JP4202822B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner, and is particularly suitable for an air conditioner provided with a sub-fan in an indoor unit so as to have an air supply function and an exhaust function.
[0002]
[Prior art]
As this type of conventional air conditioner, there is one described in JP 2000-274727 A (Patent Document 1). This Patent Document 1 incorporates a sub-fan that can be switched between forward and reverse rotation in one ventilation air passage and switches the rotation direction of the sub-fan to exhaust indoor air to the outside. And a separate air conditioner indoor unit including a sub-fan unit having an air supply function for taking outdoor air into the room.
[0003]
[Patent Document 1]
JP 2000-274727 A
[0004]
[Problems to be solved by the invention]
In general, by limiting the rotation direction of the fan to one direction, the blower makes the shape of the mouth ring that the fan sucks into the rotation direction and the shape of the casing that induces the air blown out by the fan, It can be set as a blower with good ventilation efficiency and low noise.
[0005]
However, as described in Patent Document 1, when the direction of rotation of the sub fan is changed from the normal rotation to the reverse rotation and the air blowing direction is switched, the air suction port during the normal rotation is changed to the air outlet when the reverse rotation is performed. Thus, the air inlet at the time of reverse rotation becomes an air outlet at the time of forward rotation. For this reason, the air intake port and the air outlet of the sub fan cannot be made into an effective shape according to each function. Further, even in the case of the sub fan, it is necessary to send out the wind in the forward rotation and the reverse rotation in the same manner, and it has not been possible to have a blade shape with good blowing efficiency. Therefore, in order to secure the air volume necessary for ventilation, it is necessary to increase the shape of the sub fan, and the size of the sub fan unit incorporated in the indoor unit increases. Further, since the shape of the blades of the sub fan and the shape of the ventilation path cannot be made efficient, the air blowing efficiency is deteriorated and the noise of the sub fan unit cannot be reduced.
[0006]
Further, in the air conditioner of Patent Document 1, the air blown from the sub fan unit is simply blown from the end of the indoor unit, and the blown air is effectively used in association with the air blown from the main fan. It was not a thing.
[0007]
Further, in the air conditioner of Patent Document 1, no consideration has been given to self-cleaning of an air filter or an air purifier arranged in the sub fan unit.
[0008]
An object of the present invention is to provide a sub-fan unit that is small in size, has good ventilation efficiency and low operating noise even if it has an air supply function and an exhaust function. Self-cleaning that collects and removes dust in outdoor air on the suction side of the filter or air purifier when supplying air and removes accumulated dust with indoor air while exhausting air while exhausting. With function It is to obtain an air conditioner.
[0011]
[Means for Solving the Problems]
in front Note In order to achieve the objective, the present invention provides an indoor heat exchanger and a main fan for air-conditioning indoor air in a horizontally long indoor unit, supplying outside air to the room and exhausting indoor air to the outside. In the air conditioner provided with the sub fan unit for performing the above operation, the sub fan unit includes a sub fan in which both the supply air and the exhaust air have the same rotation direction, a ventilation path of the sub fan, and an indoor side sub of the ventilation path. A damper that forms a supply and exhaust air path by switching the communication state to the ventilation opening and the outdoor sub ventilation opening; A filter or air purifier that accumulates dust on the surface of the suction side With , The sub-fan ventilation passage is a suction air passage and a blow-out air passage. , Common wind path And air supply The common air passage is communicated with the outdoor sub-ventilation port and is switched by the damper. air supply The air passage and the blowing air passage are communicated with the common air passage, Air supply Provide the filter or air purifier in the air passage so that the suction side faces the common air passage In addition, outdoor air passes through the outdoor sub-air vent and the common air passage, passes through the filter or the air cleaner, and is sucked into the sub-fan through the air supply air passage. The air is blown out from the sub fan and supplied to the room through the indoor side sub-air vent, and the indoor air is sucked into the same sub fan as when air is supplied through the indoor side sub air vent when the air is exhausted. Through the blowing air passage, through the common air passage so as to flow on the suction side surface of the filter or the air purifier, and discharged from the outdoor sub-ventilator to the outside of the room. Is.
in front Note In order to achieve the target more preferably, the present invention further comprises a centrifugal fan having a casing that sucks air from the axial direction that is the longitudinal direction of the indoor unit and discharges the air in the circumferential direction. The sub fan suction air passage is formed on the suction surface side of the casing, the sub fan exhaust air passage is formed outside the outer peripheral surface of the casing, and the sub fan motor is built in the center of the sub fan. And the said filter or the said air cleaner is arrange | positioned outside the outer peripheral surface of the said casing, the said sub fan unit is made thin laterally, and it accommodated in the side edge part in the said indoor unit.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of an air conditioner of the present invention will be described with reference to the drawings.
[0013]
The overall configuration and function of the air conditioner will be described with reference to FIGS. 1 is an external view of an indoor unit according to an embodiment of the air conditioner of the present invention, FIG. 2 is a layout diagram of components of the indoor unit in FIG. 1, FIG. 3 is a cross-sectional view taken along the line AA in FIG. It is BB sectional drawing of.
