JP3847567B2 - Air conditioner outdoor unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an outdoor unit of an air conditioner.
[0002]
[Prior art]
Conventional Example 1
An outdoor unit such as a building outdoor unit, which is restricted in installation space, has a cabinet configuration that discharges in the top flow direction in order to install the units continuously in the horizontal direction. An example of this type of prior art is disclosed in Japanese Patent Laid-Open No. 55-138683.
[0003]
FIG. 26 is an exploded perspective view showing the structure of the outdoor unit of the air conditioner disclosed in Japanese Patent Laid-Open No. 55-138683. In FIG. 26, reference numeral 101 denotes an outdoor unit of an air conditioner, which includes a machine room portion 102, a heat exchange chamber portion 103, a casing portion 104, and a top plate portion 105. Reference numeral 106 denotes a compressor, and 107 denotes an accumulator, which are respectively fixed on a table 108. 109 is a heat exchanger arranged in a V shape so as to be opposed to each other and connected to the compressor 106 and the accumulator 107 to form a refrigeration cycle, and 110 is a front side and a rear side of the heat exchanger. A pair of closing plates for closing. A blower 111 includes a fan unit and a motor unit. The motor unit is maintained from both sides by a pair of support members so that the fan unit is positioned above. When the compressor 106 and the blower 111 are operated, air passes through the heat exchanger 109 from the left and right side wall panels 112 through the air suction port 112a, and after heat exchange with the refrigerant, the bell mouth 113, the fan guard 114, and It is discharged to the outside from the upper surface side through the air outlet 115.
[0004]
Conventional Example 2
In order to improve the energy efficiency of the air conditioner, it is conceivable to increase the area of the heat exchanger as much as possible, and there is an outdoor unit in which heat exchangers are arranged on all side wall panels of the outdoor unit.
[0005]
FIG. 27 is a structural diagram showing a conventional example of such an outdoor unit. In FIG. 27, 121 is an outdoor unit of an air conditioner, which is composed of a machine room part 122 and a heat exchange part 123, and the machine room part 122 and the heat exchange part 123 are separated vertically. Reference numeral 124 denotes a compressor, and reference numeral 125 denotes an accumulator, which are respectively fixed on a table 126. Reference numeral 127 denotes a heat exchanger that is arranged in a rectangular tube shape along the side wall panel 128 and is connected to the compressor 124 and the accumulator 125 to form a refrigeration cycle, and 129 is a blower. When the compressor 124 and the blower 129 are operated, the air 133 passes through the heat exchanger 127 through the air suction ports 128a provided in all the side wall panels 128, and exchanges heat with the refrigerant. It is discharged to the outside from the upper surface side through the guard 131 and the air outlet 132.
[0006]
FIG. 28 is a cross-sectional view of the conventional outdoor unit of the air conditioner shown in FIG. 27 cut along a horizontal plane including a heat exchanger. Here, the heat exchangers 127 are all arranged at an equal distance with respect to the side wall panel 128, and the distance L1 is very short.
[0007]
FIG. 29 is a perspective view when the outdoor unit 121 of the conventional air conditioner is continuously installed in the horizontal direction, and FIG. 30 is a view when the outdoor unit of the conventional air conditioner is continuously installed in the horizontal direction. It is the cross-sectional top view cut | disconnected by the horizontal surface containing a heat exchanger. When the outdoor unit 121 of the air conditioner is continuously installed in the lateral direction without a gap, the heat exchanger 127 is adjacent to the portion 127a disposed along the side wall panel 128 adjacent to the adjacent outdoor unit 121. The distance La between the heat exchanger 127 in the unit and the portion 127b arranged along the side wall panel 128 becomes very short.
[0008]
[Problems to be solved by the invention]
In Conventional Example 1, since the suction port has two surfaces facing each other and the heat exchanger is disposed only along the side wall panel with the suction port, the area of the heat exchanger is limited by the unit external dimensions. . Accordingly, there is a problem in that the area of the heat exchanger cannot be increased in order to increase energy efficiency unless the volume of the outdoor unit is increased.
