JP3589184B2 - Air conditioner indoor unit - Google Patents

Description

[0002]
TECHNICAL FIELD OF THE INVENTION
[0003]
The present invention relates to an indoor unit of an air conditioner, and more specifically, for example, is installed at a low place in a room near a wall or a wall in a room to suppress invasion of radiant heat from a window or the like as much as possible. The present invention relates to an indoor unit of an air conditioner that realizes comfortable air conditioning.
[Prior art]
[0004]
2. Description of the Related Art Conventionally, it has been known that an air conditioner performs a dehumidifying operation in which a humidity of indoor air is reduced by reducing a capacity of a compressor or a fan airflow in a cooling operation cycle in order to enhance comfort particularly in a cooling operation. Have been. In addition, as an operation method in such a dehumidifying operation, a normal “dry operation” in which room air is cooled and dehumidified and then blown into the room as it is, and indoor air is cooled and dehumidified, and then the suction temperature is further increased. A "reheat dry operation" that reheats to near and blows indoors is known, and both types are conventionally used in an air conditioner having a wall-mounted indoor unit.
[Problems to be solved by the invention]
[0005]
However, even in an air conditioner, particularly in an air conditioner having a low-installation-type indoor unit that installs an indoor unit at a low indoor position such as on an indoor floor, either of the above two types is optimal as a dehumidifying operation method. It has not been proposed yet.
[0006]
Here, if the normal “dry operation” is adopted as the dehumidifying operation method, the air cooled and dehumidified by the heat exchange in the heat exchanger is simultaneously blown into the room as it is. This causes a problem that the cold air accumulates near the floor surface, and the feet become "cold air accumulation", and the comfort during the dehumidifying operation is greatly impaired.
[0007]
Therefore, the present invention has a main object of improving the comfort during the dehumidifying operation, particularly in the cooling operation cycle, in the indoor unit of the air conditioner installed in a low place indoors, and also, in the heating operation cycle. The purpose of the present invention is to make it possible to perform dry operation.
[Means for Solving the Problems]
[0008]
The present invention employs the following configuration as specific means for solving such a problem.
[0009]
In the first invention of the present application, in the indoor unit of an air conditioner installed at a low place indoors, the use side heat exchanger 6 functioning as an evaporator and the heat exchange for reheating functioning as a condenser in a cooling operation cycle. And the heat exchanger 7A for reheating is arranged such that the heat exchanger 7A for reheating is located downstream of the use side heat exchanger 6 in the blowing direction of the fan 5,An upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided on the outlet side of the fan 5, while the use side heat exchanger 6 is arranged on the inlet side of the fan 5, The reheating heat exchanger 7 </ b> A is arranged on the blowout side of the fan 5 so as to face the upper surface outlet 3.
[0010]
In the second invention of the present application, in the indoor unit of an air conditioner installed at a low place indoors, the use side heat exchanger 6 functioning as an evaporator and the heat exchange for reheating functioning as a condenser in a cooling operation cycle. And the heat exchanger for reheating 7B are arranged such that the heat exchanger for reheating 7B is located downstream of the use-side heat exchanger 6 in the blowing direction of the fan 5,An upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided on the outlet side of the fan 5, while the use side heat exchanger 6 is arranged on the inlet side of the fan 5, The reheat heat exchanger 7 </ b> B is arranged on the blowout side of the fan 5 so as to face the side surface outlet 4.
[0011]
In the third invention of the present application, in the indoor unit of an air conditioner installed at a low place indoors, the use side heat exchanger 6 functioning as an evaporator and the heat exchange for reheating functioning as a condenser in a cooling operation cycle. The heat exchangers 7A and 7B are arranged so that the reheat heat exchangers 7A and 7B are located downstream of the use-side heat exchanger 6 in the blowing direction of the fan 5,An upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided on the outlet side of the fan 5, while the use side heat exchanger 6 is arranged on the inlet side of the fan 5, The reheat heat exchangers 7A and 7B are arranged on the outlet side of the fan 5 so as to face the upper outlet 3 and the side outlet 4, respectively.
[0012]
In the fourth invention of the present application, in the indoor unit of the air conditioner according to the first, second, or third invention,One or both of the use side heat exchanger 6 and the reheat heat exchangers 7A and 7B are sequentially laminated with flat heat transfer tubes 31 and corrugated fins 32, and both ends of each flat heat transfer tube 31 are connected. It is characterized in that it is constituted by a laminated heat exchanger 30 connected by headers 33 and 34, respectively.
[0013]
In the fifth invention of the present application, in the indoor unit of the air conditioner according to the first, second, or third invention,A feature is that a heater 15 is provided in place of the reheat heat exchangers 7A and 7B.
【The invention's effect】
[0014]
In the present invention, the following effects can be obtained by adopting such a configuration.
