiation sensor 214 during cooling, when a high temperature portion exists locally, the vertical and horizontal wind direction settings are directed to that area.

As for the strength of the wind, for example, it is assumed that the measured temperature measured by the sensor is considerably higher than the set temperature in the room during cooling. In that case, the air conditioner processing unit 410 sends a signal instructing the air conditioner output unit 440 to intensify the wind, and the air conditioner output unit 440 drives the indoor blower 202 according to the signal. On the other hand, if the difference between the set temperature in the room and the measured temperature measured by the sensor decreases, the air conditioner processing unit 410 sends a signal instructing the air conditioner output unit 440 to weaken the wind.
Note that, for example, there are five levels of wind strength setting: “long”, “strong”, “medium”, “weak”, and “still” in order of increasing wind strength.
In the case of defrosting operation, the wind is stopped.

As described above, when the air conditioner 900 is in the automatic operation mode, the air conditioner processing unit 410 determines the wind direction and the strength of the air blown from the air conditioner 900.
The airflow direction and the strength of the airflow determined by the air conditioner processing unit 410 are not displayed on the air conditioner body 201. For this reason, the operator of the remote control device cannot know the contents of the wind direction and the strength of the air flow determined by the air conditioner processing unit 410.

  Therefore, in the present embodiment, a method will be described in which the remote control device operator confirms the wind direction and the strength of the airflow blown from the air conditioner 900 on the remote control device display unit 330. Here, for example, the air conditioner 900 is in the automatic operation mode, and the air conditioner processing unit 410 determines the wind direction and the strength of the airflow blown out from the air conditioner 900.

  First, the remote control device storage unit 320 stores an airflow graphic pattern 601 for displaying airflow information on the remote control device display unit 330.

FIG. 12 is a diagram of an airflow graphic pattern group (left) 602a.
FIG. 13 is a diagram of the airflow graphic pattern group (right) 602b.
The airflow graphic pattern group 602 means a set of airflow graphic patterns 601. The airflow graphic pattern group (left) 602a is an airflow graphic pattern group corresponding to the airflow direction determined by the up / down airflow direction control board (left) 206a and the left / right airflow direction control board (left) 207a. The airflow graphic pattern group (right) 602b is an airflow graphic pattern group corresponding to the airflow direction determined by the up / down airflow direction control board (right) 206b and the left / right airflow direction control board (right) 207b.
The vertical direction of the table represents the vertical wind directions (A) 501 to (E) 505 corresponding to the airflow graphic pattern 601, and the horizontal direction of the table represents the left and right wind directions (A) 511 to (F) corresponding to the airflow graphic pattern 601. 516 combinations are represented.

The strength of the conditioned air blown from the air conditioner 900 is expressed by the shade of the color of the air flow pattern. In the tables of FIGS. 12 and 13, the airflow graphic patterns are all shown in the same color, that is, all represent the same wind strength “long”.
As the wind intensity becomes weaker from “long” → “strong” → “medium” → “weak” → “quiet”, the remote control device display unit 330 shows a figure in a lighter color.

  Then, it is assumed that the remote control device operator wants to confirm the wind direction and the strength of the airflow blown from the air conditioner 900 when the air conditioner 900 is in the automatic operation mode on the remote control device display unit 330. In this case, the remote control device operator operates the news navigation button 341 of the remote control device 901. As described above, the remote control device receiving unit 300 receives the operation information data of the air conditioner 900.

The operation information data of the air conditioner 900 includes airflow information of the air conditioner 900. Here, the airflow information is information on the wind direction and the strength of the conditioned air (airflow) blown out from the air conditioner 900.
In the present embodiment, since the up / down air direction control plate 206 and the left / right air direction control plate 207 are independent from each other on the left and right sides, the air flow of the conditioned air blown out from the air conditioner 900 is also a left / right independent partial air flow. Accordingly, the airflow information is also partial airflow information (left) and partial airflow information (right), which are partial airflow information independent of the left and right.