[0014]
The air conditioner of the present embodiment is a separate air conditioner configured by connecting an indoor unit 1 and an outdoor unit via a refrigerant pipe, a drain hose, an electrical wiring, a ventilation pipe, and the like. The indoor unit 1 has a horizontally long overall shape, and is installed on the upper part of the wall surface of the room.
[0015]
The indoor unit 1 includes a unit box 2, a decorative cover 3, and a front cover 4. The indoor unit 1 is formed with an air suction port 5 for sucking indoor air in which temperature and humidity are harmonized and a blowout port 6 for blowing out indoor air in which temperature and humidity are harmonized. The air outlet 6 is provided in a large size in the lower portion of the indoor unit 1 and constitutes a main outlet with respect to the sub outlet 13. A vertical wind direction deflecting plate 7 is rotatably installed at the air outlet 6. This up-and-down air direction board 7 is for changing the direction of the blown-out air, and is located so that it may blow off in the horizontal direction at the time of cooling, and it may be blown down at the time of heating.
[0016]
As shown in FIGS. 2 and 3, a main fan 9, a heat exchanger 10, and a dew tray 11 are incorporated in the unit box 2. The main fan 9 is composed of a horizontally long cross-flow fan, and is arranged at the center in the indoor unit 1 so as to suck indoor air from the air suction port 5 and blow it out from the air blowing port 6. The heat exchanger 10 is disposed on the suction side of the main fan 9 and has a substantially inverted V shape. The dew receiver 11 is disposed below the lower ends of the front and rear sides of the heat exchanger 10 and is provided for receiving condensed water generated in the heat exchanger 10 during cooling operation or dehumidifying operation and discharging it to the outside. As a result, a main passage through which indoor air to be air-conditioned flows is formed. That is, by operating the main fan 9, room air is sucked in through the air inlet 5, cooled, dehumidified or heated by the heat exchanger 10 and blown out into the room from the air outlet 6.
[0017]
The sub fan unit 15 is disposed on one side of the indoor unit 1. Specifically, the sub fan unit 15 is arranged on the opposite side of the main fan motor 9a for operating the main fan 9 of the unit box 2, in other words, on the left side of the main fan 9 and the heat exchanger 10 as shown in FIG. It is incorporated as shown in FIG. The sub fan unit 15 is formed thin on the side. By disposing the sub fan unit 15 on the side opposite to the main fan motor 9a, the design of the indoor unit 1 can be made symmetrical, and the design can be improved.
[0018]
The sub fan unit 15 has a sub suction port 16 for sucking room air at the front. The sub suction port 16 is located behind the indoor air filter 8 and sucks indoor air through the indoor air filter 8. The sub suction port 16 constitutes an indoor side sub ventilation port. In this embodiment, the indoor side sub-ventilation port is divided into two parts, a sub-inlet port 16 and a sub-outlet port 17 which will be described later.
[0019]
The blower duct 12 communicates with the sub blowout port 17 of the subfan unit 15. The air duct 12 is positioned above the air outlet 6 and in front of the dew receiver 11, and extends laterally to the central portion in the indoor unit 1. A sub air outlet 13 is provided at the tip of the air duct 12, in other words, directly above the center of the air air outlet 6. As a result, the air blown into the room from the sub fan unit 15 is blown from the sub blowout port 17 to the blower duct 12 and blown into the room from the sub blowout part 13 at the tip of the blower duct 12.
[0020]
The sub fan unit 15 has an air supply / exhaust port 18 at the rear for exhausting indoor air to the outside and taking in fresh outdoor air. The air supply / exhaust port 18 constitutes an outdoor ventilation port. Usually, a flexible air supply / exhaust duct is connected to the air supply / exhaust port 18, and this air supply / exhaust duct is routed to the outside together with the refrigerant pipe connecting the indoor unit and the outdoor unit. The tip of is open to the open air.
[0021]
As shown in FIG. 2, the electrical component 14 is provided at the right end of the indoor unit 1, in other words, on the right side of the heat exchanger 10. When the power switch of the indoor unit 1 is turned on, the control device for the electrical component 14 is operated and the main fan 9 is driven. When the main fan 9 is driven, the indoor unit 1 sucks indoor air from the air suction port 5 through the indoor air filter 8 and harmonizes the temperature and humidity of the indoor air sucked by the heat exchanger 10. The air flows through the air outlet 6 and blows out the room air in which the temperature and humidity are harmonized from the air outlet 6 into the room to harmonize the indoor environmental conditions to a state suitable for daily life.