[0015]
(A) In the indoor unit of the air conditioner according to the first invention of the present application, in the indoor unit of the air conditioner installed at a low place indoors, the use-side heat exchanger 6 that functions as an evaporator in a cooling operation cycle. And a heat exchanger for reheating 7A functioning as a condenser are arranged such that the heat exchanger for reheating 7A is located downstream of the use-side heat exchanger 6 in the blowing direction of the fan 5. Therefore, during the dehumidifying operation in the cooling operation cycle, the indoor air sucked from the room by the fan 5 first passes through the use-side heat exchanger 6 to be cooled and dehumidified, and then the re-heat is performed. Since the air is reheated in the heat heat exchanger 7A, the air blown out from the indoor unit becomes air that has been subjected to only dehumidification while maintaining the suction temperature. As a result, a "reheat dry operation" in which only the dehumidification is performed while maintaining the room temperature is realized, and the accumulation of cool air in the feet near the floor surface is conventionally and reliably suppressed, and the cooling operation cycle is performed. The indoor comfort at the time of the dehumidifying operation in the vehicle is greatly improved.
[0016]
further,On the outlet side of the fan 5, an upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided, while the use side heat exchanger 6 is arranged on the suction side of the fan 5, and the fan 5, the reheat heat exchanger 7A is disposed facing the upper surface outlet 3.SoThe air that has been cooled and dehumidified by the use-side heat exchanger 6 located on the suction side of the fan 5 is partially disposed on the blowout side of the fan 5 so as to face the upper surface outlet 3. After being reheated in the reheating heat exchanger 7A, the air is blown upward from the upper surface outlet 3, and another part is blown laterally from the side surface outlet 4 without being reheated. Will be done. As a result, for example, by closing the side air outlet 4 or arranging the side air outlet 4 so as to face the wall surface to suppress the amount of air blown out from the side air outlet 4, the room can be cooled and dehumidified again. Heated air, that is, air with only reduced humidity while maintaining the suction temperature, is blown out, thereby realizing "reheating dry operation" and enabling comfortable dehumidification without accumulation of cold air at the feet .
[0017]
Further, in this case, the air blown upward and laterally from the upper surface outlet 3 and the side surface outlet 4 or upward from only the upper surface outlet 3 is used to supply air from the upper side of the indoor unit. The air barrier is formed in the region toward the side or the upper region of the indoor unit.For example, when the indoor unit is installed on the floor near the window or the wall, the radiant heat from the window or the room wall portion is reduced. Intrusion into the indoor living area is effectively suppressed, the cooling load is reduced, and the fluctuation of the indoor temperature is suppressed, and the comfort by the "reheat dry operation" is further promoted.
[0018]
(B) In the indoor unit of the air conditioner according to the second invention of the present application, the indoor unit is installed at a low place indoors. In the indoor unit of the air conditioner, the use-side heat exchanger 6 functioning as an evaporator and the reheating heat exchanger 7B functioning as a condenser in the cooling operation cycle are connected to the fan 5 by the reheating heat exchanger 7B. In the air-blowing direction, the heat exchanger 6 is disposed downstream of the use-side heat exchanger 6, so that during the dehumidifying operation in the cooling operation cycle, the indoor air sucked from the room by the fan 5 After being cooled and dehumidified by passing through the side heat exchanger 6, it is further reheated in the reheating heat exchanger 7B, so that the air blown out from the indoor unit is only dehumidified while maintaining the suction temperature. Is the air that was made. As a result, a "reheat dry operation" in which only the dehumidification is performed while maintaining the room temperature is realized, and the accumulation of cool air in the feet near the floor surface is conventionally and reliably suppressed, and the cooling operation cycle is performed. The indoor comfort at the time of the dehumidifying operation in the vehicle is greatly improved.
[0019]
further,An upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided on the outlet side of the fan 5, while the use side heat exchanger 6 is arranged on the inlet side of the fan 5, The reheat heat exchanger 7B is disposed on the blowout side of the fan 5 so as to face the side surface outlet 4.SoThe air that has been cooled and dehumidified by the use-side heat exchanger 6 located on the suction side of the fan 5 is disposed on the outlet side of the fan 5 with a part thereof facing the side outlet 4. After being reheated in the reheating heat exchanger 7B, the air is blown laterally from the side outlet 4 and the other part is blown upward from the upper surface outlet 3 without being reheated. Will be done.
[0020]
As a result, the air blown out from the side air outlet 4 is air in which only the humidity is reduced while maintaining the suction temperature. Therefore, the “reheat dry operation” in which only the humidity is reduced without lowering the room temperature is performed. Is achieved. Air having a lower temperature than the outlet temperature from the side outlets 4 is blown out from the upper surface outlets 3, and the low-temperature air suppresses the floating of warm air at the foot side. By the synergistic action of these two, comfortable dehumidification that does not generate cold air accumulation at the feet becomes possible.
