JP2014020702A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner for protecting privacy by turning off equipment relating to image processing in a lump.SOLUTION: The air conditioner includes an image processing board, an air conditioning control board, and a power supply for supplying power to the air conditioning control board and the image processing board. The image processing board includes image pickup means for picking up the images of a room in which indoor equipment is installed, and an image processing microcomputer for processing image information input from the image pickup means. The air conditioning control board includes a switch for turning on/off the supply of the power to the image processing board, receiving means for receiving signals from a remote control, and an air conditioning control microcomputer for controlling the switch on the basis of the signals received by the receiving means. The power supply supplies the power to the air conditioning control microcomputer and the receiving means, and also supplies the power to the image pickup means and the image processing microcomputer via the switch and a DC-DC converter.

Description

  The present invention relates to an air conditioner and an air conditioner control method.

  There is known an air conditioner that detects an occupant in a room where an indoor unit is installed and reflects the detection result in air conditioning control.

  For example, Patent Literature 1 describes an air conditioner including an image sensor that detects the presence of a person and a control device that performs air-conditioning control based on the detection result of the image sensor.

  Japanese Patent Application Laid-Open No. H10-228561 describes that by providing a switch that can freely turn on and off the operation of the image sensor, it can be turned off when the image sensor is not desired to be used. When the image sensor is turned off during the season when the air conditioner is not used, the energy consumption of the image sensor can be reduced.

Japanese Patent No. 4487809

  However, the switch of Patent Document 1 can turn off the operation of the image sensor, but cannot turn off the operation of the microcomputer that processes the image information detected by the image sensor. Therefore, in the air conditioner of Patent Document 1, the microcomputer that processes the image information remains on, and wasteful energy is used.

  An object of the present invention is to reduce the amount of energy used by an apparatus related to image processing.

  An air conditioner of the present invention includes an image processing board, an air conditioning control board, and a power supply that supplies power to the air conditioning control board and the image processing board, and the image processing board images a room in which the indoor unit is installed. And an image processing microcomputer for processing image information input from the imaging means. The air conditioning control board receives a signal from the remote controller and a switch for turning on / off power supply to the image processing board. Receiving means, and an air conditioning control microcomputer for controlling the switch based on the signal received by the receiving means, the power supply supplies power to the air conditioning control microcomputer and the receiving means, and the switch and the DC-DC converter Power is supplied to the imaging means and the image processing microcomputer.

  ADVANTAGE OF THE INVENTION According to this invention, the usage-amount of the energy of the apparatus which concerns on image processing can be reduced.

It is a front view of the indoor unit of an air conditioner, an outdoor unit, and a remote control. It is a sectional side view of an indoor unit. It is a block diagram regarding an image processing board | substrate and an air-conditioning control board. It is a sectional side view of an indoor unit.

  Embodiments of the present invention will be described in detail with reference to the drawings as appropriate. In addition, the same code | symbol is attached | subjected to the common part in each figure, and the overlapping description is abbreviate | omitted.

  FIG. 1 is a front view of an indoor unit, an outdoor unit, and a remote controller of an air conditioner. As shown in FIG. 1, the air conditioner A includes an indoor unit 100, an outdoor unit 200, and a remote controller Re. The indoor unit 100 and the outdoor unit 200 are connected by a refrigerant pipe (not shown), and air-conditions the room where the indoor unit 100 is installed by a known refrigerant cycle. The indoor unit 100 and the outdoor unit 200 transmit and receive information to and from each other via a communication cable (not shown).

  The remote controller Re is operated by the user and transmits an infrared signal to the receiving means 131 of the indoor unit 100. The contents of the signal are commands such as an operation request, a change in set temperature, a timer, an operation mode change, and a stop request. The air conditioner A performs air conditioning operations such as a cooling mode, a heating mode, and a dehumidifying mode based on these signals.