For example, as a first example of the airflow information, the left and right wind directions of the airflow information included in the operation information data of the air conditioner 900 received by the remote control device receiving unit 300 are in all ranges (A) to (F), the up and down wind directions. Is in the range (E) and the wind strength is “long”.
That is, in the partial air flow information (left) of the air conditioner 900, the left and right wind directions are in the range of (A) to (C), the up and down wind direction is in the range of (E), and the wind strength is “long”. In the partial air flow information (right) of the air conditioner 900, the left and right wind directions are in the range of (D) to (F), the up and down wind direction is in the range of (E), and the wind strength is “long”.

Then, the remote control device receiving unit 300 inputs airflow information (partial airflow information) to the remote control device processing unit 310.
The remote control device processing unit 310 recognizes, as the air flow information pattern 603, the air flow graphic pattern 601 that matches the air flow information in the air flow graphic pattern group 602 stored in the remote control device storage unit 320.
In the present embodiment, the vertical airflow direction control plate 206 and the left and right airflow direction control plates 207 are independent from each other in the left and right directions, so that the airflow information pattern 603 includes the left and right independent partial airflow information patterns (left) 603a and partial airflow information. The pattern (right) 603b is combined.

For example, in the partial air flow information (left) of the air conditioner 900, the left and right wind directions are in the range of (A) to (C), the up and down wind direction is in the range of (E), and the wind strength is “long”. Therefore, the corresponding airflow graphic pattern is the airflow graphic pattern 601a in the drawing of FIG. 12 showing the airflow graphic pattern group (left) 602a. Therefore, the remote control device processing unit 310 recognizes that the airflow graphic pattern 601a is the partial airflow information pattern (left) 603a.
On the other hand, in the partial airflow information (right) of the air conditioner 900, the right and left wind directions are in the range of (D) to (F), the up and down wind direction is in the range of (E), and the wind strength is “long”. Accordingly, the corresponding airflow graphic pattern is the airflow graphic pattern 601b in the drawing of FIG. 13 showing the airflow graphic pattern group (right) 602b. Therefore, the remote control device processing unit 310 recognizes that the airflow graphic pattern 601b is the partial airflow information pattern (right) 603b.
Then, the remote control device processing unit 310 generates an airflow information pattern 603 in which the partial airflow information pattern (left) 603a and the partial airflow information pattern (right) 603b are combined.

FIG. 14 is a diagram illustrating a display example of an airflow information pattern ((a) is a first example of airflow information, (b) is a second example of airflow information, and (c) is an airflow information) Third example).
As shown in FIG. 14A, the remote control device display unit 330 displays the airflow information pattern 603 (partial airflow information pattern (left) 603a and partial airflow information pattern (right) 603b) generated by the remote control device processing unit. Combination).

  FIG. 14B shows a second example of airflow information. The partial airflow information pattern (left) 603a has a right and left wind direction in the range (A) to (B), an up and down wind direction in the range (E), and the wind strength is “long”. (Right) 603b shows that the left and right wind directions are in the range of (E) to (F), the up and down wind direction is in the range of (E), and the wind strength is “long”.

FIG. 14C shows a third example of airflow information. The wind direction is the same as in FIG. 14A, but the color of the airflow information pattern is light. The color of the airflow information pattern in FIG. 14C indicates the case where the wind strength is “static”.
As the wind strength changes from “long” → “strong” → “medium” → “weak” → “still”, the color of the airflow information pattern changes from a dark color to a light color.
Here, FIG. 14A shows the air current information pattern of the darkest color with the wind intensity being “long”. On the other hand, FIG. 14C shows the air current information pattern of the lightest color with the wind intensity being “static”. “Strong”, “medium”, and “weak” are indicated by gradation colors intermediate between “long” and “static”.
Thus, the remote control device display unit 330 also displays the strength of the airflow blown from the air conditioner 900 (wind strength).

In addition, the room information detection unit 430 detects the size of the air-conditioning target room and the position of the floor or wall based on the temperature data of the radiation sensor 214 included in the air conditioner 900. Then, when the air conditioner 900 is in the automatic operation mode, the air conditioner processing unit 410 determines which area of the room the air current is to be blown based on the room information detected by the room information detection unit 430. Determine the wind direction.
That is, based on the information on the room detected by the room information detection unit 430, the air conditioner processing unit 410 determines the direction of the airflow, thereby determining information on which area of the room the airflow is blown out. It will be.
Here, the remote control device storage unit 320 stores a floor grid pattern 604 representing the floor of the room as shown in FIG. The remote control device display unit 330 can display the floor grid pattern 604. The floor grid pattern 604 is a fixed figure regardless of the airflow information, and is displayed at a fixed position on the remote control device display unit 330. The remote control device display unit 330 can display the wind direction of the air flow superimposed on the floor grid pattern 604. The operator of the remote control device can recognize which area of the room is blowing the air current by checking the remote control device display unit 330.

