KR101386086B1 - Air conditioner - Google Patents

Abstract

The air conditioner of this invention aims at protecting privacy by turning off the apparatus which concerns on image processing collectively.
The air conditioner of the present invention includes an image processing substrate, an air conditioning control substrate, a power supply for supplying electric power to the air conditioning control substrate and the image processing substrate, and the image processing substrate includes: imaging means for imaging an interior in which the indoor unit is installed; And an image processing microcomputer for processing image information input from the image pickup means, wherein the air conditioning control board includes a switch for turning on and off power supply to the image processing board, a receiving means for receiving a signal from a remote controller, and a receiving means. Has an air conditioning control microcomputer that controls the switch based on a signal received by the power source, the power supply supplies power to the air conditioning control microcomputer and the receiving means, and furthermore, through the switch and the DC-DC converter, the imaging means and the image processing microcomputer. Power on

Description

AIR CONDITIONER

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

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

For example, Patent Document 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 a detection result of the image sensor.

Patent Literature 1 also describes that a switch capable of freely turning on and off the operation of the image sensor can be turned off when the image sensor is not desired to be used. By turning off this image sensor when at home in seasons when no air conditioner is used, the energy consumption of the image sensor can be reduced.

Japanese Patent No. 4487809

However, although the switch of patent document 1 can turn off the operation of an image sensor, it cannot turn off operation of the microcomputer which processes the image information detected by the image sensor. Therefore, in the air conditioner of patent document 1, the microcomputer which processes image information uses the wasteful energy on.

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

The air conditioner of the present invention includes an image processing substrate, an air conditioning control substrate, a power supply for supplying electric power to the air conditioning control substrate and the image processing substrate, and the image processing substrate includes: imaging means for imaging an interior in which the indoor unit is installed; And an image processing microcomputer for processing image information input from the image pickup means, wherein the air conditioning control board includes a switch for turning on and off power supply to the image processing board, a receiving means for receiving a signal from a remote controller, and a receiving means. And an air conditioning control microcomputer that controls the switch based on the signal received by the power source. The converter supplies power to the imaging means of the image processing substrate and the image processing microcomputer.

According to the present invention, it is possible to reduce the amount of energy used by the device related to image processing.

1 is a front view of an indoor unit, an outdoor unit, and a remote controller of an air conditioner.
2 is a side sectional view of the indoor unit.
3 is a block diagram of an image processing substrate and an air conditioning control substrate.
4 is a side cross-sectional view of the indoor unit.

EMBODIMENT OF THE INVENTION Embodiment of this invention is described in detail, referring an appropriate figure. In addition, the same code | symbol is attached | subjected to the part which is common in each figure, and the overlapping description is abbreviate | omitted.

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 the indoor unit 100 is air-conditioned by a known refrigerant cycle. The indoor unit 100 and the outdoor unit 200 are configured to transmit and receive information to each other through 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 content of the signal is a command such as an operation request, a change of a set temperature, a change of a timer, an operation mode, and a stop request. The air conditioner A performs the air conditioning operation such as the cooling mode, the heating mode, and the dehumidification mode on the basis of these signals.

Moreover, the imaging means 110 and the display means 111 are provided in the lower left and right center of the front panel 106 of the indoor unit 100. The imaging means 110 is a CCD (Charge Coupled Device) camera, for example, and is provided in the lower left and right center of the front panel 106. Moreover, the imaging means 110 is provided so that the optical axis of a lens may face downward by a predetermined angle with respect to a horizontal line, and it can image suitably the room in which the indoor unit 100 is installed.

In addition, in the longitudinal direction of the indoor unit 100, the power source 152, the air conditioning control board 114, and the image processing board 113 are sequentially arranged. In addition, the detail of the power supply 152, the air conditioning control board 114, and the image processing board 113 is mentioned later.

2 is a side cross-sectional view of the indoor unit. The case base 101 accommodates internal structures such as a heat exchanger 102, a blower fan 103, a filter 108, and a drain pan 151.

