JP2005233539A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To ventilate the inside of an air-conditioned room and air-condition the inside of the air-conditioned room according to a set time even when an operation start time is set by a timer. <P>SOLUTION: In this air conditioner, it is checked whether a timer is turned on to set a timer reservation or not. When the timer is turned on, the air conditioner is started to operate according to the set time (step 200 to step 212). Also, when the timer is turned on for timer reservation, it is confirmed whether or not the air conditioner performs ventilation or air cleaning operation until the timer expires. When the air conditioner performs the ventilation or air cleaning operation, the ventilation or air cleaning operation is continued (steps 214, 216). Thus, even when the timer is turned on for timer reservation, the inside of the air-conditioned room can be ventilated and the inside of the air-conditioned room can be accurately air-conditioned according to the timer reservation. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an air conditioner that achieves air conditioning in an air-conditioned room provided with an indoor unit.

  In an air conditioner (hereinafter referred to as an air conditioner) for air conditioning in an air-conditioned room, for example, a refrigerant is placed between a heat exchanger of an indoor unit installed in the air-conditioned room and a compressor of an outdoor unit installed outdoors. A circulating refrigeration cycle is formed. In the indoor unit, air in the air-conditioned room is sucked and the air sucked through the heat exchanger is blown out into the air-conditioned room. When this air passes through the heat exchanger, the temperature is adjusted by heat exchange with the refrigerant circulated through the refrigeration cycle, and the air is blown into the air-conditioned room.

  In addition, such an air conditioner is provided with a timer function, and by performing timer setting in advance, the air conditioning operation is executed so that a desired air conditioning state is achieved by the time set in the air-conditioned room. By providing such a timer function, for example, when returning home, the air-conditioned room can be in a comfortable air-conditioned state.

  When such a timer reservation function is used, a setting operation is performed by a remote control switch. At this time, a proposal has been made to improve operability when timer reservation is performed (for example, see Patent Document 1).

  By the way, in recent years, air purification in air-conditioned rooms has been desired, and air conditioners provided with ventilation units are becoming popular. In such an air conditioner, a ventilation duct for supplying and exhausting air is provided together with a ventilation fan, and heat exchange is performed when the outside air is sucked into the indoor unit by the ventilation fan and the sucked outside air is blown into the air-conditioned room. Adjust the temperature by passing through a vessel. Further, the air in the air-conditioned room sucked into the indoor unit is sent to the duct by a ventilation fan without passing through the heat exchanger and discharged to the outside.

  Further, in an air conditioner provided with a ventilation unit, only the ventilation unit can be operated even when the air conditioning operation is stopped.

Thereby, for example, by operating the ventilation unit and going out, the air in the air-conditioned room can be purified when returning home.
JP-A-8-149572

  However, in the conventional air conditioner, a wireless remote control switch using infrared rays or the like is generally used, and when the air conditioning start time is set and the timer is set (the on timer is set), the desired air conditioning state is set at the set time. However, the ventilation function is also stopped until the air conditioning operation is started.

  In addition, if the ventilation operation is performed with the timer operation set, the timer reservation setting may be lost.For this reason, the timer function will not work even if the timer setting is performed. There is a problem that a desired air conditioning state cannot be obtained at the set time.

  The present invention has been made in view of the above facts. In an air conditioner equipped with a ventilation function, when making a timer reservation, the ventilation function is sufficiently operated together with the air conditioning function so that a desired air-conditioned room can be obtained. It aims at proposing the air conditioner which can be made into an air-conditioning state and a ventilation state.

  In order to achieve the above object, the present invention includes an air conditioning unit that blows out temperature-controlled air using a refrigeration cycle into an air-conditioned room, and an air-conditioning unit that ventilates the air-conditioned room; Timer setting means for setting an operation start time or operation end time together with setting of operating conditions using the air conditioning means and the ventilation means, and start of operation of the air conditioning means and the ventilation means based on the setting of the timer reservation means Or an air conditioner including a reservation control means for controlling the end of operation, wherein when the operation start time is set by the timer reservation means, the air conditioning means until the operation start time. And the ventilation means can be operated regardless of the setting of the timer reservation means.

  According to the present invention, when the operation end time is set (timer timer reservation) by the timer reservation means, the air conditioning in the air-conditioned room can be stopped in accordance with the set time, and the operation start time is set. When the reservation is made (on-time timer reservation), the air conditioning unit can be operated in accordance with the reservation time to achieve air conditioning in the air-conditioned room.

  The reservation control means stops the air-conditioning means until the set time when the entering timer reservation with the operation start time is set, but enables the ventilation means to operate.

  This makes it possible to ventilate the air-conditioned room even when an on-timer reservation is made, so that the setting of the on-timer reservation is not lost and the air-conditioned room is made to be in a more comfortable air-conditioning state by the on-timer reservation. be able to.

  The invention according to claim 2 is characterized in that the reservation control means stops the ventilation means together with the air conditioning means in accordance with the operation end time of the timer reservation means.

  According to the present invention, when the cut-off timer reservation with the operation end time set is made, the ventilation means is stopped together with the air conditioning means in accordance with the set time.

  Thereby, it is possible to reliably prevent the ventilation means from continuing to operate unnecessarily.

  In the present invention as described above, when the air cleaner includes an air cleaner that removes suspended matter in the air-conditioned room and purifies the air, the reservation controller controls the air cleaner together with the ventilator. Is preferred. That is, when an air purifying means that is operated regardless of whether or not the compressor is operating is provided, each of the ventilation means and the air purifying means can be operated regardless of the setting of the operation start time.