FIG. 15 is a diagram showing a list of airflow information patterns.
Here, the partial airflow information pattern (left) and the partial airflow information pattern (right) in the same frame are combined in the same direction. Furthermore, the wind strength is all “long”.

When the remote control device display unit 330 displays the airflow information pattern 603, the airflow direction and the strength of the airflow blown out from the air conditioner 900 determined by the air conditioner processing unit 410 in the automatic operation mode of the air conditioner 900 are displayed. The operator of the remote control device can easily confirm this.
In other words, the operator of the remote control device 901 can easily control the air conditioner 900 without using the up-and-down wind direction control plate 206 or the left and right air direction control plate 207 of the air conditioner main body 201 installed near the ceiling. You can check the operating status.

  The operation information data of the air conditioner 900 received by the remote control device receiving unit 300 includes data indicating the operation status of the air conditioner 900 such as energy saving operation and defrosting operation during heating. Therefore, the remote control device display unit 330 can also display an operation status indicating that the operation is energy saving operation or defrosting operation during heating. Therefore, similarly, the operator of the remote control device can check the driving situation with the remote control device 901 at hand.

  The remote control device display unit 330 has a color of the airflow information pattern in order to express the flow of the wind from the figure 605 showing the air conditioner body (see FIG. 14C) toward the floor grid pattern 604. It is also possible to display the animation by changing the absence continuously.

In the present embodiment, an example in which the vertical wind direction control plate 206 and the left and right wind direction control plates 207 are independent from each other on the left and right sides is shown, but the present invention is not limited to this example.
For example, the up / down wind direction control plate 206 and the left / right wind direction control plate 207 may be independent of left, middle, and right, respectively. In this case, there are three partial airflow information and partial airflow information patterns.
The upper and lower wind direction control plates 206 and the left and right wind direction control plates 207 may be further independent.
Further, there may be only one vertical wind direction control plate 206 and left and right wind direction control plate 207. In this case, the partial airflow information and the partial airflow information pattern do not exist. The remote control device processing unit 310 selects one airflow information pattern for one airflow information.

In this embodiment, the remote control device processing unit 310 determines the airflow information pattern 603 based on the airflow information included in the operation information data of the air conditioner 900 received by the remote control device receiving unit 300. However, it is not limited to this example.
For example, the air conditioner output unit 440 outputs a signal for driving a fan included in the indoor blower 202. And the rotational speed of the fan with which the indoor air blower 202 is provided is proportional to the output voltage of the signal which the air conditioner output part 440 outputs. That is, the strength of the wind blown from the air conditioner 900 can be determined from the output voltage value of the signal output from the air conditioner output unit 440.
And the air conditioner transmission part 401 includes the information regarding the output voltage value of the signal which the air conditioner output part 440 outputs in the operation information data of the air conditioner 900.
On the other hand, the remote control device storage unit 320 stores a set voltage value of wind strength with respect to an output voltage value of a signal output from the air conditioner output unit 440.
For example, output voltage 0V: stop, 10V: static, 20V: weak, 30V: medium, 40V: strong, 50V: long.
Then, the remote control device processing unit 310 outputs the output voltage value of the signal output from the air conditioner output unit 440 included in the operation information data, and the setting voltage of the wind strength stored in the remote control device storage unit 320. Compare the value. As a result, the remote control device processing unit 310 can determine the wind strength of the airflow information pattern 603.
The remote control device processing unit 310 also includes a stepping motor that controls the up / down air direction control plate 206 and the left / right air direction control plate 207 (up / down air direction (left) control stepping motor 210a, up / down air direction (right) control stepping motor 210b, left / right The information of the signal output from the air conditioner output unit 440 for driving the wind direction (left) control stepping motor 212a and the left and right wind direction (right) control stepping motor 212b) is obtained as information included in the operation information data. Thus, the wind direction of the airflow information pattern 603 can be determined.
As described above, the remote control device processing unit 310 is not limited to the airflow information (for example, the wind direction and the strength of the wind) included in the operation information data of the air conditioner 900, but various types of information included in the operation information data of the air conditioner 900. The airflow information pattern 603 can be determined from information (for example, an output voltage value of a signal output from the air conditioner output unit 440).