[0022]
In the lower part of the heat exchanger 10, a dew tray 11 is provided. In the case of cooling operation, the heat exchanger 10 cools the indoor air, so that moisture contained in the indoor air is condensed. Cold drain water is collected in the dew tray 11 and drained to the outside through a drain hose. Further, in the case of heating operation, the heat exchanger 10 acts as a heater, so that the dew tray 11 provided at the lower part of the heat exchanger 10 is heated and becomes hot. Therefore, the dew receiving tray 11 is cooled and cooled by collecting cold drain water in the cooling operation, and heated by the high-temperature heat exchanger 10 in the heating operation. And since the air duct 12 which guides the air which the sub fan unit 15 blows off from the sub blower outlet 17 is provided in the front surface of the dew receiver 11, it will receive the temperature conditions of the dew receiver 11 directly, and is the case of a cooling operation. Is cooled and cooled, and in the case of heating operation, it is heated and warmed. Therefore, the air that is blown from the sub fan unit 15 and flows through the air duct 12 is cooled and cooled in the cooling operation while being heated in the air heating operation while it is flowing in the air duct 12. Become. When the sub-fan unit 15 performs an air supply operation for supplying fresh outdoor air into the room, in the cooling operation, for example, hot outdoor air in summer is supplied, but preliminary cooling is performed while passing through the air duct 12. In the heating operation, for example, cold outdoor air in the winter is supplied, but preheating is performed while passing through the air duct 12. The room heating effect is not impaired.
[0023]
In the present embodiment, the main fan motor 9a and the electrical component 14 are arranged on the right side of the indoor unit 1 and the sub fan unit 15 is arranged on the left side. Is possible.
[0024]
Next, the configuration and function of the sub fan unit 15 will be described with reference mainly to FIGS. 5 is an external view of the sub fan unit of FIG. 1, FIG. 6 is a perspective view of the sub fan unit of FIG. 5 with the right side plate omitted, and FIG. 7 is a perspective view of the sub fan unit of FIG. .
[0025]
The sub fan unit 15 has a blower portion disposed in the lower half thereof, an air purifier 21 disposed in the upper half portion thereof, and a vertical dimension of the upper and lower vertical rows, thereby reducing the width dimension. The sub fan unit 15 is configured to be housed in the indoor unit 1 without increasing the width dimension.
[0026]
The blower unit in the lower half portion of the sub fan unit 15 includes a sub fan 19 and a sub motor 20 that drives the sub fan 19. The sub fan 19 is constituted by a centrifugal fan having a casing 28 that sucks air from the axial direction that is the longitudinal direction of the indoor unit 1 and discharges it in the circumferential direction. The suction air passage 22 of the sub fan 19 is formed on the suction surface side of the casings 22b and 28. The sub motor 20 is incorporated in the recess of the sub fan 19 so that the width of the sub fan unit 15 is reduced. The exhaust air passage 23 of the sub fan 19 is formed outside the outer peripheral surface of the casing 28. A common air passage 25 communicating with the air supply / exhaust port 18 is formed outside the outer peripheral surface of the casing 28.
[0027]
An air purifier 21 is disposed above the suction air passage 22, the exhaust air passage 23, and the common air passage 25. A supply air passage 24 is provided between the suction air passage 22 and the air purifier 21. An air chamber 26 for guiding the air flow blown out by the sub fan 19 to the sub blowout port 17 is provided at the lower part of the suction air passage 22.
[0028]
A damper I29 is provided in the suction portion of the sub fan 19, and the damper I29 is driven by the motor I30, so that any one of the suction port 22a provided in the suction air passage 22 and the air supply port 24a provided in the supply air passage 24 can be selected. One is opened and the other is shielded. Also, the sub fan blowout that collects and sends out the air blown out to the casing 28 by the sub fan 19. Part The damper II31 is also provided, and by driving the motor II32, the damper II31 opens either the air chamber air outlet 26a provided in the air chamber 26 or the exhaust air outlet 23a provided in the exhaust air passage 23. The other is shielded.
[0029]
On the opposite side of the air chamber 26 provided with the air chamber blower port 26a, a sub blowout port 17 for blowing wind to the blower duct 12 (see FIG. 2) is provided. Further, an insect net 33 is provided in the exhaust air passage 23 in order to prevent insects and the like from entering from the outside. Then, a partition 23d is provided in the exhaust air passage 23 so that the indoor air exhausted through the exhaust air passage 23 flows toward the surface of the air purifier 21 and is accumulated on the surface of the air purifier 21. Dust is removed from the air supply / exhaust port 18 together with room air exhausted through the common air passage 25. Thus, during the air supply operation, the dust removed from the sucked outdoor air and accumulated on the suction side of the air purifier 21 is removed by the indoor air to be exhausted. Has a self-cleaning function. Further, since the indoor air to be exhausted does not penetrate the air purifier 21 during the exhaust operation, the ventilation resistance during the exhaust operation can be reduced, and the amount of indoor air to be exhausted can be increased.
[0030]
Since the air cleaner 21 needs to be replaced or cleaned as necessary, the front cover 4 is opened and the handle 21a is pulled out without removing the entire sub fan unit 15 from the indoor unit 1. Thus, the air cleaner 21 can be removed from the sub fan unit 15. The insect net 33 can be removed in the same manner.