  In addition, an imaging unit 110 and a display unit 111 are installed in the lower part of the center in the left-right direction of the front panel 106 of the indoor unit 100. The imaging means 110 is, for example, a CCD (Charge Coupled Device) camera, and is installed at the lower part of the center of the front panel 106 in the left-right direction. The imaging unit 110 is installed such that the optical axis of the lens is directed downward by a predetermined angle with respect to the horizontal line, so that the room in which the indoor unit 100 is installed can be appropriately imaged.

  In addition, a power source 152, an air conditioning control board 114, and an image processing board 113 are arranged in this order in the longitudinal direction of the indoor unit 100. Details of the power supply 152, the air conditioning control board 114, and the image processing board 113 will be described later.

  FIG. 2 is a side sectional view of the indoor unit. The housing base 101 houses internal structures such as the heat exchanger 102, the blower fan 103, the filter 108, and the dew receiving tray 151.

  The heat exchanger 102 has a plurality of heat transfer tubes 102a. The air taken into the indoor unit 100 by the blower fan 103 is exchanged with the refrigerant flowing through the heat transfer tubes 102a to heat or cool the air. It is configured. The heat transfer tube 102a communicates with a refrigerant pipe (not shown) and constitutes a part of a known refrigerant cycle (not shown).

  The left and right wind direction plates 104 are rotated by a left and right wind direction plate motor (not shown) with a rotation shaft (not shown) provided at the lower part as a fulcrum according to an instruction from the air conditioning control microcomputer 122 (not shown). The

  The vertical airflow direction plate 105 is rotated by a vertical airflow direction plate motor (not shown) around a rotation shaft (not shown) provided at both ends in accordance with an instruction from the indoor unit microcomputer.

  The front panel 106 is installed so as to cover the front surface of the indoor unit 100, and is configured to be rotatable by a front panel motor (not shown) with the lower end as an axis. Incidentally, you may comprise the front panel 106 as what is fixed to a lower end.

  When the blower fan 103 shown in FIG. 2 rotates, the indoor air is taken in through the air suction port 107 and the filter 108, and the air heat-exchanged by the heat exchanger 102 is guided to the blowout air passage 109a. Further, the air guided to the blowout air passage 109a is adjusted in air direction by the left and right airflow direction plates 104 and the vertical airflow direction plate 105, and is sent to the outside from the air blowing port 109b to air-condition the room.

  The dew receiving tray 151 is located below the heat exchanger 102 and above the air outlet 109b.

  As shown in FIG. 2, the air conditioning control board 114 and the image processing board 113 are disposed above the air outlet 109b and between the dew tray 151 and the front panel 106, thereby effectively utilizing the space in the indoor unit. can do. Further, by closing the up-and-down wind direction plate 105 and covering the image processing board 113 when the operation of the air conditioner is stopped, it is possible to prevent the display unit 111 of the image processing board 113 from imaging the room when the operation is stopped.

  Here, the image processing board 113 is disposed at a position close to the dew receiving tray 151 for space reasons, but it is necessary to prevent dew from entering the image processing board 113. Therefore, the image processing substrate 113 is covered with a resin cover.

  The space in the indoor unit can be effectively utilized by arranging the ion mist device (not shown) and the display board (not shown) on the same straight line as the air conditioning control board 114 and the image processing board 113. .

  FIG. 4 is a side sectional view of the indoor unit. FIG. 4 differs from FIG. 2 in the location of the air conditioning control board 114 and the image processing board 113. As shown in FIG. 4, the image processing board 113 having the display unit 111 is disposed at a position above the air outlet 109 b and between the heat exchanger 102 and the front panel 106. By disposing the image processing substrate 113 at such a position, the display unit 111 can be displayed from the front panel 106 toward the room.

  FIG. 3 is a block diagram relating to the image processing board and the air conditioning board.

  The image processing board 113 is mounted with an imaging unit 110, an image processing microcomputer 121, and an LED that is a display unit 111. The air conditioning control board 114 includes an air conditioning control microcomputer 122 and a camera power SW 115. The receiving means 131 and the air conditioning control microcomputer 122, the air conditioning control microcomputer 122 and the image processing microcomputer 121, the air conditioning control microcomputer 122 and the switch 115, and the image processing microcomputer 121 and the imaging means 110 are connected by a communication line.

