JP2004116808A - Air conditioning indoor unit and air conditioner having this unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioning indoor unit and an air conditioner having this unit capable of restraining the generation of mold and ticks by operating a ventilator according to the value of pollution level detected with a gas sensor, humidity of indoor air and indoor temperature. <P>SOLUTION: This air conditioner is provided with the ventilator 15 having a suction port 15a and an exhaust port 15b, a humidity sensor 17 for detecting the humidity of indoor air, a temperature sensor 16 for detecting indoor temperature, the gas sensor 18 for detecting the pollution level of indoor air and a control device 19 for operating and controlling the ventilator 15 on the basis of signals from the humidity sensor 17, the temperature sensor 16 and the gas sensor 18, and the control device is characterized by having a plurality of ventilation operation modes for controlling rotation of a fan. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioning indoor unit and an air conditioner including the same, and more particularly to an air conditioning indoor unit including a ventilation device and an air conditioner including the same.
[0002]
[Prior art]
In ordinary households, ventilation is used as a ventilation fan, and air conditioning is used as an air conditioner (air conditioner). Air conditioning is performed by installing equipment separately for ventilation and air conditioning. However, in recent years, an air conditioner having both a ventilation function (ventilation device) and a cooling / heating function has been proposed.
[0003]
As described above, as an example of an air conditioner having both a ventilation function and a cooling / heating function, a conventional air conditioner includes a ventilation fan for supplying / exhausting air for ventilation together with a circulation fan for sending air for cooling / heating. A configuration that controls to change the ventilation air volume based on the circulating air volume, and a configuration that controls to switch between air supply and exhaust in ventilation based on indoor and outdoor temperatures, humidity, and cleanliness. Reference 1)
[0004]
[Patent Document 1]
JP-A-2000-291997 (page 3-5, FIG. 3)
[0005]
[Problems to be solved by the invention]
However, in the air conditioner having the ventilation function as described above, the ventilation operation is an auxiliary position, and attempts to minimize the influence on the air-conditioning operation. Based on such a technical concept, air supply and exhaust are switched according to the external environment, and a ventilation function that can accurately respond to changes in the operating environment of the air conditioner that can be said to be equivalent to an air conditioning function. I wasn't prepared.
As one means for solving such a problem, a gas sensor is provided for control in an air conditioner having both a ventilation function and a cooling / heating function, and based on a signal from the gas sensor, as shown in FIG. A ventilator having a control mode is effective.
Specifically, when the degree of contamination detected by the gas sensor is level I (clean), the ventilation device is set to intermittent operation in which stop and low-speed operation are repeated, and when the degree of contamination is level II (slightly dirty), the ventilation device Employs a plurality of control modes in which the ventilation device operates at a high speed when the pollution degree is level III (dirty).
Here, the control device that receives the detection value of the gas sensor stops the ventilation device and performs low-speed operation when the value of the pollution degree detected by the gas sensor is smaller than a first value set in advance (in the case of level I). When the repetitive intermittent operation is performed and the value of the pollution degree detected by the gas sensor becomes equal to or more than the second value set in advance (in the case of level III), the ventilation device is operated at high speed, and the value of the pollution degree detected by the gas sensor becomes the second value. When the value is equal to or larger than 1 and smaller than the second value (in the case of level II), control is performed to operate the ventilator at low speed.
By using the control mode as described above, it is possible to realize ventilation control corresponding to an environment higher than the level of simple air supply and exhaust control, but today there is a tendency for awareness of living environment to increase. It is desired to provide a more comfortable environment.
In particular, as the living environment changes over time, the hermeticity of the dwelling has been increased, and symbolically, the sick house syndrome, or when the humidity of the indoor air and / or the temperature of the room is high, the floor, wall, or ceiling is required. For example, there is an increased possibility that molds and ticks will be generated in large quantities, and as a result, expectations for the contribution of the air conditioner to the health of the user are also increasing.
[0006]
The present invention has been made in view of such circumstances, and by developing the above-described control method, it is possible to operate a ventilation device according to a value of a pollution degree detected by a gas sensor, humidity of indoor air, and indoor temperature. Accordingly, an object of the present invention is to provide an air-conditioning indoor unit capable of suppressing the occurrence of mold and ticks, and an air conditioner including the same.
[0007]
[Means for Solving the Problems]
The air-conditioning indoor unit and the air conditioner including the same according to the present invention employ the following means in order to solve the above problems.