The heat exchanger 102 has a plurality of heat transfer tubes 102a, and heat-exchanges the air received in the indoor unit 100 by the blower fan 103 with a refrigerant flowing through the heat transfer tubes 102a to heat or cool the air. It is configured to. On the other hand, the heat exchanger 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, according to the instruction from the air conditioning control microcomputer 122 (not shown), have the rotating shaft (not shown) installed in the lower portion as a point, and the left and right wind direction plate motors (not shown). Is rotated by

The up-and-down wind direction plate 105 is rotated by the up-and-down wind direction plate motor (not shown) based on the rotational shaft (not shown) provided in the both ends by the instruction | indication from the indoor unit microcomputer.

The front panel 106 is provided to cover the entire 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. In addition, you may comprise the front panel 106 as what is fixed to the lower end.

As the blowing fan 103 shown in FIG. 2 rotates, indoor air is taken in through the air intake port 107 and the filter 108, and the air heat-exchanged in the heat exchanger 102 is led to the wind discharge path 109a. . In addition, the air guided to the wind discharge path 109 is adjusted by the left and right wind direction plate 104 and the upper and lower wind direction plate 105, and is sent out from the air outlet 109 to air condition the room.

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

As shown in FIG. 2, the air-conditioning control board 114 and the image processing board 113 are located above the air outlet 109b, and are disposed between the drip tray 151 and the front panel 106, thereby providing a space in the indoor unit. Can be used effectively. In addition, when the air conditioner stops running, the top and bottom wind direction plates 105 are closed to cover the image processing board 113 to capture the inside of the room by the display means 111 of the image processing board 113 at the time of driving stop. Can be prevented.

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

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

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

3 is a block diagram of an image processing substrate and an air conditioning processing substrate.

The image processing board 113 is equipped with the LED which is an imaging means 110, the image processing microcomputer 121, and the display means 111. As shown in FIG. The air conditioning control board 114 includes an air conditioning control microcomputer 122 and a camera power source SW 115. Receiving means 131 and air conditioning control microcomputer 122, air conditioning control microcomputer 122 and image processing microcomputer 121, air conditioning control microcomputer 122 and switch 115, image processing microcomputer 121 And the imaging means 110 are connected by a communication line, respectively.

The control means 130 is comprised from the image processing microcomputer 121 and the air conditioning control microcomputer 122.

An operation start and operation stop method of the imaging means 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 activating the imaging means 110, the air conditioning control microcomputer 122 turns on the camera power source SWl15 to supply power to the image processing microcomputer 121 and the imaging means 110. FIG. Supply. Thereafter, the imaging means 110 is controlled by the image processing microcomputer 121, and imaging of the room is started.

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

By doing so, the power supply to the image processing microcomputer 121 and the imaging means 110 is suddenly cut off, and the situation where the image processing microcomputer 121 and the imaging means 110 fail can be avoided.

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

The configuration that turns on automatically when electric power is supplied eliminates the need for SW to turn on and off the display means and eliminates the need for a control line, thereby reducing the size of the substrate and reducing the cost. In addition, by arranging the imaging means 110 and the display means 111 on the same substrate, it is difficult to cut off the power supply to the display means 111 and to modify the power supply only to the imaging means 110. .

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

In this embodiment, the control means 130 separates the air conditioning control microcomputer 122 and the image processing microcomputer 121, and the image processing microcomputer 121 is different from the air conditioning control microcomputer 122. It is installed in the board. With this arrangement, the image processing microcomputer 121 can be turned off while the air conditioning control is performed by the air conditioning control microcomputer 122.

In addition, by providing the imaging means 110 and the image processing microcomputer 121 on the same substrate as the display means 111, the imaging means 110 and the image processing microcomputer 121 are turned on by the display means 111. It can inform the user that it is in a state. In other words, the electric power is not supplied to the imaging means 110 and the image processing microcomputer 121 when the display means 111 is OFF.

Image processing by arranging the imaging means 110, the image processing microcomputer 121, and the display means 111 on the image processing substrate 113 and blocking the whole image processing substrate 113 when no human detection is performed. Standby power of the entire substrate 113 can be saved.