  As such timer reservation means, a wireless remote control switch can be used. In this case, the reservation control means may be provided in the remote control switch or in the indoor unit.

  As described above, according to the present invention, when the operation start time is set, the air-conditioning means is stopped until the set time. However, even if the timer reservation is set by enabling the ventilation means, Since the air-conditioned room can be ventilated and the timer reservation setting is not lost, an excellent effect that the air-conditioned room can be in a comfortable air-conditioned state can be obtained.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows an air conditioner (hereinafter referred to as “air conditioner 10”) applied to the present embodiment. The air conditioner 10 includes an indoor unit 12 installed in an air-conditioned room and an outdoor unit 14 installed outdoors.

  In addition, as an air conditioner to which this invention is applied, the thing connected to the solar power generation device which converts the electric power generated with solar energy into the electric power of a predetermined voltage, and outputs it may be connected. At this time, the operation of the photovoltaic power generation apparatus is controlled by a microcomputer provided in the outdoor unit 14, and the generated power is supplied to the outdoor unit 14 or the indoor unit 12 and the outdoor unit 14, and air conditioning operation or the like is performed using this power. It may be.

  As shown in FIG. 2, the indoor unit 12 and the outdoor unit 14 are connected to each other by a thick refrigerant pipe 16A and a thin refrigerant pipe 16B. The indoor unit 12 is provided with a heat exchanger 18, and each of the refrigerant pipes 16 </ b> A and 16 </ b> B is connected to the heat exchanger 18.

  The outdoor unit 14 is provided with valves 20A and 20B, the refrigerant pipe 16A is connected to the valve 20A, and the refrigerant pipe 16B is connected to the valve 20B. A four-way valve 24 is connected to the valve 20A via a muffler 22A.

  The outdoor unit 14 is provided with a compressor 26 and a heat exchanger 28, and each of the accumulator 30 and the muffler 22B connected to the compressor 26 is connected to the four-way valve 24, and the heat exchanger. One end of 28 is connected to the four-way valve 24.

  Furthermore, the other end of the heat exchanger 28 is connected to the valve 20 </ b> B via the capillary tube 32, the strainer 34, the electric expansion valve 36 and the modulator 38.

  Thereby, in the air conditioner 10, a refrigeration cycle for circulating the refrigerant is formed between the indoor unit 12 and the outdoor unit 14. In addition, this refrigeration cycle shows an example and does not limit the structure of an air conditioner.

  The air conditioner 10 can be operated in the heating mode or in the cooling mode including the dry mode (dehumidification mode) by switching the four-way valve 24. In addition, in FIG. 2, the flow of the refrigerant | coolant in air_conditioning | cooling mode and heating mode is shown by the arrow.

  As shown in FIGS. 3 (A), 3 (B), 4 (A), and 4 (B), the indoor unit 12 is provided with a cross flow fan 40 in a casing 12A. The heat exchanger 18 is disposed so as to surround the upper side of the flow fan 40.

  Thereby, the cross flow fan 40 operates and air in the air-conditioned room is sucked into the casing 12 </ b> A from the suction port 42 formed on the upper surface of the casing 12. The air sucked into the casing 12 </ b> A passes through the heat exchanger 18 and is blown out from the outlet 44 into the air-conditioned room. At this time, when the air blown out from the blow-out port 44 passes through the heat exchanger 18, heat exchange is performed with the refrigerant circulated through the refrigeration cycle, and the air is blown into the air-conditioned room as temperature-controlled air. Thus, the temperature in the air-conditioned room can be controlled.

  On the other hand, as shown in FIGS. 3A, 4A, and 4B, the air conditioner 10 is provided with a ventilation fan 46 that forms a ventilation unit in the indoor unit 12. As shown in FIGS. 4A and 4B, the air conditioner 10 is a so-called wall-mounted type in which the indoor unit 12 is attached to the wall 48 on the outdoor side of the air-conditioned room. As shown in FIG. 3B, the refrigerant pipe 16 (refrigerant pipes 16A and 16B) of the indoor unit 12 is wound with a heat insulating material and penetrates the wall 48 together with the drain pipe 50 and the like to be drawn out outdoors. In FIG. 3B, illustration of the wall 48 is omitted.

  As shown in FIGS. 3 (A), 4 (A), and 4 (B), the ventilation fan 46 is disposed to face the heat exchanger 18. One end of a ventilation duct 52 is connected to the ventilation fan 46. As shown in FIGS. 3A, 3B, 4A, and 4B, a ventilation tube 52A is connected to the other end of the ventilation duct 52.

  As shown in FIGS. 3B, 4A, and 4B, the ventilation tube 52A is routed to the wall 48 side of the indoor unit 12 and penetrates the wall 48 together with the refrigerant pipe 16. It is aimed outdoors. The wall 48 is provided with a vent cap 54 on the outdoor side, and the ventilation tube 52A is connected to the vent cap 54 and communicates with the outdoors.

  Thereby, in the air conditioner 10, the ventilation fan 46 provided in the indoor unit 12 is operated, so that outdoor air can be sucked and the air in the air-conditioned room can be discharged outdoors. In the following description, the ventilation duct 52 including the ventilation duct 52 and the ventilation tube 52A will be described. Moreover, in FIG. 4 (A) and FIG.4 (B), the flow of the air in the indoor unit 12 is shown by the arrow.