That is, according to the indoor unit for air conditioning according to claim 1, a suction port for taking in indoor air, an indoor heat exchanger for cooling or heating the air taken in from the suction port, A blowout port for returning the heat exchanged air in the heat exchanger to the room, a fan for taking in air from the suction port and blowing out the heat exchanged air from the blowout port into the room, a suction port, A ventilator provided with an outlet, a humidity sensor for detecting indoor air humidity, a temperature sensor for detecting indoor temperature, a gas sensor for detecting indoor air pollution degree, the humidity sensor, the temperature sensor, and A control device for controlling the operation of the ventilation device based on a signal from the gas sensor, wherein the control device controls the rotation of the fan. And having a plurality of over-de.
[0008]
In this air conditioning indoor unit, data obtained by the humidity sensor, the temperature sensor, and the gas sensor are sent to the control device, and the control device controls the operation of the ventilation device based on the data.
[0009]
According to the indoor unit for air conditioning according to claim 2, the control device is configured such that, as the ventilation operation mode, the value of the pollution degree detected by the gas sensor is smaller than a first value set in advance, and When the detected indoor temperature is equal to or lower than a predetermined temperature and the humidity of the indoor air detected by the humidity sensor is equal to or lower than a predetermined value, the ventilator is intermittently operated between a stop and a low-speed operation. Operation control, the value of the pollution degree detected by the gas sensor is smaller than a first value set in advance, and the room temperature detected by the temperature sensor is higher than a predetermined temperature or detected by the humidity sensor. When the humidity of the room air becomes higher than a predetermined value, the operation of the ventilator is controlled so as to operate at a low speed.
[0010]
In this air conditioning indoor unit, when the value of the degree of pollution is smaller than the first value, the temperature of the room is equal to or lower than a predetermined temperature, and the humidity of the indoor air is equal to or lower than a predetermined value, the ventilator is operated intermittently, When the value of the pollution degree is smaller than the first value and the indoor temperature is higher than the predetermined temperature or the humidity of the indoor air is higher than the predetermined value, the ventilation device is operated at a low speed. I have.
That is, the ventilation device is operated at a low speed in the case of indoor conditions where mold and ticks are likely to occur, and the ventilation device is intermittently operated in the case of indoor conditions where the probability of occurrence of mold and ticks is relatively low. It has become.
[0011]
According to the indoor unit for air conditioning according to claim 3, the control device is configured to control the ventilation device when the value of the degree of contamination detected by the gas sensor is equal to or greater than a second value greater than the first value. Is operated so as to be operated at high speed.
[0012]
In this air conditioning indoor unit, the ventilation device is operated at a high speed when the value of the degree of contamination is equal to or higher than a second value higher than the first value.
That is, when the degree of indoor air pollution is high, the ventilation device is operated at high speed.
[0013]
According to the indoor unit for air conditioning according to claim 4, the control device is configured to control the ventilation device when a value of the degree of contamination detected by the gas sensor is equal to or more than the first value and smaller than the second value. Is controlled to operate at a low speed.
[0014]
In this indoor unit for air conditioning, when the value of the pollution degree is equal to or more than the first value and smaller than the second value, the ventilation device is operated at a low speed.
That is, when the degree of indoor air pollution is not so high, the ventilation device is operated at a low speed.
[0015]
According to the indoor unit for air conditioning described in claim 5, the control device controls the operation of the fan according to the operation state of the ventilation device.
[0016]
In this air conditioning indoor unit, when the ventilator is operated, the fan is also operated at the same time.
For example, when the ventilator is operated, the fan in the standby state is operated.
[0017]
According to the indoor unit for air conditioning described in claim 6, the gas sensor is provided in the room.
[0018]
In this air conditioner, the gas sensor is provided indoors. For example, a gas sensor is installed in a place where odorous gas is likely to be generated in a room (for example, a kitchen or a place where pets are mainly present).
[0019]
According to the air conditioner according to claim 7, the indoor unit for air conditioning according to any one of claims 1 to 6, a compressor for compressing the refrigerant, and heat generated by the refrigerant and the outdoor air. An air conditioning outdoor unit having an outdoor heat exchanger for performing exchange, the air conditioning indoor unit and the air conditioning outdoor unit are connected, and a refrigerant is circulated between the air conditioning indoor unit and the air conditioning outdoor unit. And a refrigerant pipe for the
[0020]
In this air conditioner, data obtained by a humidity sensor, a temperature sensor, and a gas sensor are sent to a control device, and based on these data, the control device controls the operation of the ventilation device and performs a cooling and heating function. It is configured.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of an indoor unit for air conditioning according to the present invention will be described with reference to FIG.