[0009]
In Conventional Example 2, heat exchangers are arranged on all four sides of the side wall panel, and suction ports are provided on all four sides. However, the distance between the side wall panel and the heat exchanger is the same in all planes, and when installed in the lateral direction, the heat exchanger on the adjacent side and the heat exchanger in the adjacent outdoor unit The distance La is very short, being less than 10% of the unit depth dimension Ld. For this reason, when outdoor units are continuously installed in the horizontal direction, a sufficient air flow path for passing a part of the heat exchanger is not ensured. As a result, it becomes difficult for air to pass through a part of this heat exchanger, the pressure loss when passing through the unit increases compared to when it is installed alone, and the noise value at the same air volume also increases. was there. In addition, since the air velocity distribution passing through the heat exchanger is extremely biased, there is a problem in that the same energy efficiency cannot be maintained when installed continuously in the lateral direction.
[0010]
This invention is made | formed in view of the said situation, and it aims at obtaining the outdoor unit of the air conditioner which can improve energy efficiency, without increasing a unit external dimension. It is another object of the present invention to provide an outdoor unit of an air conditioner that can maintain the same energy efficiency as when installed alone even when installed in the horizontal direction. Furthermore, it aims at obtaining the outdoor unit of an air conditioner with high maintainability.
[0015]
[Means for Solving the Problems]
  thisAn outdoor unit of an air conditioner according to the invention includes a box body in which suction ports are respectively provided in at least two side wall panels disposed at opposite positions, a heat exchanger disposed inside the box body, and the side wall panel. A fan installed to suck air into the box through the suction port, and to discharge the air from the upper surface side after passing through the heat exchanger. In the outdoor unit of an air conditioner that is arranged side by side so that the two side wall panels are on the open side and the other side wall panel is on the adjacent side, the box is formed by forming the heat exchanger in a rectangular tube shape. A lower heat exchanger is disposed along each side wall panel, and is configured to open only a portion facing one side of the side wall panel on the open side under the square cylindrical heat exchanger. Furthermore, the lower heat exchange Characterized in that a maintenance door in the side wall panel opposite the open portion of the vessel.
[0016]
  According to this invention,The heat exchanger is formed in a rectangular tube shape and arranged so as to be along each side wall panel of the box, and only a portion facing one side of the side wall panel on the open side under the square tube heat exchanger. Provided with a lower heat exchanger configured to openTherefore, the area can be increased, and further maintenance of the compressor and the like can be performed through the maintenance door.
[0017]
  An outdoor unit of an air conditioner according to the next invention is the above invention.,next toSecuring a gap of 5% or more with respect to the distance between the two side wall panels on the open side between the side wall panel on the contact side and the heat exchanger arranged along the side wall panel. Features.
[0018]
According to this invention, the space | interval which becomes 5% or more with respect to the mutual distance of the two side wall panels used as an open side between the side wall panel used as an adjacent side, and the heat exchanger arrange | positioned along the said side wall panel By ensuring the above, sufficient air can be passed through all the heat exchangers even when installed continuously.
[0019]
  In the outdoor unit of the air conditioner according to the next invention, in the above invention, each side wall panel of the box is provided with a suction port.,next toSide wall panel on the contact sideLeIt is characterized in that an interval of 10% or more is secured between the heat exchangers arranged along the distance between the two side wall panels on the open side.
[0020]
  According to this invention,next toSide wall panel on the contact sideLeEven when it is installed continuously by securing an interval of 10% or more relative to the distance between the two side wall panels on the open side between the heat exchangers arranged along Sufficient air can be passed through all heat exchangers.
[0021]
  An outdoor unit of an air conditioner according to the next invention includes a box body provided with a suction port in each of two side wall panels arranged at at least opposite positions, a heat exchanger arranged inside the box body, A case in which air is sucked into the inside of the box through the suction port of the side wall panel and the blower is installed so as to be discharged from the upper surface side after passing through the heat exchanger. In the outdoor unit of an air conditioner in which the two side wall panels are on the open side and the other side wall panel is on the adjacent side, the heat exchangerThe,Two sidesArranged along each of the open side wallsHexagonal cylinderIn shapeFormationIt is characterized by that.