Embodiment 2. FIG.
FIG. 16 is a block diagram showing the configuration of the air conditioner 900 and the remote control device 901. In the present embodiment, the air conditioner 900 includes a human body position information detection unit 431.

The radiation sensor 214 measures the temperature data of the room to be air conditioned. Then, based on the temperature data measured by the radiation sensor 214, the human body position information detection unit 431 detects an area where the human body exists, and inputs the human body position information to the air conditioner processing unit 410.
A method for detecting the position of the human body is disclosed in the aforementioned Japanese Patent Application Laid-Open No. 2010-91253.

Further, the air conditioner storage unit 420 stores the human body position information input to the air conditioner processing unit 410.
As in the first embodiment, when the remote control device operator operates the news navigation button 341, the air conditioner processing unit 410 acquires the latest human body position information from the air conditioner storage unit 420. Then, the air conditioner transmission unit 401 transmits the human body position information acquired by the air conditioner processing unit 410 to the remote control device 901.

  On the other hand, the remote control device storage unit 320 stores a human figure pattern 606 representing the human body and a floor grid pattern 604 representing the floor of the room.

The remote control device display unit 330 displays the floor grid pattern 604.
Then, the remote control device processing unit 310 calculates a position on the floor grid pattern 604 displayed on the remote control device display unit 330 based on the human body position information.
The remote control device display unit 330 displays the human figure pattern 606 at the display position calculated by the remote control device processing unit 310.

FIG. 17 is a diagram showing a display example of the human figure pattern 606 ((a) is a display of only the human figure pattern 606, (b) is a display of the human figure pattern 606 and the airflow information pattern 603).
As shown in FIG. 17A, the remote control device operator can detect the human body position information of the air conditioner 900 by displaying the human body graphic pattern 606 on the remote control device display unit 330 based on the human body position information. It can be easily confirmed that the function is operating normally.

Further, as shown in FIG. 17B, the human body graphic pattern 606 and the airflow information pattern 603 are displayed at the same time, so that the operator of the remote control device can determine the positional relationship between the airflow direction blown out by the air conditioner 900 and the human body. Can be easily confirmed.
Note that the airflow direction and the strength of the airflow are set by the air conditioner processing unit 410 based on the human body position information, and when the remote control device operator manually sets the airflow direction and the strength of the wind manually. There is.
When the air conditioner processing unit 410 sets the airflow direction, the remote control device operator visually checks the remote control device display unit 330 to confirm that the setting of the air conditioner processing unit 410 is normally performed. I can confirm. If the remote control device operator manually sets the wind direction of the airflow, the remote control device operator manually corrects the wind direction and the wind intensity to a more appropriate level by viewing the remote control device display unit 330. I can do it.

Embodiment 3 FIG.
FIG. 18 is a diagram showing a windbreak mode and a windbreak mode ((a) is a diagram illustrating a windbreak mode, and (b) is a diagram illustrating a windbreak mode).

For example, it is assumed that the remote control device operator feels uncomfortable that the air flow of conditioned air directly hits the head during the cooling operation of the air conditioner 900. At this time, the operator of the remote control device operates the scene select button 334 to select “I want to keep wind”. By this operation, the air conditioner 900 is operated in the windbreak mode.
And the remote control apparatus memory | storage part 320 memorize | stores the information called windbreak mode. Alternatively, the information on the wind protection mode is transmitted to the air conditioner 900 side, and the air conditioner storage unit 420 stores the information on the wind protection mode. When the air conditioner storage unit 420 stores information on the windbreak mode, the operation information data of the air conditioner 900 includes information on the windbreak mode.
Here, the windbreak mode will be described. First, the human body position information detection unit 431 detects the position of a human body in a room subject to air conditioning. The air conditioner processing unit 410 controls the up / down air direction control plate 206 and the left / right air direction control plate 207 so as to blow out the conditioned air of the air conditioner 900 while avoiding the detected human body position. As a result, the human body can avoid direct contact with the airflow of conditioned air blown out by the air conditioner 900.