FIG. 1 is a schematic configuration diagram of an air conditioner 100. In the figure, reference numeral 10 denotes an indoor unit for air conditioning mounted on a wall W in the room, reference numeral 20 denotes an outdoor unit for air conditioning, and reference numeral 30 denotes a refrigerant pipe. .
[0022]
The outdoor unit for air conditioning 20 includes a compressor 21 for compressing a refrigerant and an outdoor heat exchanger 22 for exchanging heat between the refrigerant and outdoor air.
The refrigerant pipe 30 connects the air conditioning indoor unit 10 and the air conditioning outdoor unit 20 and circulates the refrigerant between the air conditioning indoor unit 10 and the air conditioning outdoor unit. The refrigerant pipe 30 connects the air conditioning indoor unit 10 and the air conditioning outdoor unit 20 through a through hole H provided in the wall W.
[0023]
As shown in FIG. 1, the indoor unit for air conditioning 10 has suction grills (suction ports) 11a and 11b for taking in indoor air, and cools or heats indoor air taken in from the suction grills 11a and 11b. Heat exchangers 12a, 12b, and 12c, air outlets 13 for returning the air heat-exchanged by the indoor heat exchangers 12a, 12b, and 12c to the room, and intake air from the intake grills 11a and 11b. A cross flow fan (fan) 14 for blowing out the heat-exchanged air from the outlet 13 into the room, a ventilator 15 provided on one side of the indoor unit 10 for air conditioning, and a vicinity of the suction grill 11a. The provided temperature sensor 16, humidity sensor 17, gas sensor 18, and ventilation device 15 and / or Others are those composed a control device 19 which controls the operation of the cross flow fan 14, as main elements.
[0024]
The suction grills 11a and 11b, the indoor heat exchangers 12a, 12b and 12c, the air outlet 13, and the cross flow fan 14 are conventionally well-known, and the description thereof is omitted here.
[0025]
The ventilator 15 has a suction port 15a at one end of the casing and a discharge port 15b at the other end of the casing. The other end of the casing is located in the aforementioned through hole H, and the discharge port 15b is configured to open to the outside of the room. A sirocco fan driven by an electric motor is provided in the casing. Therefore, when the sirocco fan is driven by the electric motor, the air is sucked from the suction port 15a and the air sucked from the discharge port 15b is discharged outside the room.
[0026]
The temperature sensor 16 detects the temperature of the room air taken from the suction grill 11a (that is, the temperature of the room).
The humidity sensor 17 detects the humidity of the indoor air taken from the suction grill 11a (that is, the indoor humidity).
The gas sensor 18 detects a specific gas concentration change of, for example, tin oxide (SnO ₂ ) by a change in resistance value, and detects various gas concentrations (contamination degree). Examples of the types of gas that can be detected include n-hexane, acetaldehyde, nitranol, ammonia, and acetic acid.
[0027]
The following operation is performed by such an air conditioning indoor unit 10.
When the degree of contamination detected by gas sensor 18 is level I (clean), and the room temperature is, for example, 28 ° C. or less and the humidity is, for example, 60% or less, control device 19 repeats stop of ventilation device 15 and low-speed operation. It has a ventilation operation mode in which the ventilation device 15 is operated at a low speed when the degree of contamination is level I (clean) and the room temperature exceeds 28 ° C. or the humidity exceeds 60%, for example. I have. The control device 19 sets the ventilation device 15 to low-speed operation when the pollution degree detected by the gas sensor 18 is level II (slightly dirty), and sets the ventilation device 15 to high-speed operation when the pollution degree is level III (dirty). It has a ventilation operation mode for operation.
[0028]
That is, the control device 19 selectively employs the above-described plurality of ventilation operation modes. Specifically, the value of the contamination degree detected by the gas sensor 18 is smaller than the first value set in advance (contamination). Degree: level I), when the indoor temperature detected by the temperature sensor 16 is equal to or lower than a predetermined temperature (for example, 28 ° C.), and the humidity of the indoor air detected by the humidity sensor 17 is equal to or lower than a predetermined value (for example, 60%) In this case, the operation is controlled so that the ventilator 15 becomes an intermittent operation in which the stop and the low-speed operation are repeated.
In addition, the control device 19 determines that the value of the pollution degree detected by the gas sensor 18 is smaller than a first value set in advance (contamination degree: level I), and the temperature of the room detected by the temperature sensor 16 is a predetermined temperature (for example, If the temperature is higher than 28 ° C.) or the humidity of the indoor air detected by the humidity sensor 17 is higher than a predetermined value (for example, 60%), the operation control is performed so that the ventilation device 15 operates at a low speed.