[0031]
In this embodiment, the air purifier 21 is used to remove not only the dust in the air but also harmful components to the human body from the outdoor air sucked during the air supply operation. A filter may be employed to remove only dust in the air.
[0032]
Next, the circulation operation, the ventilation operation, and the air supply operation by the sub fan unit 15 will be described with reference mainly to FIGS. FIG. 8 is a diagram schematically showing the air flow of the sub fan unit of FIG. 2, and FIG. 9 is a diagram showing the operating state of the sub fan unit of FIG.
[0033]
The sub fan unit 15 has three types of operation modes, ie, circulation operation, ventilation operation, and air supply operation, and an operation stop state. The wind flow direction and the damper open / close position in each operation mode are as shown in FIG. Of course, the wind does not flow when the operation is stopped, and the damper I29 and the damper II31 are in the position (b), respectively, and the outdoor air enters the room from the exhaust air passage 23 and the supply air passage 24. Is preventing. Although not specifically described, each operation mode is switched by the operation unit of the remote control switch or by the operation unit of the indoor unit 1. The sub fan unit 15 can be operated in combination with the air conditioning operation of the indoor unit 1 or can be operated alone. Furthermore, it is possible to provide a timer in the sub fan unit 15 to automatically stop the operation after a certain period of operation.
[0034]
As shown in FIG. 8, since the sub fan 19 used in the sub fan unit 15 rotates in a certain direction and causes air to flow in the direction of the arrow, the mouth ring 27 in the suction portion of the sub fan 19 is connected to the sub fan unit 15. Since the shape adapted to the fan 19 and the casing 28 can also be adapted to the sub fan 19, the air blowing efficiency of the sub fan 19 can be improved and the operation noise of the sub fan 19 can be reduced. it can.
[0035]
Then, the air sucked by the damper I29 in the suction portion of the sub fan 19 is switched to either the suction air passage 22 or the supply air passage 24 side, and the air blown out by the damper II 31 in the sub fan blow-out portion 34 is changed to the indoor sub blowout. The operation mode of the sub fan unit 15 is switched to the circulation operation, the exhaust operation, and the air supply operation mode by switching to either the port 17 or the outdoor air supply / exhaust port 18. That is, in the circulation operation, the damper I29 is on the (a) side and opens the suction air passage 22 to shield the supply air passage 24, so that the indoor air is sucked through the suction air passage 22 and the damper II 31 is (a). Since the air chamber 26 is opened and the exhaust air passage 23 is shielded, the room air blown out from the casing 28 is blown into the air chamber 26 and connected to the sub blowout port 17 through the sub blowout port 17. 12 will be blown.
[0036]
Further, in the exhaust operation, the damper I29 is on the (a) side and opens the suction air passage 22 and shields the air supply air passage 24, so that the room air is sucked through the suction air passage 22, but the damper II31 is (b) Therefore, the air chamber 26 is shielded and the exhaust air passage 23 is opened. As a result, the room air blown out from the casing 28 flows into the exhaust air passage 23 and is exhausted from the air supply / exhaust port 18 to the outside through the insect net 33.
[0037]
Further, in the air supply operation, the damper I29 is on the (b) side, shields the intake air passage 22 and opens the air supply air passage 24, so that outdoor air is sucked in through the air supply air passage 24, and the damper II 31 is (a) Since the air chamber 26 is opened and the exhaust air passage 23 is shielded, the outdoor air blown out from the casing 28 is blown into the air chamber 26 and connected to the sub air outlet 17 through the sub air outlet 17. The air is sent to the air duct 12. In the case of the present embodiment, the outdoor air sucked by the sub fan 19 is sucked from the air supply / exhaust port 18 through the common air passage 25, and dust contained in the air is removed on the surface of the air purifier 21. A substance harmful to the human body contained in the air is removed inside the air purifier 21, passes through the air purifier 21, is guided to the air supply air passage 24, and is sucked into the sub fan 19. Become.
[0038]
When the operation is stopped, both the damper I29 and the damper II31 are on the (b) side and prevent the outdoor air from entering the room through the supply air passage 24 or the exhaust air passage 23. Therefore, it is not necessary to provide a back wind prevention valve for preventing outdoor air from entering through the air supply / exhaust air passage when the operation is stopped.
[0039]
Next, details of the circulating operation will be described with reference mainly to FIG.
[0040]
The room air during the circulation operation is sucked from the sub suction port 16 (see FIG. 4) of the suction air passage 22. Although omitted in FIG. 10, an indoor air filter 8 (see FIG. 3) that removes dust from indoor air during the cooling and heating operation is extended to the front of the sub fan unit 15 (see FIG. 4). Since it is provided, the indoor air filter 8 removes dust contained in the air from the indoor air sucked by the sub suction port 16.