  The control means 130 includes an image processing microcomputer 121 and an air conditioning control microcomputer 122.

  A method for starting and stopping the operation of the imaging unit 110 will be described.

  The remote control signal received by the receiving means 131 is sent to the air conditioning control microcomputer 122. When the remote control signal is a signal for starting the image pickup means 110, the air conditioning control microcomputer 122 turns on the camera power SW 115 to supply power to the image processing microcomputer 121 and the image pickup means 110. Thereafter, the imaging means 110 is controlled by the image processing microcomputer 121, and indoor imaging is started.

  When the receiving unit 131 receives a stop signal of the imaging unit 110 or a stop signal of the air conditioner A, a sequence for stopping the operation of the imaging unit 110 is performed. First, a signal received by the receiving unit 131 is sent to the air conditioning control microcomputer 122. The air conditioning control microcomputer 122 sends a stop command to the image processing microcomputer 121 and the imaging means 110. The image processing microcomputer 121 and the imaging unit 110 stop operating. Thereafter, the air conditioning control microcomputer 122 turns off the camera power SW 115 to cut off the supply of power to the image processing microcomputer 121 and the imaging means 110.

  By doing so, it is possible to avoid a situation in which the power supply to the image processing microcomputer 121 and the imaging unit 110 is suddenly cut off and the image processing microcomputer 121 and the imaging unit 110 break down.

  The display unit 111 mounted on the image processing board 113 is configured to automatically turn on when power is supplied from the power supply unit 152, and the state of the switch 115 can be visualized and shown to the user.

  The structure that automatically lights up when power is supplied eliminates the need for a switch for turning on and off the display means and eliminates the need for a control line, thereby reducing the size and cost of the board. . Furthermore, by disposing the imaging unit 110 and the display unit 111 on the same substrate, it is possible to cut off the supply of power to the display unit 111 and make it difficult to modify to supply power only to the imaging unit 110. .

  An excess space may be provided in the longitudinal direction of the indoor unit 100, and the image processing board 113 and the air conditioning control board 114 may be provided on the same straight line with respect to the longitudinal direction of the indoor unit 100.

  Here, in this embodiment, the control unit 130 is divided into the air conditioning control microcomputer 122 and the image processing microcomputer 121, and the image processing microcomputer 121 is provided on a separate substrate from the air conditioning control microcomputer 122. With such an arrangement, the image processing microcomputer 121 can be turned off while the air conditioning control microcomputer 122 performs air conditioning control.

  Further, by installing the imaging unit 110 and the image processing microcomputer 121 on the same substrate as the display unit 111, the display unit 111 can notify the user that the imaging unit 110 and the image processing microcomputer 121 are in an ON state. In other words, power is not supplied to the imaging means 110 and the image processing microcomputer 121 when the display means 111 is OFF.

  The imaging unit 110, the image processing microcomputer 121, and the display unit 111 are arranged on the image processing board 113, and when the human detection is not performed, the entire image processing board 113 is cut off to save standby power of the entire image processing board 113. can do.

  Further, the image processing board 113 includes DC-DC converters 138 and 139 in order to arrange the imaging means 110, the image processing microcomputer 121, and the display means 111 having different required voltages on one board. The power supplied from the switch 115 is supplied to the imaging unit 110 via the DC-DC converter 138 and is supplied to the image processing microcomputer 121 via the DC-DC converter 139.

  Here, since the switch 115 is provided on the air conditioning control board 114 and the power source 152 supplies power to the image processing board 113 via the air conditioning control board 114, it is possible to prevent the wiring from becoming complicated.

  Further, by using the DC-DC converter 138 and the DC-DC converter 139, it is possible to adjust to voltages required for the air conditioning control microcomputer 122, the image processing microcomputer 121, and the imaging means 110, respectively.

  Note that the voltage drop width of the DC-DC converter 138 is larger than that of the DC-DC converter 139.