  As shown in FIGS. 4A and 4B, the ventilation fan 46 is provided with a shutter 56A facing the heat exchanger 18 and a shutter 56B on the air-conditioned room side. In the air conditioner 10, an intake mode for sucking fresh outdoor air and an exhaust mode for discharging the air in the air-conditioned room to the outdoors are set as ventilation modes. The suction direction and the operation of the shutters 56A and 56B are switched.

  That is, as shown in FIG. 4A, in the intake mode, the shutter 56B is closed and the ventilation fan 46 is driven. As a result, fresh outdoor air is sucked into the ventilation duct 52 from the vent cap 54. At this time, the shutter 56 </ b> A on the heat exchanger 18 side is opened, and fresh outside air sucked into the ventilation duct 52 is blown out from the ventilation fan 46 toward the heat exchanger 18.

  As a result, fresh outside air is supplied into the air-conditioned room, and during the air-conditioning operation, heat is exchanged with the refrigerant, and the air is blown into the air-conditioned room as temperature-controlled air. In addition, a filter 58 is provided between the heat exchanger 18 and the ventilation fan 46, thereby supplying fresh outside air purified by removing pollutants such as pollen in the outside air into the air-conditioned room. It is made possible.

  As shown in FIG. 4B, in the exhaust mode, the shutter 56A on the heat exchanger 18 side is closed, the shutter 56B on the suction port 42 side of the casing 12 is opened, and the ventilation fan 46 is driven.

Thereby, the air in the air-conditioned room is sucked by the ventilation fan 46, sent to the ventilation duct 52, and discharged from the vent cap 54 to the outside. That is, the odor, CO ₂ , VOC and the like in the air-conditioned room are discharged from the vent cap 54 to the outdoors by the ventilation fan 46.

  FIG. 5 shows a schematic configuration of the control unit 60 provided in the indoor unit 12. The control unit 60 is provided with a control board 66 together with a power supply board 62 and a power relay board 64. The power supply board 62 includes a motor power supply 68, a control circuit power supply 70, and a serial power supply 72, and is supplied with electric power for operating the air conditioner 10.

  The power supply board 62 is provided with a drive circuit 74, and a fan motor 40 </ b> A that operates the cross flow fan 40 is connected to the drive circuit 74.

  The control board 66 is provided with a microcomputer (microcomputer 80) for controlling the operation of the air conditioner 10 together with the serial circuit 76 and the drive circuit 78. Power for operation is supplied from the control circuit power supply 70 to the control board 66. The

  The microcomputer 80 provided on the control board 66 outputs a control signal of the cross flow fan 40 to the drive circuit 74 of the power supply board 62. Thereby, the drive circuit 74 supplies the electric power supplied from the motor power supply 68 to the fan motor 40A based on the control signal input from the microcomputer 80, and drives it. At this time, the microcomputer 80 controls the amount of conditioned air blown from the outlet 44 of the indoor unit 12 by controlling the output voltage from the drive circuit 74 to change between, for example, 12V to 36V. .

  A power relay board 64 is connected to the drive circuit 78 of the control board 66. The power relay board 64 is provided with a power relay 82 and a thermal fuse, and the drive circuit 78 operates the power relay 82 based on a signal from the microcomputer 80. As a result, the contact 82A for supplying power from the indoor unit 12 to the outdoor unit 14 is opened and closed.

  In the air conditioner 10, when the contact 82A of the power relay 82 is closed, electric power is supplied to the outdoor unit 14, and the outdoor unit 14 becomes operable.

  The air conditioner 10 supplies power for operation to the outdoor unit 14 when performing the air conditioning operation. However, when the solar power generator is connected, the ventilation operation (ventilation) is performed even if the air conditioning operation is stopped. When the fan 46 is being driven), the contact 82A of the power relay 82 is closed to enable the outdoor unit 14 to operate, and the operation of the photovoltaic power generator is controlled by the microcomputer provided in the outdoor unit 14, Ventilation operation using electric power generated by the photovoltaic power generation device is made possible.

  The indoor unit 12 is provided with upper and lower flaps and left and right flaps at the air outlet 44, and the direction of blowing the conditioned air can be controlled by the upper and lower flaps and the left and right flaps. Flap motors 84A and 84B for driving the flaps are connected, and the drive circuit 78 drives the flap motors 84A and 84B based on a control signal from the microcomputer 80.

  In the air conditioner 10, the conditioned air can be blown in a desired (arbitrary) direction by driving the flap motors 84A and 84B. In other words, the microcomputer 80 controls the drive of the flap motors 84A and 84B together with the fan motor 40A, thereby controlling the blowing direction together with the amount of air-conditioned air so that the air-conditioned room is in a desired air-conditioning state. .

  The serial circuit 76 is connected to the serial power supply 72 of the power supply board 62, and the serial circuit 76 is connected to the outdoor unit 14 together with the serial power supply 72. The microcomputer 80 is connected to a microcomputer (not shown) provided in the outdoor unit 14 via the serial circuit 76, and controls the operation of the outdoor unit 14 by serial communication.

  At this time, the microcomputer 80 controls the switching of the four-way valve 24 based on the operation mode (heating mode and dehumidification mode or cooling mode) of the air conditioner 10 and sets the operation frequency of the compressor 26 based on the necessary air conditioning capability. Control and so on.

  The indoor unit 12 is provided with a display substrate 86. The display board 86 is provided with a transmission / reception circuit 90 together with the display LED 88, and the display board 86 is connected to the microcomputer 80.