[0022]
According to this invention, the area can be increased by configuring the heat exchanger in the shape of a hexagonal cylinder, and even if it is installed continuously, sufficient air passes through all the heat exchangers. Can be made.
[0023]
  The outdoor unit of the air conditioner according to the next invention is:In the above invention, under the hexagonal cylindrical heat exchangerIt is configured to open only the part facing one side of the side wall panel on the open side.A lower heat exchangerFurthermore, a maintenance door is provided on the side wall panel facing the open portion of the lower heat exchanger.
[0024]
According to this invention, the area can be increased by configuring the heat exchanger in the shape of a hexagonal cylinder, and even if it is installed continuously, sufficient air passes through all the heat exchangers. Can be made. Further, since the maintenance door is provided on the side wall panel, the compressor and the like can be maintained through the maintenance door.
[0031]
An outdoor unit of an air conditioner according to the next invention is characterized in that, in the above invention, a plurality of the blowers are provided.
[0032]
According to this invention, the air passing through the heat exchanger can be increased.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Exemplary embodiments of an outdoor unit for an air conditioner according to the present invention will be explained below in detail with reference to the accompanying drawings.
[0034]
Embodiment 1 FIG.
1 and 2 show an outdoor unit of an air conditioner according to Embodiment 1 of the present invention. FIG. 1 is a partially cutaway perspective view showing the structure of the outdoor unit, and FIG. 2 includes a heat exchanger. It is a cross-sectional top view of the outdoor unit cut | disconnected by the surface.
[0035]
1 and 2, reference numeral 1 denotes an outdoor unit of an air conditioner, which includes a machine room portion 2 and a heat exchange portion 3 inside a box. The machine room part 2 and the heat exchange part 3 have a structure separated vertically. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are respectively fixed on a table 6 in a lower machine chamber portion 2. 7 is a heat exchanger which is arranged in a square cylinder shape along each side wall panel 8 of the box in the upper heat exchange portion 3 and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. is there. 9 is a blower installed on the upper surface of the box. The side wall panel 8 of the box is provided with air suction ports 8a only in two disposed at positions facing each other.
[0036]
The minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8 is the heat disposed along the side wall panel 8 provided with the air suction port 8a. It is longer than the minimum distance L1 with the exchanger 7. This distance L2 is set to 5% or more with respect to the distance Ld between the side wall panels 8 provided with the air suction ports 8a.
[0037]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the inside of the box through the air suction port 8 a of the side wall panel 8 arranged at the opposite position passes through the heat exchanger 7. After the heat exchange with the refrigerant, the air is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0038]
Here, according to the outdoor unit 1, since the heat exchanger 7 is disposed along all of the side wall panels 8, the area of the heat exchanger 7 can be increased even when a box body equivalent to the conventional one is used. It becomes possible. Moreover, as the minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8, the distance Ld between the side wall panels 8 provided with the air suction port 8a is set. On the other hand, since it is set to 5% or more, even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at the opposite positions of the box, sufficient air 15 is provided to all the heat exchangers 7. I will come across. That is, the air 15 sucked directly through the air suction port 8a is sufficiently distributed to the heat exchanger 7 along the side wall panel 8 provided with the air suction port 8a, while the air suction port 8a is provided. Even in the heat exchanger 7 along the side wall panel 8 that is not provided, the air 15 sucked from the air suction port 8a is sufficiently distributed through the interval with the side wall panel 8 that secures the minimum distance L2. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0039]
3 and 4 show a state when the outdoor unit 1 of the air conditioner shown in FIGS. 1 and 2 is continuously installed in the lateral direction, and FIG. 3 is a perspective view showing an appearance, FIG. FIG. 3 is a cross-sectional plan view taken along a plane including the heat exchanger 7.