In addition, since the imaging means 110, the image processing microcomputer 121, and the display means 111 having different required voltages are arranged on one substrate, the image processing substrate 113 is a DC-DC converter 138, 139. Have Power supplied from the switch 115 is supplied to the image pickup means 110 through the DC-DC converter 138 and to the image processing microcomputer 121 through the DC-DC converter 139.

Here, the switch 115 is installed on the air conditioning control board 114, and the power supply 152 supplies power to the image processing board 113 through the air conditioning control board 114, thereby preventing the wiring from becoming complicated. .

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

On the other hand, the voltage drop width of the DC-DC converter 138 is larger than the DC-DC converter 139.

On and off of the switch 115 may be controlled by an electrical signal such as a remote control signal or a sensor signal, and may be configured by hard SW to manually turn on and off the SW.

By incorporating a function of turning on and off the remote control signal, there is a merit that the user can easily cut off the power even in an air conditioner which is generally installed in a high place. On the contrary, when SW is turned on and off manually, there is a merit of performing work in a high place, but there is a merit that the security as a general user is large. By arranging two SWs in series, it is possible to have a circuit configuration in which both merit can be obtained.

On the other hand, the image processing microcomputer 121 processes the image picked up by the imaging means 110 into information that can be reflected in the air conditioning control. The image processing microcomputer 113 has a human body detecting unit, a face detecting unit, an integrated processing unit, a movement amount calculating unit, and an activity amount calculating unit. For example, the image photographed by the imaging means 110 is converted into information, such as how many people are indoors and how much activity there is.

The air conditioning control microcomputer 122 is an air conditioner A in accordance with a remote control signal input from the remote control Re via the receiving means 131 and sensor signals input from sensors such as a temperature detector (not shown). The driving of the load (indoor fan motor, compressor motor, up-down wind direction plate motor, left-right wind direction plate motor, etc.) is controlled.

The air conditioning control microcomputer 122 also 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 at the time of heating operation, a control value such as control of lowering the set temperature by 1 ° C is calculated.

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

Thus, the air conditioner of the present invention includes an image processing board 113, an air conditioning control board 114, a power supply 152 for supplying electric power to the air conditioning control board 114 and the image processing board 113, The image processing board 113 has an image capturing means 110 for capturing an interior where an indoor unit is installed, and an image processing microcomputer 121 for processing recall information input from the image capturing means 110, and includes an air conditioning control board ( 114 is based on the switch 115 for turning on and off the power supply to the image processing board 113, the receiving means 131 for receiving a signal from the remote control, and the signal received at the receiving means 131. The air conditioning control microcomputer 122 controls the on / off of the switch 115, the power source 152 supplies power to the air conditioning control microcomputer 122 and the receiving means 131, and furthermore, the switch 115. And imaging means 110 and image processing microcomputer via a DC-DC converter. Power is supplied to the rotor 121.

According to the air conditioner of this invention, since the imaging means 110, the image processing microcomputer 121, and the display means 111 are arrange | positioned on one board | substrate, the power to these when the imaging means 110 is not used. Supply can be cut off. Then, the microcomputer is separated into the image processing microcomputer 121 and the air conditioning control microcomputer 122, and the switch 115 is controlled by the air conditioning control microcomputer 122, so that the image processing microcomputer 121 and the imaging are performed. By interrupting the power supply to the means 110, it is possible to collectively interrupt the power supply to the device related to the image processing.

In addition, since the power supply to the image processing board 113 is made into the structure through the air conditioning control board 114, and the switch 115 was provided in the air conditioning control board 114, the electrical wiring of the image processing board 113 was carried out. Can be made compact.

Moreover, the air conditioner of this invention has the display means 111 which displays on the outside that the imaging means 110 is operating.

According to the air conditioner of the present invention, the electric power is also supplied to the display means 111 when electric power is supplied to the image processing substrate 113, so that the user can be notified that the imaging means 110 is operating. have. In addition, since the display means 111 is disposed on the same substrate as the imaging means 110 and the image processing microcomputer 121, the display means 111, the imaging means 110, and the image processing microcomputer 121 are arranged. Can make it difficult to separate.