  The on / off of the switch 115 is controlled by an electrical signal such as a remote control signal or a sensor signal, and there are a case where the switch 115 is configured by a hard SW and is manually turned on / off.

  By installing a function to turn on / off the remote control signal, there is an advantage that the user can easily cut off the power supply even in an air conditioner that is generally installed at a high place. Conversely, when the SW is turned on and off manually, there is a demerit of working at a high place, but there is a merit that a sense of security as a general user is great. By arranging two SWs in series, a circuit configuration that can obtain both merits can be obtained.

  The image processing microcomputer 121 processes the image captured by the imaging unit 110 into information that can be reflected in the air conditioning control. The image processing microcomputer 113 includes a human body detection unit, a face detection unit, an integration processing unit, a movement amount calculation unit, and an activity amount calculation unit. For example, an image photographed by the imaging means 110 is converted into information such as how many people are in the room and how active they are.

  The air-conditioning control microcomputer 122 performs the control of the air conditioner A according to a remote control signal input from the remote control Re via the receiving means 131 and a sensor signal input from sensors such as a temperature detector (not shown). Controls the drive of loads (indoor fan motor, compressor motor, up / down wind direction plate motor, left / right wind direction plate motor, etc.).

  Further, the air conditioning control microcomputer 122 determines a control value based on the information processed by the image processing microcomputer 121. For example, when there are a plurality of people in the room during the heating operation, a control value such as a control for lowering the set temperature by 1 ° C. is calculated.

  As described above, in order to collectively turn off the power supply to the devices related to image processing, it is necessary to cut off the power supply to the image processing microcomputer 121 when the image processing unit 110 is not used.

  Therefore, the air conditioner of the present invention includes an image processing board 113, an air conditioning control board 114, and a power supply 152 that supplies power to the air conditioning control board 114 and the image processing board 113. And an image processing microcomputer 121 for processing image information input from the image pickup means 110. The air conditioning control board 114 supplies power to the image processing board 113. The power supply 152 includes a switch 115 for turning on / off the supply, a receiving unit 131 for receiving a signal from the remote controller, and an air conditioning control microcomputer 122 for controlling on / off of the switch 115 based on the signal received by the receiving unit 131. Power is supplied to the air conditioning control microcomputer 122 and the receiving means 131, and imaging is performed via the switch 115 and the DC-DC converter. Supplying power to the means 110 and the image processing microcomputer 121.

  According to the air conditioner of the present invention, since the image pickup means 110, the image processing microcomputer 121, and the display means 111 are arranged on one substrate, the supply of power to these is cut off when the image pickup means 110 is not used. be able to. The microcomputer is divided into an image processing microcomputer 121 and an air conditioning control microcomputer 122, and the switch 115 is controlled by the air conditioning control microcomputer 122 to cut off the supply of power to the image processing microcomputer 121 and the imaging means 110, thereby relating to image processing. The supply of power to the equipment can be shut off collectively.

  In addition, since power is supplied to the image processing board 113 via the air conditioning control board 114 and the switch 115 is provided on the air conditioning control board 114, the electrical wiring of the image processing board 113 can be made compact.

  In the air conditioner of the present invention, the image processing board 113 has display means 111 for displaying on the outside that the imaging means 110 is operating.

  According to the air conditioner of the present invention, when the power is supplied to the image processing board 113, the power can be supplied to the display means 111, so that the imaging means 110 is operating for the user. I can let you know. Further, since the display unit 111 is disposed on the same substrate as the imaging unit 110 and the image processing microcomputer 121, it may be difficult to separate the display unit 111 from the imaging unit 110 and the image processing microcomputer 121. it can.

  Here, the air conditioner of the present invention is configured by separating the image processing board 113 and the air conditioning control board 114, and the image processing board 113 is provided with a converter for adjusting the voltage level. Increases the area that can be closed. Therefore, these substrates provide ventilation resistance. In addition, the imaging unit 110 needs to be provided on the front side of the indoor unit due to the problem of viewing angle.