[0041]
During the circulation operation, the damper I29 opens the suction port 22a of the suction air passage 22 and shuts off the supply air suction port 24a by the motor I30, so that the indoor air is sucked from the suction port 22a, enters the suction casing 22b, and the mouse. The air is sucked into the sub fan 19 through the ring 27 and blown out from the periphery of the sub fan 19, collected in the casing 28, and blown out to the sub fan blowing portion 34. The damper II31 provided in the sub fan blowing part 34 blocks the exhaust air blowing port 23a by the motor II32 and opens the air chamber air blowing port 26a. As a result, the room air blown out to the sub fan blow-out section 34 flows into the air chamber 26 through the air chamber blower port 26a, and the variation in the flow velocity is averaged in the air chamber 26 so that the static pressure of the air chamber 26 is reduced. As a result, the air flow is increased and the air velocity is made uniform and the static pressure is high, and the air is blown out from the sub blowout port 17 of the subfan unit 15.
[0042]
Although the air duct 12 is not clearly shown in FIG. 10A, the air duct 12 is connected with the air outlet 12a in contact with the sub air outlet 17 as shown in FIG. The blown-out air is blown into the blower duct 12 as it is. The air duct 12 is disposed on the front surface of the dew receiver 11 (see FIG. 3), and the front end of the air duct 12 is located at the approximate center upper part of the air outlet 6 (see FIG. 1) of the indoor unit 1, The room air blown to the duct 12 is blown out from the sub blowout portion 13 (see FIG. 2). Since the air duct 12 is provided in the front part of the dew receiver 11, the dew receiver 11 is cooled and cooled in the cooling operation, and is heated and heated in the heating operation. The air flowing in the air duct 12 is also precooled or preheated to the respective states depending on the respective operation states, and is blown out into the room from the sub blowout portion. Therefore, even when the sub fan unit 15 is operated in the circulation operation mode, the air volume during the cooling operation or the heating operation is increased, and the precooled or preheated air is blown out from the sub blowout portion to the temperature of each operation state. Therefore, the cooling capacity or heating capacity during each operation can be improved.
[0043]
Next, details of the exhaust operation will be described with reference mainly to FIG.
[0044]
The indoor air during the exhaust operation is sucked into the intake air passage 22 after the dust in the air is removed by the indoor air filter 8 (see FIG. 3) as in the circulation operation. The damper I29 is located at the same position as in the circulation operation, opens the suction port 22a, and blocks the supply air suction port 24a. Therefore, the indoor air is sucked from the suction port 22a, enters the suction casing 22b, is sucked into the sub fan 19 through the mouth ring 27, blown out from the periphery of the sub fan 19, and collected by the casing 28 to be sub fan blow-out portion. 34 will be blown out.
[0045]
In the case of the exhaust operation, the damper II 31 in the sub fan blowing part 34 opens the exhaust air blowing port 23a and shuts off the air chamber blowing port 26a. The air is blown to the exhaust air passage 23b through 23a, the direction of the flow is deflected by the partition 23d through the insect net 33, and the air is directed to the upper air cleaner 21. The indoor air flowing upward on the surface of the air purifier 21 is reversed at the ceiling of the air purifier 21 and directed downward, and is discharged from the air supply / exhaust port 18 to the outside through the common air passage 25. . The dust removed from the outdoor air during the air supply operation is accumulated on the exhaust air passage 23 side of the air cleaner 21, but by flowing the indoor air during the exhaust operation over the surface of the air cleaner 21, Moreover, the dust accumulated on the surface of the air purifier 21 is effectively removed by causing a turbulent flow by being inverted at the ceiling of the air purifier 21. In addition, the indoor air during the exhaust operation is simultaneously removed from insects and dust attached to the air supply / exhaust port 18 side of the insect-proof net 33. Therefore, by repeating the air supply operation and the exhaust operation, the sub fan unit 15 self-cleans the air cleaner 21 and the insect net 33, and reduces the number of times the air cleaner 21 and insect net 33 are cleaned. Can do. Further, since the indoor air exhausted during the exhaust operation does not penetrate through the air purifier 21, the ventilation resistance during the exhaust operation decreases, and the amount of indoor air exhausted can be increased.
[0046]
Next, details of the air supply operation will be described with reference mainly to FIG.
[0047]
In the case of the air supply operation, the damper I29 in the suction portion of the sub fan 19 shields the suction port 22a and opens the air supply suction port 24a, and the damper II31 in the sub fan blowout portion 34 connects the air chamber air outlet 26a. Since it opens and shields the exhaust vent 23a, the supply air passage 24 and the common air passage 25 communicate with each other via the air purifier 21. Therefore, when the sub fan 19 is driven in this state, outdoor air is sucked from the air supply / exhaust port 18 through the common air passage 25, and the sucked outdoor air rises in the common air passage 25 toward the air cleaner 21. Then, it passes through the air purifier 21 and flows into the supply air passage 24.