[0021]
Further, in this case, the air blown upward and laterally from the upper surface outlet 3 and the side surface outlet 4 or upward from only the upper surface outlet 3 is used to supply air from the upper side of the indoor unit. The air barrier is formed in the area toward the side or above the indoor unit.For example, if the indoor unit is installed on the floor near the window or the wall, the radiant heat from the window or the room wall will Is effectively suppressed from entering the residential area, the cooling load is reduced, the fluctuation of the room temperature is suppressed, and the comfort by the "reheat dry operation" is further promoted.
(C) In the indoor unit of the air conditioner according to the third invention of the present application, in the indoor unit of the air conditioner installed at a low place indoors, the use-side heat exchanger 6 that functions as an evaporator in the cooling operation cycle. And the reheat heat exchangers 7A and 7B functioning as condensers such that the reheat heat exchangers 7A and 7B are located downstream of the use-side heat exchanger 6 in the blowing direction of the fan 5. During the dehumidifying operation in the cooling operation cycle, the indoor air sucked from the room by the fan 5 first passes through the use-side heat exchanger 6 to perform cooling and dehumidification. Further, since the reheat is performed in the reheat heat exchangers 7A and 7B, the air blown out from the indoor unit becomes air that has been subjected to only dehumidification while maintaining the suction temperature. As a result, a "reheat dry operation" in which only the dehumidification is performed while maintaining the room temperature is realized, and the accumulation of cool air in the feet near the floor surface is conventionally and reliably suppressed, and the cooling operation cycle is performed. The indoor comfort at the time of the dehumidifying operation in the vehicle is greatly improved.
[0022]
further,An upper surface outlet 3 pointing upward and a side outlet 4 pointing sideways are provided on the outlet side of the fan 5, while the use side heat exchanger 6 is arranged on the inlet side of the fan 5, On the outlet side of the fan 5, the reheat heat exchangers 7A and 7B are arranged so as to face the upper surface outlet 3 and the side surface outlet 4, respectively.SoThe air that has been cooled and dehumidified by the use-side heat exchanger 6 located on the suction side of the fan 5 is partially disposed on the blowout side of the fan 5 so as to face the upper surface outlet 3. After being reheated in the heat exchanger for reheating 7A, another part is reheated in the heat exchanger for reheating 7B arranged facing the side surface outlet 4, and then is re-heated, It is blown out toward. As a result, a "reheat dry operation" in which only the humidity is reduced without lowering the room temperature is realized, and comfortable dehumidification that does not cause accumulation of cold air at the feet becomes possible.
[0023]
Further, in this case, since the temperature of the air blown from the upper surface air outlet 3 and the temperature of the air blown from the side surface air outlet 4 are the same, a decrease in the temperature of the entire living area is more effectively prevented, and An air barrier is formed in a region from the upper side to the side of the indoor unit by the air blown out from the air outlet 3 and the side air outlet 4 so that the wide radiant heat from the window or the room wall enters the indoor living area. As a synergistic effect with the effective suppression of dehumidification, comfort during dehumidification by “reheating dry operation” is further promoted.
[0024]
(D)  Of the present application4thAccording to the indoor unit of the air conditioner according to the invention of the above,First, second or thirdIn the indoor unit of the air conditioner according to the present invention, one or both of the use side heat exchanger 6 and the reheating heat exchangers 7A and 7B are sequentially laminated with the flat heat transfer tube 31 and the corrugated fin 32. In addition, since each of the flat heat transfer tubes 31 is constituted by the stacked heat exchanger 30 connected by the headers 33 and 34, the stacked heat exchanger 30 has a high heat exchange efficiency. Since it has the characteristic that it can be made to have a compact shape by making its thickness smaller than that of a cross-fin type heat exchanger having the same heat exchange capacity,(A), (b) or (c)In addition to the effects described in (1), an effect is obtained that the downsizing of the indoor unit can be promoted.
[0025]
(E)  Of the present applicationFifthAccording to the indoor unit of the air conditioner according to the invention of the above,First, second or thirdIn the indoor unit of the air conditioner according to the present invention, since the heater 15 is provided in place of the reheat heat exchangers 7A and 7B, the air cooled and dehumidified in the use side heat exchanger 6 By reheating in the heater 15, the "reheating dry operation" can be realized.(A), (b) or (c)Can be achieved with a simple and inexpensive configuration that does not use a refrigerant circuit, and it is possible to achieve both comfort during dehumidification operation and cost reduction.
BEST MODE FOR CARRYING OUT THE INVENTION
[0026]
Hereinafter, the present invention will be specifically described based on some preferred embodiments.
[0027]
FIG. 1 shows an indoor unit Z of a separate type air conditioner to which the present invention is applied. As shown in FIG. 1, the indoor unit Z is a low-installation indoor unit that is installed on a perimeter zone having a particularly high air conditioning load in a room, for example, a lower wall surface of a window 53 or an indoor floor surface 51. The air blown out forms an air barrier between the window 53 and the perimeter zone near the room wall 52 and the living area, and air-conditions the indoor living area, and realizes high comfort especially in the dehumidifying operation. Can be done.