When the value of the degree of contamination detected by the gas sensor 18 is equal to or more than the second value set in advance (in the case of level III), the control device 19 is controlled to operate the ventilation device 15 at high speed. When the value of the pollution degree detected by the gas sensor 18 is equal to or more than the first value and smaller than the second value (in the case of level II), the operation control is performed so that the ventilation device 15 operates at high speed.
FIG. 2 shows the relationship between the degree of pollution and the operating state of the ventilation device in an easily understood manner. In this embodiment, in order to enable the operation control shown in FIG. 2, the control device stores a program for realizing each of the above-described ventilation operation modes in accordance with the value of the sensor in a storage device (not shown) such as a ROM. , And the control device reads out the program from the storage device as needed, and performs control.
[0029]
As described above, the ventilator is operated not only by the degree of pollution but also by the temperature of the room and the humidity of the room air, thereby realizing an indoor environment where mold and ticks are less likely to occur. Can be suppressed.
[0030]
As a second embodiment of the air-conditioning indoor unit according to the present invention, at least one of the temperature sensor 16, the humidity sensor 17, and the gas sensor 18, which is arranged inside the air-conditioning indoor unit 10, is placed in a proper place in the room. It can be provided.
That is, the temperature sensor 16 is installed in a place where the temperature of the air can be detected (measured) in a place where molds and ticks are likely to occur in the room, or a place where the humidity tends to be high in the room (for example, a washroom adjacent to a bathroom or The humidity sensor 17 can be installed in a dressing room or the like, or the gas sensor 18 can be installed in a place where odor gas is likely to be generated (for example, a kitchen or a place where pets are mainly present).
The signals from these sensors are connected to the control device 19 wirelessly or by wire.
[0031]
As a result, the ventilator 15 is operated by the temperature of the room or the humidity of the room air, and an indoor environment in which mold and ticks are less likely to be generated is realized. it can.
Further, odorous gas (for example, harmful gas such as formaldehyde generated from building materials, wallpaper, etc.) is automatically discharged outside, so that a comfortable living environment can be realized.
[0032]
As a third embodiment of the indoor unit for air conditioning according to the present invention, the cross flow fan 14 can be operated when the ventilator 15 is operating.
That is, the crossflow fan 14 can be operated together when only the ventilation device 15 is operating, or the ventilation device 15 can be operated together when the crossflow fan 14 is operating. .
[0033]
By operating the cross flow fan 14 together with the ventilator 15 in this manner, the circulating flow (that is, the flow from the air outlet 13 of the air conditioning indoor unit 10 to the interior → the suction grills 11a and 11b of the air conditioning indoor unit 10) is generated. ) Is generated, and the indoor air can be efficiently discharged to the outside, so that an indoor environment in which mold and ticks are less likely to be generated in a short time can be realized, or the odor can be quickly released from an unpleasant odor. It will be.
[0034]
When such an air conditioning indoor unit 10 constitutes the air conditioner 100 together with the air conditioning outdoor unit 20 and the refrigerant pipe 30, the ventilation device 15 is in a state where the cross flow fan 14 is stopped (ie, Even in the case where the cooling / heating function is stopped (a so-called standby state), it is configured to be operable by the three sensors described above.
[0035]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to the indoor unit for air conditioning of this invention, and the air conditioner provided with the same, the following effects can be acquired.
According to the air conditioning indoor unit of the first aspect, data obtained by the humidity sensor, the temperature sensor, and the gas sensor are sent to the control device, and the control device controls the operation of the ventilation device based on the data. Therefore, it is possible to realize an indoor environment where mold and ticks are less likely to occur, and it is possible to suppress the occurrence of mold and ticks.
[0036]
According to the air-conditioning indoor unit according to the second aspect, the ventilation device is operated at a low speed under indoor conditions where mold and mite are highly likely to be generated. It is possible to realize an indoor environment in which the occurrence of molds and ticks is less likely to occur, and to suppress the occurrence of molds and ticks.
In addition, in the case of indoor conditions where the possibility of generation of mold and ticks is relatively low, the ventilator is designed to be operated intermittently, so it is possible to realize an indoor environment where mold and ticks are less likely to occur, The generation of mold and ticks can be suppressed, and the cost of electricity for operating the ventilator can be suppressed to save energy.
[0037]
According to the indoor unit for air conditioning according to the third aspect, when the degree of contamination of the indoor air is high, the ventilation device is operated at a high speed, so that the indoor air is discharged to the outside in a short time. Therefore, a comfortable environment free from odor can be realized in a short time.