[0048]
When passing through the air purifier 21, the dust contained in the air is removed on the surface of the air purifier 21, and the substance harmful to the human body contained in the air inside the air purifier 21. Will be removed. The dust accumulated on the surface of the air purifier 21 is removed by the room air flowing on the surface of the air purifier 21 during the exhaust operation as described above, and is discharged outside the room together with the room air from the air supply / exhaust port 18. The surface of the air purifier 21 is cleaned. Further, even when insects and the like are sucked together with outdoor air in the air supply operation, the insect net 33 prevents the insects and the like, and the exhaust air blowing port 23a of the exhaust air passage 23 is closed. This prevents double intrusion.
[0049]
The outdoor air that has been sucked into the air supply air passage 24 enters the suction casing 22b through the air supply suction port 24a, is sucked into the sub fan 19 from the mouth ring 27, blown out to the casing 28, and is released by the sub fan blow-out portion 34. It flows into the air chamber 26 from the air chamber air outlet 26a. The outdoor air that has flowed into the air chamber 26 flows into the air duct 12 from the sub blowout port 17 in the same manner as in the circulation operation, and the temperature of the air is changed in the operating state of the indoor unit 1 while flowing through the air duct 12. The indoor air is supplied to the room as fresh outdoor air that is harmonized with the temperature and harmonized with the temperature from the sub blow-out part, and the indoor air is refreshed.
[0050]
As described above, since the sub fan 19 of the sub fan unit 15 of the present invention rotates in a certain direction, the shape of the mouth ring 27 of the suction portion and the shape of the casing 28 can be easily applied to the sub fan 19. Therefore, the sub fan unit 15 having good blowing efficiency and low operation noise can be obtained. Further, the sub motor 20 for driving the sub fan 19 is arranged in a recess provided in the sub fan 19 and the exhaust air is arranged on the same plane surrounding the casing 28 of the sub fan 19 (that is, outside the outer peripheral surface of the casing 28). The air supply mechanism with a thin width dimension is constructed by providing the passage 23 and the common air passage 25. Further, the air purifier 21 is arranged at the upper part of the blower mechanism to reduce the width of the sub fan unit 15 so that the sub fan unit 15 can be accommodated in the indoor unit 1 without increasing the width of the indoor unit. Yes.
[0051]
Next, the effect when the cooling / heating operation of the indoor unit 1 and the operation mode of the sub fan unit 15 are combined will be described with reference to FIGS. 13 and 14. 13 is an explanatory diagram when the cooling operation of the indoor unit of FIG. 1 is combined with the circulation operation or the air supply operation of the sub fan unit, and FIG. 14 is the heating operation of the indoor unit and the circulation operation or the supply of the sub fan unit of FIG. It is explanatory drawing at the time of using together driving.
[0052]
In FIG. 13, when the indoor unit 1 is in a cooling operation and the sub fan unit 15 is in a circulation operation or an air supply operation, the air blown from the sub blow-out unit 13 flows through the air duct 12, while the air duct 12 is Since it is cooled and cooled, it is cooled by the air duct 12. Then, the air cooled by the air duct 12 is blown out almost horizontally as indicated by an arrow A from the sub blowout portion 13 provided at the approximate center upper portion of the air blowout port 6 of the indoor unit 1. On the other hand, in the cooling operation of the indoor unit 1, the cooled cold air is blown out from the air blowing port 6 as indicated by the arrow B, and the whole room is cooled by blowing cool air far away from the room.
[0053]
In FIG. 13, since the cooling air of the sub fan unit 15 is added to the cooling air of the cooling operation, the amount of the cooling air is increased and the room can be quickly cooled. Or the noise at the time of air_conditionaing | cooling operation can be made low by making the air_conditioning | cooling capacity the same and reducing the air volume of air_conditionaing | cooling operation by the air volume which the sub fan unit 15 blows. In addition, since the air is blown out almost horizontally from the sub-blowing unit 13, the indoor upper space is covered, so that the cool air blown from the air blowing port 6 can be effectively utilized in the living space in the lower indoor portion. become able to.
[0054]
Further, in FIG. 14, when the indoor unit 1 is heated and the sub fan unit 15 is circulated or supplied, the air blown from the sub blower 13 flows through the inside of the air duct 12. Since it is heated by the dew tray 11 and warmed, it is heated by the air duct 12. Then, the air heated by the air duct 12 is blown out almost horizontally as indicated by an arrow A from the sub blowout portion 13 provided at the approximate center upper portion of the air blowout port 6 of the indoor unit 1.