On the other hand, the remote control device storage unit 320 stores a windshield mode human figure pattern 607 which is a human figure pattern indicating the windshield mode.
Then, the remote control device processing unit 310 is operated based on the information on the wind protection mode stored in the remote control device storage unit 320 or the information on the wind protection mode included in the operation information of the air conditioner 900. Recognizing that it is the shade mode, the display position of the wind shield mode human figure pattern 607 is calculated based on the human body position information.
The remote control device display unit 330 displays the windshield mode human figure pattern 607 at the display position calculated by the remote control device processing unit 310.
As shown in FIG. 18A, the windscreen mode human body pattern 607 and the airflow information pattern 603 are displayed at the same time, so that the remote control device operator can confirm that the windscreen mode is operating normally. Easy to check.
Similarly to the second embodiment, the remote control device display unit 330 can simultaneously display the floor grid pattern 604 representing the floor of the room.

Further, for example, a case is assumed where the operator of the remote control device feels that he / she wants to cool his / her body immediately after exercise. At that time, the remote control device operator operates the scene select button 334 to select “I want to blow the wind”. By this operation, the air conditioner 900 is operated in the wind blowing mode.
Then, the remote control device storage unit 320 stores information such as wind blowing mode. Alternatively, the information on the wind contact mode is transmitted to the air conditioner 900 side, and the air conditioner storage unit 420 stores the information on the wind contact mode. In the case where the air conditioner storage unit 420 stores information on the air blowing mode, the operation information data of the air conditioner 900 includes information on the air blowing mode.
Here, the wind blowing mode will be described. First, the human body position information detection unit 431 detects the position of a human body in a room subject to air conditioning. Then, the air conditioner processing unit 410 controls the up / down air direction control plate 206 and the left / right air direction control plate 207 so as to blow out the conditioned air of the air conditioner 900 aiming at the detected human body position. As a result, the human body can directly apply the conditioned air flow blown out by the air conditioner 900.

On the other hand, the remote control device storage unit 320 stores a wind-affected mode human body graphic pattern 608 which is a human body graphic pattern indicating a wind-addressed mode.
Then, the remote control device processing unit 310 uses the wind contact mode stored in the remote control device storage unit 320 based on the information on the wind contact mode or the information on the wind contact mode included in the operation information of the air conditioner 900. And the display position of the wind-affected mode human figure pattern 608 is calculated based on the human body position information.
The remote control device display unit 330 displays the wind-affected mode human figure pattern 608 at the display position calculated by the remote control device processing unit 310.
As shown in FIG. 18 (b), the wind control mode human figure pattern 608 and the airflow information pattern 603 are displayed simultaneously, so that the remote control device operator can easily confirm that the wind control mode is operating normally. I can confirm.
Similarly to the second embodiment, the remote control device display unit 330 can simultaneously display the floor grid pattern 604 representing the floor of the room.