[0038]
According to the indoor unit for air conditioning according to claim 4, when the degree of contamination of the indoor air is not so high, the ventilation device is operated at a low speed, so that the electricity bill for operating the ventilation device is reduced. It is possible to suppress energy consumption.
[0039]
According to the indoor unit for air conditioning according to the fifth aspect, when the ventilation device is operated, the fan is also operated at the same time, so that a circulating flow is generated in the room, and the air in the room is efficiently produced. It is possible to realize an indoor environment in which molds and ticks are hardly generated by being discharged outside the room in a short time, or a comfortable environment free from odor.
[0040]
According to the indoor unit for air conditioning according to the sixth aspect, the gas sensor is provided in the room, for example, in a place where odor gas is likely to be generated, so that the odor gas can be detected quickly and the odor gas can be detected. Can be quickly discharged out of the room before it spreads to every corner of the room.
[0041]
According to the air conditioner of the seventh aspect, data obtained by the humidity sensor, the temperature sensor, and the gas sensor are sent to the control device, and based on these data, the control device controls the operation of the ventilation device, and performs the cooling and heating. Since it is configured to exhibit its function, it is possible to reliably realize an indoor environment where mold and ticks are unlikely to occur, and it is possible to reliably suppress the occurrence of mold and ticks.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an air conditioner including an indoor unit for air conditioning according to the present invention.
FIG. 2 is a diagram showing a ventilation operation mode of the air conditioner shown in FIG.
FIG. 3 is a diagram showing an example of a ventilation operation mode applicable to an air conditioner having a ventilation function.
[Explanation of symbols]
10 Indoor unit for air conditioning 11a Suction grill (suction port)
11b Suction grill (suction port)
12a Indoor heat exchanger 12b Indoor heat exchanger 12c Indoor heat exchanger 13 Air outlet 14 Cross flow fan (fan)
15 Ventilation device 15a Suction port 15b Discharge port 16 Temperature sensor 17 Humidity sensor 18 Gas sensor 19 Control device 20 Air conditioning outdoor unit 21 Compressor 22 Outdoor heat exchanger 30 Refrigerant piping 100 Air conditioner

Claims (7)

A suction port for taking in indoor air,
An indoor heat exchanger for cooling or heating the air taken in from the suction port,
An outlet for returning the air heat exchanged by the indoor heat exchanger to the room,
A fan for taking in air from the suction port and blowing out the heat-exchanged air into the room from the outlet.
A ventilator with suction and outlet,
A humidity sensor for detecting the humidity of indoor air,
A temperature sensor for detecting an indoor temperature,
A gas sensor that detects the degree of indoor air pollution,
The humidity sensor, the temperature sensor, and a control device that controls the operation of the ventilation device based on a signal from the gas sensor,
The air conditioning indoor unit, wherein the control device has a plurality of ventilation operation modes for controlling rotation of the fan. The control device, as the ventilation operation mode, the value of the pollution degree detected by the gas sensor is smaller than a first value set in advance, the room temperature detected by the temperature sensor is a predetermined temperature or less, and the When the humidity of the indoor air detected by the humidity sensor is equal to or less than a predetermined value, operation control is performed such that the ventilation device is intermittently operated between a stop and a low-speed operation,
The value of the degree of contamination detected by the gas sensor is smaller than a first value set in advance, and the temperature of the room detected by the temperature sensor is higher than a predetermined temperature, or the indoor air detected by the humidity sensor. The air-conditioning indoor unit according to claim 1, wherein when the humidity becomes higher than a predetermined value, the operation of the ventilation device is controlled so as to operate at a low speed. When the value of the degree of contamination detected by the gas sensor is equal to or greater than a second value greater than the first value, the control device controls the operation of the ventilation device so as to operate at a high speed. The air conditioning indoor unit according to claim 2. The control device is characterized in that when the value of the degree of contamination detected by the gas sensor is greater than or equal to the first value and smaller than the second value, operation control is performed such that the ventilation device operates at a low speed. The air-conditioning indoor unit according to claim 3. The air conditioning indoor unit according to any one of claims 1 to 4, wherein the control device controls the operation of the fan according to an operation state of the ventilation device. The air conditioning indoor unit according to any one of claims 1 to 5, wherein the gas sensor is provided in the room. An air conditioning indoor unit according to any one of claims 1 to 6,
A compressor for compressing the refrigerant, and an outdoor unit for air conditioning having an outdoor heat exchanger for causing heat exchange between the refrigerant and outdoor air,
A refrigerant pipe for connecting the air conditioning indoor unit and the air conditioning outdoor unit and circulating a refrigerant between the air conditioning indoor unit and the air conditioning outdoor unit. .

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