[0028]
The indoor unit Z includes a rectangular casing 1 which is advantageous for installation in a low place such as on a floor surface 51 near a wall surface, a suction port 2 on a front surface 1a of the casing 1, and an upper surface outlet on an upper surface 1b. 3 are provided on the left and right side surfaces 1c, 1c. In the casing 1, a pair of left and right centrifugal fans 5, 5 are arranged side by side at predetermined intervals in the lateral direction with their suction sides facing the suction ports 2. Further, between the suction side of each of the fans 5 and 5, and the suction port 2, there is a use side heat exchanger 6 which functions as an evaporator in the cooling operation cycle and as a condenser in the heating operation, respectively. Of the upper surface outlet 3 and the side surface outlet 4 facing the outlet side of the fan 5, a first reheating heat exchanger 7A is provided on the upper surface outlet 3 side and a second reheater 7A is provided on the side surface outlet 4 side. Heat exchangers 7B for heat are arranged, respectively. Therefore, after the suction air Aa sucked from the suction port 2 in association with the operation of the fans 5, 5 passes through the use side heat exchanger 6, a part of the suction air Aa further further flows through the first reheat heat exchange The air is blown upward as upper blow-off air Ab through the vessel 7A, and the other part is blown laterally as the side blow-out air Ac through the second reheat heat exchanger 7B. .
[0029]
When two heat exchangers for reheating are provided as described above, these heat exchangers are referred to as “first heat exchanger for reheating 7A” and “second heat exchanger for reheating”. While it is distinguished as "heat exchanger 7B", a configuration in which only one is provided is simply referred to as "heat exchanger for reheating".
[0030]
Further, as described above, the configuration in which the upper surface outlet 3 is provided with the first reheat heat exchanger 7A and the side surface outlet 4 is provided with the second reheat heat exchanger 7B will be described later. As described above, in one embodiment of the indoor unit according to the present invention, the present invention relates to an arrangement of the reheat heat exchanger with respect to the upper surface outlet 3 and the side surface outlet 4 or the reheat heat exchanger. It is characterized by the configuration in place of the heater, and in the present application, the following first to firstFifthIs set. Hereinafter, each of these embodiments will be described individually.
[0031]
(1)  FirstOf the embodiment (2 to 4reference)
FirstIndoor unit according to the embodiment of the present inventionZ1IsFIG.As shown in FIG. 1, of the suction port 2, the upper surface outlet 3, and the pair of left and right side outlets 4, 4 provided in the casing 1, the suction port 2 is located on the suction side of the fan 5. The first heat exchanger 7A for reheating is located at the outlet side of the fan 5 at the upper side outlet 3 and the side heat outlets 4 and 4 at the upper side outlets 3 respectively. Are provided with the second reheating heat exchangers 7B so as to be located on the blow-out side of the fan 5.
[0032]
In the cooling operation cycle, all of the use-side heat exchanger 6, the first reheat heat exchanger 7A, and the second reheat heat exchanger 7B function as an evaporator to perform the “cooling operation. On the other hand, the use side heat exchanger 6 serves as an evaporator, and the first reheat heat exchanger 7A and the second reheat heat exchanger 7B function as condensers. Realize "heat dry operation". In the heating operation cycle, the “heating operation” is performed by causing all of the use-side heat exchanger 6, the first reheat heat exchanger 7A, and the second reheat heat exchanger 7B to function as condensers. Realize. Hereinafter, the configuration and the like of the refrigerant circulation system for realizing such operation will be described.
[0033]
FIG.In thisFirstIndoor unit according to the embodiment of the present inventionZ12 shows a refrigerant circuit of the entire air conditioner including the above. The refrigerant circuit includes a compressor 9, a four-way switching valve 10, an outdoor heat exchanger 11, a main expansion valve 12, and a compressor 9 provided on the outdoor unit Z0 side.Z1The heat exchanger 6 provided on the side is connected to the first heat exchanger for reheating 7A and the second heat exchanger for reheating 7B via a refrigerant pipe. In this embodiment, the first reheat heat exchanger 7A and the second reheat heat exchanger 7B are connected in parallel, and both of them are connected via the auxiliary expansion valve 13 to the use side. It is connected in series to the heat exchanger 6. In this case, in the cooling operation cycle, the first reheat heat exchanger 7A and the second reheat heat exchanger 7B are located upstream of the refrigerant, and the utilization heat exchanger 6 is located downstream of the refrigerant. Thus, the arrangement positions of these heat exchangers 6, 7A, 7B in the refrigerant circuit are set.
[0034]
On the other hand, the switching between the “cooling operation” and the “reheating dry operation” in the cooling operation cycle and the “heating operation” in the heating operation cycle are performed by the operation modes of the main expansion valve 12 and the auxiliary expansion valve 13. The operation modes of these expansion valves 12 and 13 are as follows.