[0040]
As described above, the outdoor unit 1 has sufficient air 15 in all of the heat exchangers 7 even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at the opposite positions of the box. It's something that goes around. Therefore, as shown in FIGS. 3 and 4, the outdoor unit is arranged such that the side wall panel 8 provided with the air suction port 8a is on the open side and the side wall panel 8 not provided with the air suction port 8a is on the adjacent side. When 1 is installed continuously in the horizontal direction, even if there is no gap between the outdoor units 1, sufficient air 15 can be passed through all the heat exchangers 7 of each outdoor unit 1. It becomes possible. As a result, energy efficiency can be increased as in the case of single installation, and a situation where the noise value increases can be prevented.
[0041]
FIG. 5 is a graph showing the rate of change in pressure loss ΔP with respect to L2 / Ld of the outdoor unit at the same air volume. As is apparent from this graph, when L2 / Ld is 5% or more, the pressure loss ΔP becomes substantially equal to the unit pressure loss ΔP∞ when L2 / Ld is infinite. That is, according to the outdoor unit 1 in which L2 / Ld is secured at 5% or more, the pressure loss based on the shape between the side wall panel 8 in which the air suction port 8a is not provided and the heat exchanger 7 along the side wall panel 8 is provided. It can be ignored. As a result, as described above, it is possible to sufficiently distribute the air 15 to all the heat exchangers 7, and the velocity distribution of the air 15 passing through the heat exchanger 7 becomes uniform. Even when it is continuously installed in the direction, it is possible to increase the energy efficiency and prevent the noise level from increasing.
[0042]
In the above-described first embodiment, the outdoor unit 1 in which the suction port 8a is provided only in the two side wall panels 8 arranged at positions facing each other is shown. However, the suction ports are provided in three or more side wall panels including these. It may be provided. Even in an outdoor unit in which three or more side wall panels are provided with suction ports, if these are continuously installed in the lateral direction, there will be two side wall panels on the open side, Since the minimum distance L2 to the heat exchanger along the distance is set to 5% or more with respect to the distance Ld between the side walls on the open side, sufficient air 15 reaches all the heat exchangers 7 and energy The efficiency can be increased to the same extent as when installed alone.
[0043]
Moreover, although the outdoor unit which provided the one air blower 9 was shown in the above-mentioned Embodiment 1, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0044]
Embodiment 2. FIG.
6 and 7 show an outdoor unit of an air conditioner according to a second embodiment of the present invention. FIG. 6 is a partially cutaway perspective view showing the structure of the outdoor unit, and FIG. 7 includes a heat exchanger. It is a cross-sectional top view of the outdoor unit cut | disconnected by the surface.
[0045]
6 and 7, reference numeral 1 denotes an outdoor unit of an air conditioner, which includes a machine room portion 2 and a heat exchange portion 3 inside a box. The machine room part 2 and the heat exchange part 3 have a structure separated vertically. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are respectively fixed on a table 6 in a lower machine chamber portion 2. 7 is a heat exchanger which is arranged in a square cylinder shape along each side wall panel 8 of the box in the upper heat exchange portion 3 and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. is there. 9 is a blower installed on the upper surface of the box. Each side wall panel 8 of the box is provided with an air suction port 8a.
[0046]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the box through the air suction port 8a of each side wall panel 8 passes through the heat exchanger 7 and exchanges heat with the refrigerant. Then, it is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0047]
Here, according to the outdoor unit 1, since the heat exchanger 7 is disposed along all of the side wall panels 8, the area of the heat exchanger 7 can be increased even when a box body equivalent to the conventional one is used. It becomes possible. In addition, since the air suction ports 8a are provided in all the side wall panels 8, sufficient air 15 reaches all the heat exchangers 7 through these air suction ports 8a. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0048]
8 and 9 show a state when the outdoor unit 1 of the air conditioner shown in FIGS. 6 and 7 is continuously installed in the lateral direction, and FIG. 8 is a perspective view showing an appearance, FIG. FIG. 3 is a cross-sectional plan view taken along a plane including the heat exchanger 7.