  Therefore, the air conditioner of the present invention exchanges heat with the front panel 106, the heat exchanger 102 that exchanges heat with the indoor air, the dew receiving tray 151 that is disposed below the heat exchanger 102, and the heat exchanger 102. An air outlet 109b that blows out the air into the room, the power supply 152, the air conditioning control board 114, and the image processing board 113 are sequentially arranged in the longitudinal direction of the indoor unit 100, and the air conditioning control board 114 and the image processing board 113 are It is an upper part of the air outlet 109b and is disposed between the dew receiving tray 151 and the front panel 106, and the image processing substrate 113 is covered with a resin cover.

  According to the air conditioner of the present invention, the imaging unit 110 of the image processing board 113 can be provided on the front surface while preventing the air conditioning control board 114 and the image processing board 113 from becoming a ventilation resistance.

  Further, although the image processing substrate 113 is disposed at a position close to the dew receiving tray 151 for reasons of space, it is necessary to prevent dew from entering the image processing substrate 113. According to the air conditioner of the present invention, since the image processing substrate 113 is covered with the resin cover, it is possible to prevent dew from entering the image processing substrate 113.

  Further, the air conditioner of the present invention includes a manual switch for manually turning on / off the supply of power to the image processing board 113.

  According to the air conditioner of the present invention, since the image pickup means 110, the image processing microcomputer 121, and the display means 111 are arranged on one board, the power supply of the entire image equipment can be more reliably supplied with one manual switch. Can be blocked.

  Further, the air conditioner of the present invention pots between the image pickup means 110 and the image processing microcomputer 121.

  The air conditioner of the present invention stops the operations of the image processing microcomputer 121 and the imaging means 110 when the receiving means 131 receives a signal for stopping the imaging means 110, and the image processing microcomputer 121 and the imaging means 110. After the operation stops, the air conditioning control microcomputer 122 turns off the switch 115.

  According to the air conditioner of the present invention, the supply of power to the image processing microcomputer 121 and the imaging unit 110 is suddenly interrupted, and a situation in which the image processing microcomputer 121 and the imaging unit 110 fail can be avoided.

A Air conditioner Re Remote control 100 Indoor unit 103 Blower fan 104 Left and right wind direction plate 105 Vertical wind direction plate 106 Front panel 110 Imaging means 111 Display means 113 Image processing board 114 Air conditioning control board 115 Camera power supply SW
121 image processing microcomputer 122 air conditioning control microcomputer 131 receiving means 138 DC-DC converter 139 DC-DC converter 151 dew tray 152 power supply

Claims (3)

An image processing board, an air conditioning control board, and a power supply for supplying power to the air conditioning control board and the image processing board,
The image processing substrate is:
Imaging means for imaging the room in which the indoor unit is installed;
An image processing microcomputer for processing image information input from the imaging means;
Have
The air conditioning control board is:
A switch for turning on and off power supply to the image processing substrate;
Receiving means for receiving a signal from the remote control;
An air conditioning control microcomputer for controlling the switch based on a signal received by the receiving means;
Have
The air conditioner supplies power to the air conditioning control microcomputer and the receiving means, and supplies power to the imaging means and the image processing microcomputer via the switch and a DC-DC converter. A front panel;
A heat exchanger for exchanging heat with indoor air;
A dew pan placed at the bottom of the heat exchanger;
An air outlet that blows out the air heat-exchanged by the heat exchanger into the room,
The power supply, the air conditioning control board, and the image processing board are sequentially arranged in the longitudinal direction of the indoor unit,
2. The air conditioner according to claim 1, wherein the air conditioning control board and the image processing board are arranged above the air outlet and between the dew tray and the front panel.   When the receiving unit receives a signal for stopping the imaging unit or a signal for stopping the air conditioner, the operations of the image processing microcomputer and the imaging unit are stopped, and the operations of the image processing microcomputer and the imaging unit are performed. The air conditioner according to claim 1 or 2, wherein the air conditioning control microcomputer turns off the switch after stopping.