[0035]
In the "cooling operation", the main expansion valve 12 is set to the "throttle state", and the auxiliary expansion valve 13 is set to "full open".
[0036]
In the "reheat dry operation", the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state".
[0037]
In the operation of “heating operation”, the main expansion valve 12 is set to “throttled state”, and the auxiliary expansion valve 13 is set to “fully open”.
[0038]
(A) “Cooling operation”
In the “cooling operation”, as described above, the main expansion valve 12 is set to the “throttled state” and the auxiliary expansion valve 13 is set to “fully open”. Both the heat exchanger for heat 7A and the second heat exchanger for reheating 7B function as evaporators, and operation with high cooling capacity is realized.
[0039]
(B) "Reheating dry operation"
In the "reheat dry operation", as described above, the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state". 7A and the second reheat heat exchanger 7B both function as condensers, and only the use side heat exchanger 6 functions as an evaporator. Therefore,FIG.As shown in (1), first, the whole amount of the suction air Aa is cooled and dehumidified by passing through the use side heat exchanger 6. Further, a part of the cooled and dehumidified air is reheated in the first reheating heat exchanger 7A and then blown upward from the upper surface outlet 3 as a relatively high temperature upper blowout air Ab. You. The other part is reheated in the second reheat heat exchanger 7B, and then blown laterally from the side outlets 4, 4 as the relatively high-temperature side blown air Ac.
[0040]
In this case, since the upper blowing air Ab and the side blowing air Ac maintain the suction temperature by reheating in the first reheating heat exchanger 7A and the second reheating heat exchanger 7B, respectively. The "reheat dry operation" that dehumidifies the room temperature almost without lowering is realized, and the floor side of the living area does not accumulate cold air due to the dehumidification operation, and it is comfortable during the dehumidification operation in the cooling operation cycle Sex is greatly improved.
[0041]
"Heating operation"
In the “heating operation”, as described above, the main expansion valve 12 is set to the “throttled state” and the auxiliary expansion valve 13 is set to “fully open”, so that the use-side heat exchanger 6 and the first The heat exchanger for heat 7A and the heat exchanger for second reheat 7B both function as condensers, and operation with high heating capacity is realized.
[0042]
(2)  SecondOf the embodiment (5 to 7reference)
SecondIndoor unit according to the embodiment of the present inventionZ2IsFIG.As shown in FIG. 1, of the suction port 2, the upper surface outlet 3, and the pair of left and right side outlets 4, 4 provided in the casing 1, the suction port 2 is located on the suction side of the fan 5. The upper-side outlet 3 is provided with a reheating heat exchanger 7A so as to be located on the outlet side of the fan 5, while the upper-side outlet 3 is provided with a reheating heat exchanger 7A. Has no heat exchanger.
[0043]
In the cooling operation cycle, the “cooling operation” is realized by causing the use side heat exchanger 6 and the reheat heat exchanger 7A to function as an evaporator, while the use side heat exchanger 6 is By operating the reheat heat exchanger 7A as a condenser as a condenser, a "reheat dry operation" is realized. In the heating operation cycle, the "heating operation" is realized by causing the use-side heat exchanger 6 and the reheat heat exchanger 7A to function as condensers. Hereinafter, the configuration and the like of the refrigerant circulation system for realizing such operation will be described.
[0044]
FIG.In thisSecondIndoor unit according to the embodiment of the present inventionZ22 shows a refrigerant circuit of the entire air conditioner including the above. The refrigerant circuit includes a compressor 9, a four-way switching valve 10, an outdoor heat exchanger 11, a main expansion valve 12, and a compressor 9 provided on the outdoor unit Z0 side.Z2The use side heat exchanger 6 provided on the side and the reheat heat exchanger 7A are connected by a refrigerant pipe. In this embodiment, the use-side heat exchanger 6 and the reheat heat exchanger 7A are connected in series via the auxiliary expansion valve 13, and in the cooling operation cycle, the recycle heat exchanger 7A is connected upstream of the refrigerant. The arrangement positions of these two heat exchangers 6A in the refrigerant circuit are set so that the heat heat exchanger 7A is located downstream of the refrigerant and the use-side heat exchanger 6 is located in the refrigerant circuit.
[0045]
On the other hand, the switching between the “cooling operation” and the “reheating dry operation” in the cooling operation cycle and the “heating operation” in the heating operation cycle are performed by the operation modes of the main expansion valve 12 and the auxiliary expansion valve 13. The operation modes of these expansion valves 12 and 13 are as follows.
[0046]
In the "cooling operation", the main expansion valve 12 is set to the "throttle state", and the auxiliary expansion valve 13 is set to "full open".
[0047]
In the "reheat dry operation", the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state".
[0048]
In the "heating operation", the main expansion valve 12 is set to "throttled state", and the auxiliary expansion valve 13 is set to "full open".