[0055]
On the other hand, the warm air that is heated by the heating operation of the indoor unit 1 and becomes warm and blown out from the air outlet 6 tends to constantly rise toward the upper part of the room because the specific gravity is light. . Therefore, the warm air of the heating operation is blown out downward from the air outlet 6 as shown by the arrow B. First, the room floor is warmed to suppress the warm air from rising toward the upper part of the room and living in the room. The space will be heated. In the conventional case where there is no warm air blown out from the sub-blowing unit 13, the warm air blown out from the air blowing port 6 starts to rise as indicated by the arrow B as the speed of the warm air becomes slower, and farther away from the room. The warm warm air could not be reached, and light and warm air was retained in the upper space of the room. However, in the indoor unit 1 of the present embodiment, the warm air is blown out almost horizontally as indicated by the arrow A from the sub-blowout portion 13 provided substantially at the upper center of the air outlet 6, so While covering the warm air of the warm heating operation, the warm air of the heating operation is guided to the far side of the room by the warm air blown out from the sub blow-out portion 13. Therefore, even in the heating operation of the indoor unit 1, a more effective heating operation can be performed by using the circulation operation or the air supply operation of the sub fan unit 15 together.
[0056]
As described above, the air duct 12 is provided on the front surface of the dew receiver 11, and therefore, when the heat exchanger 10 of the indoor unit 1 is cooled in the cooling operation, the condensed cold drain water is received and the dew is received. The receiver 11 is cooled, and the air duct 12 provided on the front surface of the receiver 11 is cooled by the dew receiver 11 and cooled to cool the air flowing therein. Therefore, even if hot outdoor air is supplied indoors during the cooling operation, the air is preliminarily cooled by the air duct 12 and blown out into the room, so that the cooling effect is not greatly impaired.
[0057]
Further, when the heat exchanger 10 of the indoor unit 1 is heated by heating operation, the dew receiver 11 is directly heated and warmed, and the air duct 12 provided on the front surface thereof is heated by the dew receiver 11, The air flowing through it will be warmed. Therefore, even if cold outdoor air is supplied to the room during the heating operation, it is preheated by the air duct 12 and blown into the room, so that the heating effect is not greatly impaired.
[0058]
In addition, without performing the cooling / heating operation of the indoor unit 1, only the sub fan unit 15 performs the circulation operation, the exhaust operation or the air supply operation alone to circulate the indoor air gently or discharge the dirty air in the room. Or take in fresh outdoor air to refresh the indoor air
Next, the sub-blowing unit 13 will be described with reference to FIG. FIG. 15 is a cross-sectional view illustrating the presence or absence of a rectifying plate in the sub-blowing portion of the indoor unit in FIG.
[0059]
As shown in FIG. 15A, a wind direction rectifying plate 12 b is provided in the sub blowing portion 13 of the air duct 12. By providing the wind direction rectifying plate 12b, the air blown out from the sub blowout portion 13 flows while being deflected along the wind direction rectifying plate 12b, and is blown out in a direction substantially perpendicular to the indoor unit 1. When there is no airflow rectifying plate 12b, the air flowing through the air duct 12 is blown in an oblique direction as shown in FIG. 15 (b) by the inertial force, and the flow of cold air in the cooling operation described above. Cannot be effectively induced, or the flow of warm air rising during heating operation cannot be effectively suppressed.
In addition, since the air that has been air-conditioned and blown out from the air outlet 6 during the air-conditioning operation has a high flow velocity at the center of the air outlet 6, it is effective to provide the sub-outlet 13 at the substantially upper center of the air outlet. In addition, it is possible to effectively induce the flow of the cold air during the cooling operation or to effectively suppress the flow of the warm air rising during the heating operation.
[0060]
According to the above embodiment, the sub fan that rotates in a certain direction separately from the main fan, the suction port and the casing adapted to the sub fan, the suction air passage for sucking room air, and the discharge air for discharging the room air It is equipped with a supply air passage that sucks in the road and outdoor air, and a common air passage that is shared by the exhaust and supply air, and the air sucked by the damper provided in the suction section of the sub fan is switched to indoor air or outdoor air, and is sent to the blowing part of the casing. Incorporates a sub-fan unit that enables circulation operation, exhaust operation, and air supply operation by switching the air blown out by the installed damper to the inside or outside of the room, and rotates the sub fan in a certain direction to suck the sub fan intake port. And the casing have a shape adapted to the sub fan, improving the air blowing efficiency of the sub fan unit and supporting the sub fan. It can be obtained indoor unit of separate type air conditioner to lower the operating noise of the fan unit.
[0061]
Also, a ventilation duct is provided at the front part of the dew receptacle of the indoor unit, and the air flow blown out by the sub fan unit is guided to the sub air outlet provided at the substantially upper center of the air outlet of the indoor unit, and is blown out from the sub air outlet. By doing so, it is possible to cause the cool air blown out in the cooling operation to reach far away from the room and to suppress the rise of the warm air blown out in the heating operation.
[0062]
Furthermore, a filter or air purifier in which dust in the outdoor air is removed by passing through a filter or air purifier that cleans the air during the air supply operation, and dust from the filter or air purifier accumulates during the exhaust operation. A self-cleaning function can be built in the sub fan unit by blowing indoor air to be exhausted onto the surface of the air intake side and cleaning the dust accumulated on the surface of the filter or air cleaner.