  201 Air Conditioner Main Body, 202 Indoor Blower, 203 Suction Port, 204 Outlet, 205a First Indoor Heat Exchanger, 205b Second Indoor Heat Exchanger, 205c Third Indoor Heat Exchanger, 205d Fourth Room Heat exchanger, 206 Up / down air direction control plate, 206a Up / down air direction control plate (left), 206b Up / down air direction control plate (right), 207 Left / right air direction control plate, 207a Left / right air direction control plate (left), 207b Left / right air direction control plate (right) ), 208 Pre-filter, 209a Vertical wind direction control plate (left) link rod, 209b Vertical wind direction control plate (right) link rod, 210a Vertical wind direction (left) control stepping motor, 210b Vertical wind direction (right) control stepping motor, 211a Left / right airflow direction control plate (left) link rod, 211b Left / right airflow direction control plate (right) link rod, 212a left Stepping motor for controlling wind direction (left), 212b Stepping motor for controlling right and left wind direction (right), 214 radiation sensor, 215 room temperature sensor, 216 information lamp, 300 remote control device receiving unit, 301 remote control device transmitting unit, 310 remote control device Processing unit, 320 Remote control device storage unit, 330 Remote control device display unit, 333 Operation on / off button, 334 Scene select button, 335 Upward movement button, 336 Menu button, 337 Downward movement button, 338 Heating button, 339 Dehumidification button, 340 Air conditioning button, 341 News navigation button, 342 Back button, 343 Enter button, 344 Cursor, 345 Remote control device input button section, 400 Air conditioner reception unit, 401 Air conditioner transmission unit, 410 Air conditioner processing unit, 420 Air conditioner storage unit, 430 Room information detection unit, 431 Human body position information detection unit, 440 Air conditioner output unit, 501 Vertical wind direction (A), 502 Up / down wind direction (B), 503 Up / down wind direction (C), 504 Up / down wind direction (D), 505 Up / down wind direction (E), 506 Up / down wind direction swing, 511 Left / right wind direction (A), 512 Left / right wind direction (B) 513 Left / right wind direction (C), 514 Left / right wind direction (D), 515 Left / right wind direction (E), 516 Left / right wind direction (F), 517 Left / right wind direction swing, 601 Airflow graphic pattern, 602a Airflow graphic pattern group (left), 602b Airflow Graphic pattern group (right), 603 Airflow information pattern, 603a Partial airflow information pattern (left), 603b Partial airflow information pattern Right), 604 floor surface grid pattern, figure indicating the 605 air conditioner main body, 606 human figure patterns, 607 windbreak mode human figure patterns, 608 wind addressed mode human figure patterns, 900 air conditioner, 901 a remote control device.

Claims (4)

From the body of the air conditioner is installed in the room, and a remote control device receiving section that receives information indicating the direction of air flow body of the air conditioner is blown out as the air current information,
A remote control device storage unit that stores , as an air flow graphic pattern group , graphic groups each representing the direction of the air flow blown out by the main body of the air conditioner , and stores a graphic representing a plurality of areas of the room as a floor grid pattern ;
From among the remote control device storage section vapor stream graphic pattern group that has stored, the remote control device process of selecting a stream graphic pattern representing more orientation of the airflow shown in the remote control device stream information received by the receiver And
The air flow pattern is selected by the remote control device processing unit and the floor grid pattern stored in the remote control device storage unit, and the main body of the air conditioner blows the air flow to any area of the room. A remote control device comprising: a remote control device display unit for displaying whether or not the device is on the screen . The air flow information further is information indicating the strength of the airflow main body of the air conditioner is blown out,
The airflow graphic pattern group is a graphic group that further represents the strength of the airflow blown out by the main body of the air conditioner,
Said remote control device processing unit, from the said remote control device a stream graphic pattern group storage unit stores, representing the direction and strength of air flow the remote control device receiving section is shown more in the received stream information The remote control device according to claim 1 , wherein an airflow graphic pattern is selected . The remote control device receiving unit receives, from the main body of the air conditioner, information indicating the position where the human body detected by the main body of the air conditioner exists as human body position information,
The remote control device storage unit stores a figure representing a human body as a human figure pattern,
The remote control device processing unit calculates a display position corresponding to the position indicated by the human body position information received by the remote control device reception unit in the floor grid pattern stored in the remote control device storage unit. And
Said remote control device display unit further floor grid pattern to be displayed on the screen, the remote control device processing unit displays the calculated position, displays a human body figure pattern the remote control device storage section stores The remote control device according to claim 1 , wherein the remote control device is a remote control device. And a remote control device according to any preceding 請 Motomeko 1 3,
A temperature distribution of the room, a blower that blows out an air current, an up / down air direction control plate that adjusts an up / down direction of the air flow blown out by the blower, a left / right air direction control plate that adjusts a left / right direction of the air flow blown out by the blower, and a radiation sensor for measuring, based on the temperature distribution which the radiation sensor is measured, and the room information detecting unit for detecting the floor position of said room wall of the room, the room information detecting section detects based on the position and floor position of the wall, and the air conditioner unit for determining the orientation of air flow the upper and lower air direction control plate and the right and left wind direction control plate is adjusted, the air conditioner unit has determined the air conditioner output unit for controlling the in the orientation of the gas flow between the upper and lower air direction control board the right and left air direction control board, the information indicating the direction of air flow the air conditioner unit is determined as the stream information remotely Control An air conditioner characterized by comprising a <br/> a body having an air conditioner transmitting unit that transmits to the location.

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