[0049]
As is clear from these drawings, when the outdoor unit 1 is continuously installed in the lateral direction, a spacer 14 is interposed between the outdoor units 1. The spacer 14 is for securing a distance La between the heat exchangers 7 arranged along the side wall panel 8 on the adjacent side, and an air suction port 14a is provided on the side wall on the open side. The distance La secured by the spacer 14 is set to 10% or more with respect to the distance Ld between the side wall panels 8 on the open side.
[0050]
According to the outdoor unit 1 continuously installed in the lateral direction with the spacer 14 interposed between the adjacent side wall panels 8 as described above, the two side wall panels 8 arranged at positions facing each other. Only the air is opened, but sufficient air 15 is distributed to all the heat exchangers 7. In other words, the air 15 sucked directly through the air suction ports 8a directly reaches the heat exchanger 7 along the side wall panel 8 on the open side, while along the side wall panel 8 on the adjacent side. Also, the air 15 sucked into the heat exchanger 7 through the air suction port 14a of the spacer 14 passes between the heat exchangers 7 that secure the distance La, and then the side wall panel 8 on the adjacent side. The air is sufficiently distributed through the air inlet 8a. Therefore, it becomes possible to allow sufficient air 15 to pass through all the heat exchangers 7 of the outdoor units 1 that are continuously installed in the lateral direction, and the energy efficiency can be increased as in the case of the single installation. At the same time, it is possible to prevent the noise level from increasing.
[0051]
In above-mentioned Embodiment 2, although the outdoor unit which provided one air blower 9 was shown, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0052]
Embodiment 3 FIG.
10, FIG. 11 and FIG. 12 show an outdoor unit of an air conditioner according to Embodiment 3 of the present invention. FIG. 10 is a partially broken perspective view showing the structure of the outdoor unit, and FIG. FIG. 12 is a cross-sectional plan view of the outdoor unit cut along the plane including the heat exchanger, and FIG. 12 is a cross-sectional plan view of the outdoor unit cut along the plane including the lower heat exchanger.
[0053]
In FIGS. 10, 11 and 12, reference numeral 1 denotes an outdoor unit of an air conditioner, in which a machine room part and a heat exchange part are vertically arranged in the same room of a box. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are fixed on a base 6 at the lower part of the box. Reference numeral 7 denotes a heat exchanger that is disposed inside the box and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. 9 is a blower installed on the upper surface of the box. The side wall panel 8 of the box is provided with air suction ports 8a only in two disposed at positions facing each other. Among these, the one side wall panel 8 is provided with an air suction port 8a at a portion extending between the machine room portion and the heat exchange portion. The other side wall panel 8 is provided with an air suction port 8a only in a portion corresponding to the upper heat exchange portion, and a maintenance door 13 is provided in the lower portion thereof.
[0054]
The heat exchanger 7 disposed in the box is divided into an upper heat exchanger 7a and a lower heat exchanger 7b. The upper heat exchanger 7a is arranged in a square cylinder shape along the side wall panels 8 in the upper part of the box. On the other hand, the lower heat exchanger 7b is provided with two side wall panels 8 that are not provided with the air suction port 8a and the side wall panel 8 that is provided with the air suction port 8a up to the machine room portion, and a maintenance door. 13 is arranged so as to open the lower inner surface of the side wall panel 8 provided with 13.
[0055]
The minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8 is the heat disposed along the side wall panel 8 provided with the air suction port 8a. It is longer than the minimum distance L1 with the exchanger 7. This distance L2 is set to 5% or more with respect to the distance Ld between the side wall panels 8 provided with the air suction ports 8a.