  The air conditioner 10 can be operated / stopped and various operating conditions can be set by operating a remote control switch 100 (see FIG. 1). The transmission / reception circuit 90 communicates with the remote control switch 100 by a wireless method using, for example, infrared rays. At this time, the transmission / reception circuit 90 receives the operation signal transmitted from the remote control switch 100 and outputs it to the microcomputer 80.

  As a result, the air conditioner 10 can control the air conditioning operation according to the operation of the remote control switch 100. At this time, the microcomputer 80 lights the display LED 88 in accordance with the operating state of the air conditioner 10, and the operation / stop of the air conditioner 10, the operation mode, etc. are clearly indicated from the lighting state of the display LED 88.

  When the remote control switch 100 is provided with a room temperature sensor, when the room temperature detected by the room temperature sensor is transmitted from the remote control switch 100, the microcomputer 80 controls the air conditioning operation based on the room temperature. It has become.

  The indoor unit 12 is provided with various sensors such as a room temperature sensor 92 and a heat exchanger temperature sensor 94, which are connected to the microcomputer 80. The microcomputer 80 detects the air conditioner 10 detected by these sensors. The air-conditioning operation based on the operation state and the air-conditioning state in the air-conditioned room is possible.

  The microcomputer 80 can transmit various types of operation information from the transmission / reception circuit 90 to the remote control switch 100 in response to a request from the remote control switch 100, and the remote control switch 100 transmits the operation information from the transmission / reception circuit 90. Information can be displayed.

  Such a control board 66 is provided with an operation changeover switch 96 and a service LED 98. The operation changeover switch 96 is used for switching between normal operation and test operation when performing maintenance or the like, and the contact of the power switch 96A is opened and closed by operating the operation changeover switch 96.

  That is, the operation changeover switch 96 can be switched to “normal operation”, “test operation”, or “stop” that opens the contact of the power switch 96A to cut off the supply of power to the indoor unit 12. No. 10 is operated in the “normal operation” position.

  Note that the service LED 98 is turned on by the service person when performing maintenance or the like, so that the microcomputer 80 controls the lighting and lighting state according to the self-diagnosis result. It is easy to check the failure and failure history.

  On the other hand, FIGS. 6A and 6B show an example of the remote control switch 100 provided in the air conditioner 10. As shown in FIG. 6A, the remote control switch 100 is provided with an operation cover 102, and FIG. 6B shows a state in which the operation cover 102 is opened.

  The remote control switch 100 is provided with a liquid crystal display (hereinafter referred to as a display 104), and various displays such as a room temperature and an operation mode are displayed on the display 104. Various displays corresponding to the operation of the remote control switch 100 are displayed in the display area 106 at the bottom of the display 104. 6B shows a state in which main icons on the display 104 are displayed, and FIG. 6A shows a state in which the cooling operation is set in the automatic mode and the room temperature. In both FIG. 6A and FIG. 6B, the display area 106 is not displayed.

  The remote control switch 100 is provided with a run / stop button 108, and the operation / stop instruction of the air conditioner 10 can be given by operating the run / stop button 108.

  Further, the remote control switch 100 is provided with a ventilation button 110 and a dehumidifying button 112. By operating the ventilation button 110, operation / stop in the ventilation mode can be set, and the dehumidifying button 112 is operated. Thus, the dehumidifying mode can be set. In addition, for example, “standard dehumidification”, “strong dehumidification”, “soft dehumidification” and “laundry” can be set in the dehumidification mode, and dehumidification modes are switched in order by depressing the dehumidification button 112. .

  As shown in FIG. 6A, the remote control switch 100 is provided with a simple timer button 114, a UV emptying button 116, a button 118, and an up button 120A and a down button 120B for temperature setting on the operation cover 102. These operations can be performed by closing the operation cover 102.

  In the remote control switch 100, when the up button 120A to the down button 120B is operated, the set temperature is displayed in the display area 106 of the display 104 according to the operation of the up button 120A to the down button 120B. At this time, the displayed set temperature is raised by operating the up button 120A, and the set temperature is lowered by operating the down button 120B. In the automatic mode, an up setting or a down setting with respect to a preset standard temperature is displayed.

  The simple timer button 14 can select and set the operation time of the air conditioner 10 to “1 hour”, “2 hours”, “3 hours”, or “5 hours”.

  Further, as shown in FIG. 3A, the indoor unit 12 of the air conditioner 10 has a UV unit 124 and an air purification filter 126 attached to a mounting frame 122 facing the heat exchanger 18 together with a ventilation fan 46. By using the UV unit 124 and the air purification filter 126, it is possible to disinfect air in the air-conditioned room and to remove particles that emit dust, dirt, odors, and the like.

  As shown in FIG. 6A, the UV air cleaning button 116 sets the operation / stop of the air cleaning operation using the UV unit 124 and the air cleaning filter 126.

  In the remote control switch 100, the button 118 is operated to request the microcomputer 80 (see FIG. 5) of the indoor unit 12 to output the air conditioning state in the air-conditioned room. The microcomputer 80 of the indoor unit 12 detects the air-conditioning state in the air-conditioned room using various sensors, and transmits the air-conditioning state from the transmission / reception circuit 90 as required.

  When the remote control switch 100 receives the air conditioning state information transmitted from the indoor unit 12, the received content is displayed in the display area 106 of the display 104. Thereby, the air-conditioning state in the air-conditioned room can be accurately and easily confirmed on the remote control switch 100.