Here, the air conditioner of the present invention is configured by separating the image processing substrate 113 and the air conditioning control substrate 114, and arranging a converter for adjusting the voltage level in the image processing substrate 113, so that the entire substrate occupies The area is increased. Therefore, these board | substrates become a ventilation resistance. In addition, the imaging means 110 needs to be provided on the front side of the indoor unit due to the problem of the viewing angle.

Thus, the air conditioner of the present invention includes a front panel 106, a heat exchanger 102 for exchanging heat with air in the room, a drip tray 151 disposed under the heat exchanger 102, and a heat exchanger 102. ) Is provided with an air outlet 109b for discharging the heat exchanged in the room to the room, and the power source 152, the air conditioning control board 114, and the image processing board 113 are sequentially disposed in the longitudinal direction of the indoor unit 100. The air conditioning control substrate 114 and the image processing substrate 113 are upper portions of the air outlet 109b, and are disposed between the drip tray 151 and the front panel 106, and the image processing substrate 113 is made of a resin cover. Covering.

According to the air conditioner of this invention, the imaging means 110 of the image processing board 113 can be provided in the whole surface, preventing the air conditioning control board 114 and the image processing board 113 from becoming a ventilation resistance.

In addition, although the image processing board 113 is arrange | positioned near the drip tray 151 for space reasons, it is necessary to prevent water from entering the image processing board 113. According to the air conditioner of this invention, since the image processing board | substrate 113 is covered with a resin cover, it can prevent water from entering the image processing board | substrate 113. FIG.

The air conditioner of the present invention is also provided with a manual switch for manually turning on and off the power supply to the image processing substrate 113.

According to the air conditioner of the present invention, since the imaging means 110, the image processing microcomputer 121, and the display means 111 are arranged on one substrate, the power supply of the entire image apparatus can be supplied with one manual switch. You can certainly block it.

In addition, the air conditioner of the present invention ports between the imaging means 110 and the image processing microcomputer 121.

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

According to the air conditioner of the present invention, the power supply to the image processing microcomputer 121 and the imaging means 110 is abruptly cut off, so that the situation in which the image processing microcomputer 121 and the imaging means 110 fail is avoided. have.

A air conditioner
Re remote control
100 indoor unit
103 blower fan
104 left and right wind vanes
105 vertical wind vane
106 front panel
110 imaging means
111 Display Means
113 image processing board
114 Air Conditioning Control Board
115 Camera Power SW
121 Image Processing Microcomputer
122 HVAC control microcomputer
131 receiving means
138 DC-DC Converter
139 DC-DC converters
151 drip tray
152 power

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,
Imaging means for imaging the room in which the indoor unit is installed,
Has an image processing microcomputer for processing image information input from the imaging means,
The air conditioning control board,
A switch for turning on and off a power supply to the image processing substrate;
Receiving means for receiving a signal from a remote control unit;
Has an air conditioning control microcomputer that controls the switch based on a signal received by the receiving means,
The power supply supplies electric power to the air conditioning control microcomputer and the receiving means of the air conditioning control substrate, and further comprises: the imaging means of the image processing substrate through the switch of the air conditioning control substrate, and a DC-DC converter; An air conditioner for supplying power to the image processing microcomputer. The method according to claim 1,
With front panel,
With heat exchanger which heat-exchanges with indoor air,
A drain pan disposed under the heat exchanger,
It is provided with an air outlet for discharging the air heat exchanged by the heat exchanger into the room,
The power source, the air conditioning control substrate, and the image processing substrate are sequentially disposed in the longitudinal direction of the indoor unit;
And the air conditioning control substrate and the image processing substrate are upper portions of the air outlet, and are disposed between the drip tray and the front panel. 3. The method according to claim 1 or 2,
When the receiving means receives a signal for stopping the imaging means or a signal for stopping the air conditioner, the operations of the image processing microcomputer and the imaging means stop, and the operations of the image processing microcomputer and the imaging means And the air conditioning control microcomputer turns off the switch after stopping.

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