[0056]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the inside of the box through the air suction port 8 a of the side wall panel 8 arranged at the opposite position passes through the heat exchanger 7. After the heat exchange with the refrigerant, the air is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0057]
Here, according to the outdoor unit 1, the machine room part and the heat exchange part are arranged in the same room, the upper heat exchanger 7a is arranged along all of the side wall panels 8, and the lower heat exchange is further performed. Since the vessel 7b is arranged along the three side wall panels 8, the area of the heat exchanger 7 can be increased even when a box equivalent to the conventional box is used. Moreover, as the minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8, the distance Ld between the side wall panels 8 provided with the air suction port 8a is set. On the other hand, since it is set to 5% or more, even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at the opposite positions of the box, sufficient air 15 is provided to all the heat exchangers 7. I will come across. That is, the air 15 sucked directly through the air suction port 8a is sufficiently distributed to the heat exchanger 7 along the side wall panel 8 provided with the air suction port 8a, while the air suction port 8a is provided. Even in the heat exchanger 7 along the side wall panel 8 that is not provided, the air 15 sucked from the air suction port 8a is sufficiently distributed through the interval with the side wall panel 8 that secures the minimum distance L2. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0058]
Furthermore, the maintenance door 13 provided on the side wall panel 8 can perform maintenance of the compressor 4 and the like disposed in the machine room portion, and maintenance work and the like can be easily performed.
[0059]
In addition, as described above, the outdoor unit 1 has sufficient air for all the heat exchangers 7 even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at opposite positions of the box. 15 is the one to be distributed. Accordingly, the outdoor unit 1 is continuously installed in the lateral direction so that the side wall panel 8 provided with the air suction port 8a is on the open side and the side wall panel 8 not provided with the air suction port 8a is on the adjacent side. In this case, even if there is no gap between the outdoor units 1, it is possible to allow sufficient air 15 to pass through all the heat exchangers 7 of each outdoor unit 1. As a result, energy efficiency can be increased as in the case of single installation, and a situation where the noise value increases can be prevented. In this case, since the maintenance door 13 is on the open side, the maintainability is not impaired.
[0060]
In the above-described third embodiment, the outdoor unit 1 in which the air suction port 8a is provided only in the two side wall panels 8 arranged at the opposite positions is shown, but the suction port is provided in three or more side wall panels including these units. May be provided. Even in an outdoor unit in which three or more side wall panels are provided with suction ports, if these are continuously installed in the lateral direction, there will be two side wall panels on the open side, Since the minimum distance L2 to the heat exchanger along the distance is set to 5% or more with respect to the distance Ld between the side walls on the open side, sufficient air 15 reaches all the heat exchangers 7 and energy The efficiency can be increased to the same extent as when installed alone.
[0061]
In the above-described third embodiment, the minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8 is set as the side wall provided with the air suction port 8a. By setting it to 5% or more with respect to the distance Ld between the panels 8, even when continuously installed in the horizontal direction, sufficient air 15 is distributed to all the heat exchangers 7. If the air inlets 8a are provided in all the side wall panels 8, the same effect can be obtained even if a spacer is interposed between the outdoor units 1 instead of securing the above-described minimum distance L2. . The spacer interposed between the outdoor units 1 is 10% or more relative to the distance Ld between the side wall panels 8 on the open side between the heat exchangers 7 arranged along the side wall panels 8 on the adjacent side. The air inlet is provided on the side wall on the open side.
[0062]
As described above, according to the outdoor unit 1 continuously installed in the lateral direction with the spacers interposed between the side wall panels 8 on the adjacent sides, only the two side wall panels 8 arranged at opposite positions are provided. However, sufficient air 15 is distributed to all the heat exchangers 7. In other words, the air 15 sucked directly through the air suction ports 8a directly reaches the heat exchanger 7 along the side wall panel 8 on the open side, while along the side wall panel 8 on the adjacent side. Also, the air 15 sucked into the heat exchanger 7 through the air suction port of the spacer passes between the heat exchangers 7 that have secured the distance La, and is then sucked into the side wall panel 8 on the adjacent side. Fully reach through the mouth 8a. Therefore, it becomes possible to allow sufficient air 15 to pass through all the heat exchangers 7 of the outdoor units 1 that are continuously installed in the lateral direction, and the energy efficiency can be increased as in the case of the single installation. At the same time, it is possible to prevent the noise level from increasing.
[0063]
Moreover, although the outdoor unit which provided one air blower 9 was shown in the above-mentioned Embodiment 3, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0064]
Embodiment 4 FIG.