  On the other hand, as shown in FIG. 6B, the remote control switch 100 includes an operation switching button 128 for switching the operation mode, a ventilation switching button 130 for switching the ventilation mode, and an air volume switching in the operation cover 102. An air volume button 132 to perform, a wind direction button 134 for switching the wind direction of the blown wind in the left-right direction, and a wind direction button 136 for switching the wind direction of the blown wind in the vertical direction are provided.

  In the air conditioner 10, the operation mode is switched to the automatic mode, the cooling mode, the heating mode, the air purification mode, and the dehumidification mode by operating the operation switching button 128, and the ventilation mode is changed by operating the ventilation switching button 130. Switch between intake mode and exhaust mode. The selected mode is displayed on the display 104 (display area 106) of the remote control switch 100.

  In the automatic mode, the cooling mode, the dehumidifying mode, and the heating mode, the compressor 26 is operated to circulate the refrigerant. However, in the air cleaning mode, the compressor 26 is stopped and the cross flow fan 40 is rotated at a low speed. While driving at (for example, about 600 rpm), the air outlet 44 is opened, and the air that has passed through the air purifying filter 126 is blown out with a slight wind.

  In the remote control switch 100, the air volume of the blown air can be set automatically or in a plurality of stages by operating the air volume button 132, and the wind direction in the vertical direction is automatically set by swinging the wind direction or along the vertical direction by operating the wind direction button 134. Thus, the wind direction in the left-right direction can be set to any one of a plurality of levels set automatically, swing, or along the left-right direction by operating the wind direction button 136.

  The air conditioner 10 can be set so that the air-conditioned room is in a desired air-conditioning state by operating these various buttons. When the air volume button 132 and the air direction buttons 134 and 136 are operated, the air volume and the air direction are displayed in the display area 106 of the display 104 for a predetermined time.

  By the way, the air conditioner 10 has a timer function. As shown in FIG. 6B, the remote control switch 100 is provided with a clock button 138, and the time for operating the clock button 138 can be set. The remote control switch 100 displays the current time in the display area 106 of the display 104 by setting the time.

  Further, the remote control switch 100 is provided with an on timer button 140 and an off timer button 150, and a timer function can be set by operating the on timer button 140 and the off timer button 142. The remote control switch 100 is provided with a cancel button 144 and a daily button 146. The timer setting can be canceled by pressing the cancel button 144, and the daily button can be operated only once. You can switch between settings and daily settings. The setting result when the cancel button 144 and the daily button 146 are operated is displayed in the display area 106 of the display 104 for a predetermined time.

  In the remote control switch 100, when the on timer button 140 or the off timer button 142 is operated, the set time of the on timer or the off timer is displayed in the display area 106 of the display 104.

  In the remote control switch 100, the on timer button 104 and the turn-off timer button 106 each have a function of an up button and a down button for setting time, and a setting displayed in the display area 106 of the display 104 when the upper side is operated. The time is advanced in stages, and the set time displayed when the lower side is operated is returned in stages.

  Thereby, the remote control switch 100 can set a desired time at a preset time interval (for example, every 10 minutes).

  In the air conditioner 10, the air-conditioning operation is stopped at the set time by setting the turn-off timer, and the air-conditioning operation is set so that the air-conditioned room is set at the set time by setting the on-timer. To start.

  In the air conditioner 10, when the on-timer is set, the air-conditioning operation in the air-conditioning mode and ventilation mode (including the air cleaning mode) set at that time is started.

  At the same time, in the air conditioner 10, when the on-timer is set, the air-conditioning operation using the compressor 26 is stopped. Therefore, in the air conditioner 10, when the on timer is set, the compressor 26 is stopped, and the air conditioning operation in the automatic mode, the cooling mode, and the dehumidifying mode is stopped.

  On the other hand, in the air conditioner 10, even when the turn-on timer is set, the operation / stop operation in the air cleaning mode and the ventilation mode is possible. With this, the turn-on timer is set and the air-conditioning operation is stopped. Even in such a state, it is possible to ventilate the air-conditioned room and to clean the air in the air-conditioned room.

  In the air conditioner 10 configured as described above, the air conditioning operation is started / stopped by operating the remote control switch 100. Also, when operating conditions such as wind direction and air volume, and setting conditions such as set temperature (air conditioning conditions) are changed during air conditioning operation or during air conditioning operation, based on the changed operating conditions and setting conditions, etc. Perform air conditioning operation.

  In the air conditioner 10, an automatic mode, a cooling mode, a dehumidifying mode, or a heating mode is set, so that the compressor 26 is driven to perform an air conditioning operation in the air-conditioned room. Further, in the air conditioner 10, when a ventilation mode such as an air cleaning mode, an intake mode, or an exhaust mode is set, the operation in the set ventilation mode is started.

  At this time, in the air conditioner 10, the combined operation is performed by setting the air conditioning operation using the refrigerant and the operation in the ventilation mode together.

  Thereby, for example, when the intake mode is set as the ventilation mode, the air conditioner 10 drives the ventilation fan 46 to suck the outside air and blows the sucked outside air into the air-conditioned room through the heat exchanger 18. Thereby, fresh outside air is introduced into the air-conditioned room.

  When the exhaust mode is set, the air conditioner 10 drives the ventilation fan 46 to discharge the air in the air-conditioned room sucked into the indoor unit 12 to the outside through the ventilation duct 52 and the vent cap 54.