[0049]
Subsequently, operations and the like in each of the above-described operation modes will be individually described.
[0050]
(A) “Cooling operation”
In the "cooling operation", as described above, the main expansion valve 12 is set to the "throttled state" and the auxiliary expansion valve 13 is set to "full open". The heat exchanger 7A and the heat exchanger 7A both function as an evaporator, and operation with high cooling capacity is realized.
[0051]
(B) "Reheating dry operation"
In the "reheat dry operation", as described above, the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state", so that the use side heat exchanger 6 evaporates. The reheating heat exchanger 7A functions as a condenser. Therefore,FIG.As shown in (1), first, the whole amount of the suction air Aa is cooled and dehumidified by passing through the use side heat exchanger 6. Further, a part of the cooled and dehumidified air is blown to the side as the relatively low-temperature side blow air Ac from the side outlets 4 and 4 as it is, while the other part is further blown. After being reheated in the reheating heat exchanger 7A, the air is blown upward from the upper surface outlet 3 as relatively high temperature upper blown air Ab.
[0052]
In this case, since the upper blowing air Ab is reheated in the reheating heat exchanger 7A, a “reheat dry operation” for performing dehumidification without significantly lowering the room temperature is realized, and with the dehumidification operation. There is no accumulation of cold air on the floor side of the living area, and the comfort during the dehumidifying operation in the cooling operation cycle is significantly improved.
[0053]
In the operation of the "reheat dry operation", since the side outlets 4 and 4 are not provided with a heat exchanger, for example, the side outlets 4 and 4 may be closed or opposed to a wall. It is also possible to make the side outlets 4 and 4 functionally invalid by installing them, and in such a configuration, all of the intake air Aa is reheated by the first heat exchanger 6A. After passing through the heat exchanger 7A, the air is blown upward from the upper surface outlet 3 as the upward blow air Ab. Therefore, it is reliably prevented that the relatively low-temperature side blow-off air Ac is blown out to the side from the side-surface outlets 4 and 4 to accumulate cool air in the vicinity of the indoor floor surface. Will be further enhanced.
[0054]
"Heating operation" operation
In the operation of the "heating operation", as described above, the main expansion valve 12 is set to the "throttled state" and the auxiliary expansion valve 13 is set to "full open". Both the heat exchanger 7A for heat functions as a condenser, and operation with high heating capacity is realized.
[0055]
(3)  ThirdOf the embodiment (8 to 10reference)
ThirdIndoor unit according to the embodiment of the present inventionZ3IsFIG.As shown in FIG. 1, of the suction port 2, the upper surface outlet 3, and the pair of left and right side outlets 4, 4 provided in the casing 1, the suction port 2 is located on the suction side of the fan 5. In addition, the use side heat exchanger 6 is provided, and the side outlets 4 and 4 are provided with the reheating heat exchangers 7B so as to be located on the blowout side of the fan 5 respectively. Has no heat exchanger.
[0056]
Then, in the cooling operation cycle, the “cooling operation” is realized by causing the use side heat exchanger 6 and the reheat heat exchanger 7B to function as an evaporator, while the use side heat exchanger 6 is By operating the reheat heat exchanger 7B as a condenser as an evaporator, a "reheat dry operation" is realized. In the heating operation cycle, the “heating operation” is realized by causing the use-side heat exchanger 6 and the reheat heat exchanger 7B to function as condensers. Hereinafter, the configuration and the like of the refrigerant circulation system for realizing such operation will be described.
[0057]
FIG.In thisThirdIndoor unit according to the embodiment of the present inventionZ32 shows a refrigerant circuit of the entire air conditioner including the above. The refrigerant circuit includes a compressor 9, a four-way switching valve 10, an outdoor heat exchanger 11, a main expansion valve 12, and a compressor 9 provided on the outdoor unit Z0 side.Z3The use side heat exchanger 6 provided on the side and the reheat heat exchanger 7B are connected by a refrigerant pipe. Then, the use-side heat exchanger 6 and the second reheat heat exchanger 7B are connected in series via the auxiliary expansion valve 13, and in the cooling operation cycle, the reheat heat exchange is provided upstream of the refrigerant. The arrangement position of each of the heat exchangers 6 and 7B is set so that the heat exchanger 6B is located on the downstream side of the refrigerant.
[0058]
On the other hand, the switching between the “cooling operation” and the “reheating dry operation” in the cooling operation cycle and the “heating operation” in the heating operation cycle are performed by the operation modes of the main expansion valve 12 and the auxiliary expansion valve 13. The operation modes of these expansion valves 12 and 13 are as follows.
[0059]
In the "cooling operation", the main expansion valve 12 is set to the "throttle state", and the auxiliary expansion valve 13 is set to "full open".
[0060]
In the "reheat dry operation", the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state".
[0061]
In the "heating operation", the main expansion valve 12 is set to "throttled state", and the auxiliary expansion valve 13 is set to "full open".