[0063]
【The invention's effect】
As is apparent from the above description of the embodiments, according to the present invention, a sub-fan unit that is small in size, has good blowing efficiency and low operating noise even if it has an air supply function and an exhaust function. Self-cleaning that collects and removes dust in outdoor air on the suction side of the filter or air purifier when supplying air and removes accumulated dust with indoor air while exhausting air while exhausting. With function An air conditioner can be obtained.
[Brief description of the drawings]
FIG. 1 is an external view of an indoor unit according to an embodiment of an air conditioner according to the present invention.
2 is a component arrangement diagram of the indoor unit in FIG. 1. FIG.
3 is a cross-sectional view taken along the line AA in FIG.
4 is a cross-sectional view taken along the line BB in FIG.
FIG. 5 is an external view of the sub fan unit of FIG. 1;
6 is a perspective view in which a right side plate of the sub fan unit of FIG. 5 is omitted.
7 is a perspective view in which a left side plate of the sub fan unit of FIG. 5 is omitted.
FIG. 8 is a diagram schematically illustrating the air flow of the sub fan unit in FIG. 2;
FIG. 9 is a diagram illustrating an operation state of the sub fan unit of FIG. 2;
FIG. 10 is an explanatory diagram of wind flow in the circulation operation of the sub fan unit of FIG. 2;
FIG. 11 is an explanatory diagram of wind flow in the exhaust operation of the sub fan unit of FIG. 2;
12 is an explanatory diagram of wind flow in the air supply operation of the sub fan unit of FIG. 2; FIG.
13 is an explanatory diagram when the cooling operation of the indoor unit of FIG. 1 and the circulation operation or the air supply operation of the sub fan unit are used in combination.
14 is an explanatory diagram when the heating operation of the indoor unit of FIG. 1 and the circulation operation or the air supply operation of the sub fan unit are used in combination.
15 is a cross-sectional view for explaining the presence / absence of a current plate at a sub-blowing portion of the indoor unit in FIG. 1. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Indoor unit, 2 ... Unit box body, 3 ... Cosmetic cover, 4 ... Front cover, 5 ... Air inlet, 6 ... Air outlet, 7 ... Up-and-down air direction deflector, 8 ... Indoor air filter, 9 ... Main fan DESCRIPTION OF SYMBOLS 10 ... Heat exchanger, 11 ... Dew receptacle, 12 ... Air duct, 13 ... Sub blower part, 14 ... Electric component, 15 ... Sub fan unit, 16 ... Sub suction port, 17 ... Sub blower port, 18 ... Supply / exhaust Mouth, 19 ... sub fan, 20 ... sub motor, 21 ... air cleaner, 22 ... suction air passage, 23 ... discharge air passage, 24 ... air supply air passage, 25 ... common air passage, 26 ... air chamber, 27 ... mouse Ring, 28 ... casing, 29 ... damper I, 30 ... motor I, 31 ... damper II, 32 ... motor II, 33 ... insect repellent net, 34 ... sub-fan outlet.

Claims (2)

An air conditioner provided with an indoor heat exchanger for air-conditioning indoor air and a main fan in a horizontally long indoor unit, and a sub-fan unit for supplying outdoor air to the room and exhausting indoor air to the outside In the machine
The sub-fan unit has a communication state between the sub-fan in which both the supply air and the exhaust air have the same rotational direction, the ventilation path of the sub-fan, the indoor sub-ventilation port, and the outdoor sub-ventilation port of the ventilation channel. A damper that switches to form an air path for supply and exhaust, and a filter or an air purifier that accumulates dust on the surface on the suction side ,
A ventilation path of the sub fan is formed with a suction ventilation path, a blowout ventilation path, a common ventilation path, and an air supply ventilation path. The common ventilation path communicates with the outdoor sub ventilation opening and is switched by the damper. The supply air passage and the blowout air passage communicate with the common air passage, and the filter or the air cleaner is provided in the air supply air passage so that the suction side faces the common air passage,
When supplying air, outdoor air passes through the outdoor sub-air vent and the common air passage, passes through the filter or the air purifier, passes through the air supply air passage, and is supplied to the same sub-fan as that during air supply. Inhaled, blown out from the sub fan and supplied to the room through the indoor side sub vent,
During exhaust, the indoor air is sucked into the sub fan through the indoor side sub-ventilation port, passes through the blowing air passage from the sub fan, and flows on the suction side surface of the filter or the air cleaner. An air conditioner that passes through a common air passage and is discharged to the outside from the outdoor sub vent . The sub fan is constituted by a centrifugal fan having a casing that sucks air from the axial direction which is the longitudinal direction of the indoor unit and discharges it in the circumferential direction, and the suction air passage of the sub fan is formed on the suction surface side of the casing An exhaust air passage of the sub fan is formed outside the outer peripheral surface of the casing, a motor of the sub fan is built in a central portion of the sub fan, and the filter or the air cleaner is connected to the outer peripheral surface of the casing. The air conditioner according to claim 1 , wherein the air conditioner is arranged outside, and the sub fan unit is thinned horizontally and stored in a side end portion in the indoor unit.

Images