The air-conditioned room that is air-conditioned by the air conditioner 10 often stagnates. For this reason, the content ratio of carbon dioxide (CO ₂ ) and the like emitted by people in the air-conditioned room may increase. . In such a case, by operating the air conditioner 10 in combination with the ventilation mode or the ventilation mode, the air-conditioned room can be in a comfortable air-conditioned state.

  On the other hand, the remote control switch 100 used for the air conditioner 10 is provided with a button 118. By operating the button 118, the air conditioning state in the air-conditioned room can be confirmed.

  In the remote control switch 100, when the button 118 is operated, the microcomputer 80 of the indoor unit 12 is requested to output information on the air conditioning state. That is, when the microcomputer 80 receives a signal indicating that the button 118 has been operated from the remote control switch 100, the microcomputer 80 determines that the information output of the air conditioning state has been requested.

  The microcomputer 80 of the air conditioner 10 detects the carbon dioxide concentration in the air as well as the room temperature, humidity, and the like using various sensors. Further, the outdoor unit 14 of the air conditioner 10 detects the outdoor temperature (outside air temperature) where the outdoor unit 14 is installed, and this outside air temperature is input to the microcomputer 80 of the indoor unit 12 by serial communication. It has become.

  Here, when the button 118 of the remote control switch 100 is operated, the microcomputer 80 of the indoor unit 12 outputs (transmits), for example, the outside air temperature, humidity, and the like using the information on the air conditioning state as operation information. When a ventilation unit (ventilation fan 46) or the like is provided, the carbon dioxide concentration in the air-conditioned room is detected, and the detection result is transmitted to the remote control switch 100.

  When receiving the driving information transmitted from the indoor unit 12, the remote control switch 100 displays the driving information on the display 104. The display of the driving information at this time is mainly displayed in the display area 106 on the display 104.

  7 and 8 show an example of a change in display in the display area 106 of the remote control switch 100 at this time. Note that the button 118 is effective only when the air conditioner 10 is operating in the air conditioning mode or the ventilation mode. In FIGS. 7 and 8, the air conditioning operation is performed in the heating mode. A display example is shown.

  FIG. 7A shows the display of the display area 106 during operation in the heating mode. The remote controller 100 used for the air conditioner 10 displays the operation mode and the current time in the display area 106.

  Here, when the button 118 is operated, the display in the display area 106 is switched to the state shown in FIG. That is, the remote control switch 100 displays in the display area 106 that the operation has been shifted to the reception state of the operation information transmitted from the indoor unit 12 by operating the button 118.

  Thereafter, the remote control switch 100 sequentially switches the display in the display area 106 to the display shown in FIGS. 7C, 7D, and 7E. That is, remote control switch 100 displays a preset character in display area 106 during reception or reception standby.

  Therefore, in the remote control switch 100, when the button 118 is operated, the display in the display area 106 as shown in FIG. 7B, FIG. 7C, FIG. 7D, and FIG. Switching is performed in order at a time interval (for example, a preset time interval such as about 1 second).

  Here, if the operation information that should be transmitted from the indoor unit 12 is not received even after the predetermined time has elapsed, the display of FIG. 7 (F) is displayed, and if necessary, the button 118 is operated again. After that, the normal display shown in FIG.

  On the other hand, when receiving the driving information transmitted from the indoor unit 12 (successfully receiving the driving information) while waiting for reception (the display state of any of FIGS. 7B to 7E), Moves on to display of received driving information.

  As shown in FIG. 7 (G), the operation information is displayed first when the outside air temperature is displayed for a predetermined time (for example, a preset time of about 3 seconds), and then, as shown in FIG. 7 (H). The humidity in the air-conditioned room is displayed for a predetermined time.

  Although the room temperature may be displayed as the operation information, since the remote control switch 100 normally displays the room temperature on the display 104, the room temperature display in the display area 106 is omitted.

  When the remote control switch 100 finishes displaying the outside air temperature and the humidity in the air-conditioned room, the ventilation state is displayed in the display area 106. FIGS. 8A to 8H show display examples of the ventilation state. When the remote control switch 100 finishes displaying the outside air temperature and humidity, first, the state of the ventilation operation is displayed.

  At this time, when the ventilation mode is a combination of the intake mode and the exhaust mode, the display shown in FIG. 8A and the display shown in FIG. Time).

  Further, when operating in the exhaust mode, the display shown in FIG. 8C is displayed in the display area 106 for a predetermined time, and when operating in the intake mode, the display shown in FIG. 8D is displayed. Displayed in area 106 for a predetermined time. When the ventilation operation is not performed, for example, the display shown in FIG. 8E is displayed in the display area 106 for a predetermined time to clarify that the ventilation operation is stopped.

  When the state of the ventilation operation is displayed in this manner, the carbon dioxide concentration is then displayed as the ventilation state in the air-conditioned room.

  The display of the carbon dioxide concentration is divided into three preset stages such as high (dark), normal (standard), and low (light).

  Here, when the carbon dioxide concentration is high, the display shown in FIG. When the carbon dioxide concentration is a standard value, the display shown in FIG. 8G is performed on the display area 106, and when the carbon dioxide concentration is low, the display shown in FIG. 8H is displayed on the display area 106. . When the carbon dioxide concentration is unknown or when this information is not transmitted, the next display or normal display state is returned without displaying the information.