[0062]
Subsequently, operations and the like in each of the above-described operation modes will be individually described.
[0063]
(A) “Cooling operation”
In the "cooling operation", as described above, the main expansion valve 12 is set to the "throttled state" and the auxiliary expansion valve 13 is set to "full open". The heat exchanger 7B and the heat exchanger 7B both function as an evaporator, and operation with high cooling capacity is realized.
[0064]
(B) "Reheating dry operation"
In the "reheat dry operation", as described above, the main expansion valve 12 is set to "full open" and the auxiliary expansion valve 13 is set to "throttle state", so that the use side heat exchanger 6 evaporates. The reheating heat exchanger 7B functions as a condenser. Therefore,FIG.As shown in (1), first, the whole amount of the suction air Aa is cooled and dehumidified by passing through the use side heat exchanger 6. Further, a part of the cooled and dehumidified air is blown upward from the upper surface outlet 3 as it is as a relatively low-temperature upper blow air Ab, but the other part is further reheated. After being reheated in the heat exchanger 7B, the air is blown laterally from the side air outlet 4 as the relatively hot side blown air Ac.
[0065]
In this case, since the side blowing air Ac is reheated in the reheating heat exchanger 7B, the “reheat dry operation” of performing dehumidification without greatly lowering the room temperature is realized, and the indoor floor is near the floor. Is blown out from the side outlets 4 and 4 so that the floor side of the living area does not become a pool of cold air due to the dehumidifying operation. The comfort during the dehumidifying operation is significantly improved.
[0066]
"Heating operation"
In the “heating operation”, as described above, the main expansion valve 12 is set to the “throttled state” and the auxiliary expansion valve 13 is set to “full open”. The heat exchanger 7B and the heat exchanger 7B both function as a condenser, and an operation having a high heating capacity is realized.
[0067]
(4)  4thEmbodiment of
FIG. 22 shows the present invention.4thIndoor unit according to the embodiment of the present inventionZ42 shows an arrangement structure of the heat exchanger in FIG. This indoor unitZ4AboveFirstIndoor unit according to the embodiment of the present inventionZ1And the basic configuration is the same.FirstIndoor unit according to the embodiment of the present inventionZ1In the above, the use-side heat exchanger 6, the first reheat heat exchanger 7A, and the second reheat heat exchanger 7B are both constituted by cross-fin type heat exchangers. The heat exchangers 7A and 7B for use are both constituted by a laminated heat exchanger 30.
[0068]
Here, the laminated heat exchanger 30 is configured such that a plurality of flat heat transfer tubes 31, 31,... And a plurality of corrugated fins 32, 32,. .. Are connected by headers 33 and 34, respectively. The greatest feature of the stacked heat exchanger 30 as compared with the cross fin heat exchanger is that the same heat exchange capacity can be realized in a thinner form. Indoor unit of this embodiment in which the heat exchangers 7A and 7B are both constituted by the laminated heat exchanger 30Z4In the aboveFirstIndoor unit according to the embodiment of the present inventionZ1In addition to providing the same operational effects asZ4Can be made thinner to make it more compact.Z4It can be expected to improve the degree of freedom of installation.
[0069]
In this embodiment, of the use side heat exchanger 6, the first reheat heat exchanger 7A and the second reheat heat exchanger 7B, only the reheat heat exchangers 7A and 7B are stacked. Although the present invention is shown in the form of a heat exchanger 30, the present invention is not limited to such a structure. For example, in addition to the reheat heat exchangers 7A and 7B, the use-side heat exchanger 6 can also be constituted by the stacked heat exchanger 30. In such a case, the indoor unitZ4Is further promoted.
[0070]
(5)  FifthEmbodiment of
FIG. 23 shows the present invention.FifthIndoor unit according to the embodiment of the present inventionZ5Is shown. This indoor unitZ5AboveFirstIndoor unit according to the embodiment of the present inventionZ1And the same basic configuration,FirstIndoor unit according to the embodiment of the present inventionZ1The first and second reheat heat exchangers 7A and 7B are replaced by heaters 15, respectively.
[0071]
An indoor unit having such a configurationZ5In the above, since the heater 15 is used as a reheater, and in the "reheating dry operation", air is reheated by the heat generated by the heater 15,FirstIndoor unit of the embodimentZ1As a result, there is no need for a relatively effective heat exchanger and a refrigerant circuit for the heat exchanger as described above, and as a result, the unique effect that "reheat dry operation" can be realized with a simple and inexpensive configuration is achieved. It is something that can be done.
[Brief description of the drawings]
[0072]
FIG. 1 is a perspective view showing an installed state of an indoor unit of an air conditioner according to the present invention.
FIG. 2 of the present inventionFirstIt is a perspective view showing the arrangement structure of the heat exchanger in the indoor unit concerning an embodiment.