  In this way, by displaying the character according to the carbon dioxide concentration, the ventilation state in the air-conditioned room can be clarified, and when the carbon dioxide concentration is relatively high, the air-conditioned room is effectively ventilated. Can be urged.

  In other words, even if the carbon dioxide concentration is expressed numerically, it is difficult to determine whether the air-conditioned room is in a favorable ventilation state, but using a character according to the ventilation state makes it possible to accurately grasp the ventilation state. Ventilation can be encouraged if necessary.

  In this way, with the remote control switch 100, the driving state is displayed by attracting attention and interest, making the viewer feel caressed, using a character that makes the viewer feel close, or displaying it in a moving image. It is possible to prevent the user from feeling that the waiting time is long or not being interested in displaying the driving information during the waiting time.

  In addition, by using a character set according to the content to be displayed, it is possible to accurately convey the display content to a person in the air-conditioned room.

  By the way, in the air conditioner 10, the wireless remote control switch can be used to set a timer such as an on timer or an off timer. When setting the timer, the operation cover of the remote control switch 100 is opened, and the on timer button 140 or the turn-off timer button 142 is operated. Further, when setting the on-timer, the operation mode, operation conditions, etc. at that time are set together with the time setting.

  Thereby, in the air conditioner 10, when the on-timer is set, after the operation mode and setting at that time are stored and the air-conditioning operation is stopped, the set air-conditioning condition (stored setting) is set at the set time. ) Air conditioning operation starts. The air conditioner 10 continues the air conditioning operation when the turn-off timer is set, and stops the air conditioning operation including the ventilation operation at the set time.

  Here, the timer operation of the air conditioner 10 will be described with reference to FIGS. 9 to 11. In the air conditioner 10, it is possible to set the operation mode when performing the air conditioning operation and the operation mode when performing the ventilation operation using the remote control switch 100, and even if the operation of the air conditioning operation is stopped, the ventilation is performed. By setting the operation mode when operating, it is possible to perform the ventilation operation in the set ventilation mode.

  The flowchart of FIG. 9 is executed during the operation of the air conditioner 10. In the first step 200, whether or not the timer is operating, that is, whether or not the timer is set in the timer reservation in which the on timer or the off timer is set. Confirm whether or not. Since the air conditioner 10 is in an operating state (a state where it can be driven) by making a timer reservation, the air conditioner 10 is also in an operating state even during an on-timer reservation.

  Here, when the timer reservation is not made, a negative determination is made at step 200 and the routine proceeds to step 202 to continue the current operation state. That is, the operation in the air conditioning mode in which the air conditioning mode is set is continued, and when the ventilation mode is set, the operation in the set ventilation mode is continued. Further, when the air conditioning mode and the ventilation mode are set together, the combined operation of the air conditioning mode and the ventilation mode is continued.

  On the other hand, when a timer reservation is made, an affirmative determination is made at step 200 and the routine proceeds to step 204. In this step 204, it is confirmed whether or not an incoming timer is set.

  At this time, if the cut timer is set, a negative determination is made in step 204, and the routine proceeds to step 206. In this step 206, it is confirmed whether or not the time is up, that is, whether or not the set time of the turn-off timer has been reached.

  Thereby, when it is not the set time of the turn-off timer, a negative determination is made in step 206, the process proceeds to step 202, and the air conditioning operation is continued.

  On the other hand, when the set time of the turn-off timer is reached, an affirmative determination is made at step 206 and the routine proceeds to step 208. In step 208, the operation of the air conditioner 10 including the ventilation mode is stopped.

  Thereby, the air conditioner 10 stops driving at the set time when the turn-off timer is set.

  On the other hand, when the entry timer is set, an affirmative decision is made in step 204 and the routine proceeds to step 210. In this step 210, it is confirmed whether or not the time is up, that is, whether or not the set time of the entry timer has come.

  Here, when the set time of the on-timer has been reached, an affirmative determination is made in step 210 and the process proceeds to step 212 to start the air conditioning operation in the set operation mode and operation conditions. The time-up time may be set so as to reach the air-conditioning state set at the set time (for example, the room temperature is the set temperature) from the room temperature, the set conditions, and the air-conditioning capability of the air conditioner 10. The time may be directly used as the operation start time.

  On the other hand, when the timer is reserved with the incoming timer set and the set time has not been reached, a negative determination is made at step 210 and the routine proceeds to step 214. In step 214, it is confirmed whether the ventilation operation or the air cleaning operation is being performed.

  That is, in the air conditioner 10, when the on timer is set, the operation in the automatic mode, the cooling mode, the dehumidifying mode or the heating mode using the compressor 26 is stopped, and the operation in the ventilation mode or the air cleaning mode is possible. It has become.

  Here, when the operation in the ventilation mode or the air cleaning mode is stopped, a negative determination is made in step 214, and the operation stop state is continued until the time is up, but the operation in the ventilation mode or the air cleaning mode is continued. Is set, an affirmative determination is made in step 214 and the process proceeds to step 216 to continue the operation in the ventilation mode or the air cleaning mode.

  By performing the driving process based on the timer reservation in this way, for example, as shown in FIG. 10 (A), when operating with the cut timer reservation in which only the cut timer is set, the cut timer is set to the time The air conditioning operation is performed and both the air cleaning operation and the ventilation operation are possible until the time is up, but when the timer is up, the air conditioning operation of the air conditioner 10 and the air cleaning operation and the ventilation operation are stopped.

  In addition, as shown in FIG. 10B, when a cut-off timer / on-time timer reservation in which a turn-off timer and a turn-on timer are set in that order is performed, the turn-off timer times out, thereby causing air-conditioning operation and emptying. Both the operation and the ventilation operation are stopped, but when the air-conditioning operation is started by the time-up of the on-timer, the air-cleaning operation and the ventilating operation can be performed based on the setting of the on-timer.

  On the other hand, when the on-timer reservation with the on-timer set is made, as shown in FIG. 11A, the air-conditioning operation is stopped until the on-timer expires, but the air-cleaning operation and the ventilation are performed. Driving is possible. Further, when the on-timer expires, the air conditioning operation is started, and the emptying operation and the ventilation operation can be continued.

  Further, as shown in FIG. 11B, when an on timer / off timer reservation is performed in which an on timer and an off timer are set in that order, the timer is timed up, thereby causing air conditioning operation and emptying. Both operation and ventilation operation are stopped. However, even before the on-timer expires, the air-cleaning operation and the ventilation operation can be performed, so that the air-cleaning operation and the ventilation operation can be continuously operated until the turn-off timer expires. ing.

  Therefore, even during the timer reservation using the entry timer, ventilation and air purification can be performed in the air-conditioned room, and when the operation is started by timer reservation, the air-conditioned room should be in a comfortable air-conditioned state. Can do.

  In addition, this Embodiment demonstrated above does not limit the structure of this invention. For example, in the present embodiment, in addition to the air conditioning operation mode using the compressor 26, the air conditioner 10 that can be operated in the emptying mode and the ventilation mode in which the compressor 26 is stopped has been described as an example. Is only required to have the operation in the operation mode in which the compressor 26 is stopped, such as at least one of the air-cleaning mode and the ventilation mode. It is sufficient to make it possible to drive in

  In this embodiment, the wall-mounted type air conditioner 10 using the indoor unit 12 and the outdoor unit 14 has been described as an example. However, the present invention is operated by a wireless remote control switch such as a ceiling embedded type or a wall embedded type. / Can be applied to air conditioners of any configuration that allows timer setting along with setting of stop and operating conditions.

It is a principal part perspective view which shows schematic structure of the air conditioner applied to this Embodiment. It is a schematic block diagram which shows the refrigerating cycle of an air conditioner. (A) The schematic perspective view which looked at the principal part of the indoor unit from the air-conditioned room side, (B) is the schematic perspective view which looked at the principal part of the indoor unit from the outdoor side. (A) And (B) is a schematic block diagram of the indoor unit which shows the driving | operation in ventilation mode, (A) shows the intake mode, (B) has shown the exhaust mode. It is a block diagram which shows schematic structure of the control part of an indoor unit. (A) And (B) is the schematic which shows an example of a remote control switch, (A) shows the state which closed the operation cover, (B) has shown the state which opened the operation cover. (A) thru | or (H) is the schematic which shows the example of a display of a display area, (A) shows a normal driving | running state, (B) to (F) shows the change of the display after operating the button which I taught. (G) and (H) show display examples of the operating state. (A) thru | or (H) is the schematic which shows the example of a display of a display area, (A) to (E) shows the display according to ventilation operation, (F) to (H) respond | corresponds to ventilation state As a display example, a display corresponding to the concentration of carbon dioxide is shown. It is a flowchart which shows the outline of the driving | running process including the timer reservation of an air conditioner. (A) and (B) are timing charts showing the operation / stop of air-conditioning operation, air cleaning operation and ventilation operation, (A) shows a cut timer reservation, and (B) shows a cut timer / enter timer reservation. ing. (A) and (B) are timing charts showing the operation / stop of air conditioning operation, air cleaning operation and ventilation operation, (A) shows on timer reservation, and (B) shows on timer / off timer reservation. ing.

Explanation of symbols

10 Air conditioner (air conditioner)
12 Indoor Unit 14 Outdoor Unit 18 Heat Exchanger 26 Compressor 46 Ventilation Fan (Ventilation Means)
52 Ventilation duct (ventilation means)
54 Vent cap (ventilation means)
60 control unit 80 microcomputer (timer reservation means, reservation control means)
90 Transmission / reception circuit 100 Remote control switch (timer reservation means, reservation control means)
104 Display 106 Display Area 110 Ventilation Button 116 UV Air Cleaning Button 124 UV Unit (Air Cleaning Means)
126 Air purification filter (air purification means)
128 Operation switching button 130 Ventilation switching button 140 Enter timer button (timer reservation means)
142 cut-off timer button (timer reservation means)

Claims (3)

Air-conditioning means for air conditioning in the air-conditioned room by blowing out temperature-controlled air using a refrigeration cycle;
A ventilation means for ventilating the air-conditioned room;
Timer reservation means for setting operation start time or operation end time together with setting of operation conditions using the air conditioning means and the ventilation means;
Reservation control means for controlling the start or end of operation of the air conditioning means and the ventilation means based on the setting of the timer reservation means;
An air conditioner including:
When the operation start time is set by the timer reservation means, the reservation control means stops the operation of the air conditioning means until the operation start time, and operates the ventilation means regardless of the setting of the timer reservation means. An air conditioner characterized in that it is possible.   The air conditioner according to claim 1, wherein the reservation control unit stops the ventilation unit together with the air conditioning unit in accordance with an operation end time of the timer reservation unit. When including air cleaning means to remove airborne objects and clean the air,
The air conditioner according to claim 1 or 2, wherein the reservation control means integrally controls the air purifying means together with the ventilation means.

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