FIG. 3FIG.FIG. 3 is a refrigerant circuit diagram of an air conditioner including the indoor unit shown in FIG.
FIG. 4FIG.FIG. 5 is an operation diagram during a cooling operation of the air conditioner shown in FIG.
FIG. 5 of the present invention.SecondIt is a perspective view showing the arrangement structure of the heat exchanger in the indoor unit concerning an embodiment.
FIG. 6FIG.FIG. 3 is a refrigerant circuit diagram of an air conditioner including the indoor unit shown in FIG.
FIG. 7FIG.FIG. 5 is an operation diagram during a cooling operation of the air conditioner shown in FIG.
FIG. 8 of the present invention;ThirdIt is a perspective view showing the heat exchanger arrangement structure in the indoor unit concerning an embodiment.
FIG. 9FIG.FIG. 3 is a refrigerant circuit diagram of an air conditioner including the indoor unit shown in FIG.
FIG. 10FIG.FIG. 5 is an operation diagram during a cooling operation of the air conditioner shown in FIG.
FIG. 11 of the present invention;4thIt is a perspective view showing the heat exchanger arrangement structure of the indoor unit concerning an embodiment.
FIG. 12 of the present invention;FifthIt is a perspective view showing the heat exchanger arrangement structure of the indoor unit concerning an embodiment.
[Explanation of symbols]
[0073]
1 is a casing, 2 is an inlet, 3 is a top outlet, 4 is a side outlet, 5 is a fan, 6 is a use side heat exchanger, 7A is a first reheat heat exchanger, and 7B is a second reheat. 9 is a compressor, 9 is a compressor, 10 is a four-way switching valve, 11 is an outdoor heat exchanger, 12 is a main expansion valve, 13 is an auxiliary expansion valve, 15 is a heater, 30 is a stacked heat exchanger, 31 Is a flat heat transfer tube, 32 is a corrugated fin, 33 and 34 are headers, 51 is an indoor floor surface, 52 is a room wall, 53 is a window, Aa is suction air, Ab is upward blowing air, Ac is side blowing air, Z0 is an outdoor unit, Z and Z1 toZ5Is an indoor unit.

Claims (5)

An indoor unit of an air conditioner installed in a low place indoors,
In the cooling operation cycle, the use side heat exchanger (6) functioning as an evaporator and the reheat heat exchanger (7A) functioning as a condenser include the reheat heat exchanger (7A) as a fan (5). In the air blowing direction, the heat exchanger is disposed so as to be located downstream of the use side heat exchanger (6).
On the outlet side of the fan (5), an upper surface outlet (3) directed upward and a side outlet (4) directed sideways are provided.
The use side heat exchanger (6) is disposed on the suction side of the fan (5), and the reheat heat exchanger (7A) is provided on the outlet side of the fan (5) with the upper surface outlet ( An indoor unit for an air conditioner, wherein the indoor unit is arranged facing 3). An indoor unit of an air conditioner installed in a low place indoors,
In the cooling operation cycle, a use side heat exchanger (6) functioning as an evaporator and a reheat heat exchanger (7B) functioning as a condenser include a reheat heat exchanger (7B) and a fan (5). In the air blowing direction, the heat exchanger is disposed so as to be located downstream of the use side heat exchanger (6).
On the outlet side of the fan (5), an upper surface outlet (3) directed upward and a side outlet (4) directed sideways are provided.
The use side heat exchanger (6) is arranged on the suction side of the fan (5), and the reheat heat exchanger (7B) is provided on the outlet side of the fan (5) with the side air outlet ( An indoor unit of an air conditioner, wherein the indoor unit is arranged facing 4). An indoor unit of an air conditioner installed in a low place indoors,
In the cooling operation cycle, the use-side heat exchanger (6) functioning as an evaporator and the reheat heat exchangers (7A) and (7B) functioning as condensers include the reheat heat exchanger (7A), (7B) is disposed so as to be located downstream of the use-side heat exchanger (6) in the air blowing direction of the fan (5);
On the outlet side of the fan (5), an upper surface outlet (3) directed upward and a side outlet (4) directed sideways are provided.
The use side heat exchanger (6) is disposed on the suction side of the fan (5), and the reheat heat exchangers (7A) and (7B) are provided on the blow side of the fan (5). An indoor unit of an air conditioner, wherein the indoor unit is disposed so as to face the upper surface outlet (3) and the side surface outlet (4), respectively. In claim 1, 2, or 3 ,
One or both of the use side heat exchanger (6) and the reheat heat exchangers (7A) and (7B) sequentially stack the flat heat transfer tube (31) and the corrugated fin (32); An indoor unit for an air conditioner, comprising: a stacked heat exchanger (30) in which both ends of each of the flat heat transfer tubes (31) are connected by headers (33) and (34), respectively. In claim 1, 2, or 3 ,
An indoor unit for an air conditioner, comprising a heater (15) instead of the reheat heat exchangers (7A) and (7B).

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