13 and 14 show an outdoor unit of an air conditioner according to Embodiment 4 of the present invention. FIG. 13 is a partially cutaway perspective view showing the structure of the outdoor unit, and FIG. 14 includes a heat exchanger. It is a cross-sectional top view of the outdoor unit cut | disconnected by the surface.
[0065]
13 and 14, reference numeral 1 denotes an outdoor unit of an air conditioner, which includes a machine room portion 2 and a heat exchange portion 3 inside a box. The machine room part 2 and the heat exchange part 3 have a structure separated vertically. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are respectively fixed on a table 6 in a lower machine chamber portion 2. Reference numeral 7 denotes a heat exchanger that is disposed inside the box in the upper heat exchange portion 3 and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. 9 is a blower installed on the upper surface of the box. The side wall panel 8 of the box is provided with air suction ports 8a only in two disposed at positions facing each other.
[0066]
The heat exchanger 7 arranged in the box is arranged in a hexagonal tube shape in a top view so as to have a portion along the side wall panel 8 provided with the air suction port 8a.
[0067]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the inside of the box through the air suction port 8 a of the side wall panel 8 arranged at the opposite position passes through the heat exchanger 7. After the heat exchange with the refrigerant, the air is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0068]
Here, according to the outdoor unit 1, since the heat exchanger 7 is arranged in a hexagonal cylindrical shape inside the side wall panel 8, the area of the heat exchanger 7 is increased even when a box body equivalent to the conventional one is used. It becomes possible. Moreover, for the side wall panel 8 not provided with the air suction port 8a, the distance between the side wall panel 8 and the heat exchanger 7 is gradually increased toward the side wall panel 8 provided with the air suction port 8a. Therefore, even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at positions opposite to each other in the box, sufficient air 15 is distributed to all the heat exchangers 7. That is, the air 15 sucked directly through the air suction port 8a is sufficiently distributed to the heat exchanger 7 along the side wall panel 8 provided with the air suction port 8a, while the air suction port 8a is provided. The air 15 sucked from the air suction port 8a is sufficiently distributed to the heat exchanger 7 inclined with respect to the side wall panel 8 that is not provided. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0069]
Furthermore, since fluctuations in the distance between the rotation axis of the blower 9 and the heat exchangers 7 are reduced, the wind speed distribution in the width direction of the heat exchanger 7 can be made uniform, and the heat exchange capability can be further increased. Become. Therefore, energy efficiency can be further increased.
[0070]
FIG. 15 shows a state when the outdoor unit 1 of the air conditioner shown in FIGS. 13 and 14 is continuously installed in the lateral direction, and is a cross-sectional plan view cut along a plane including a heat exchanger. .
[0071]
As described above, the outdoor unit 1 has sufficient air 15 in all of the heat exchangers 7 even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at the opposite positions of the box. It's something that goes around. Accordingly, as shown in FIG. 15, the outdoor unit 1 is placed sideways so that the side wall panel 8 provided with the air suction port 8a is on the open side and the side wall panel 8 not provided with the air suction port 8a is on the adjacent side. When installed continuously in the direction, even if there is no gap between the outdoor units 1, it is possible to allow sufficient air 15 to pass through all the heat exchangers 7 of each outdoor unit 1. . As a result, energy efficiency can be increased as in the case of single installation, and a situation where the noise value increases can be prevented.
[0072]
In the above-described fourth embodiment, the outdoor unit 1 in which the suction ports 8a are provided only in the two side wall panels 8 arranged at the opposite positions is shown. However, the suction ports are provided in three or more side wall panels including these. It may be provided. FIG. 16 is a cross-sectional plan view showing a state when the air suction ports 8a are provided in all the side wall panels 8 in the outdoor unit 1 of the air conditioner in Embodiment 4 and these are continuously installed in the lateral direction. . Even in the outdoor unit 1 in which all the side wall panels 8 are provided with the air suction ports 8a, if these are continuously installed in the lateral direction, the two side wall panels on the open side become two, but the side walls on the adjacent side Since the heat exchanger 7 is inclined with respect to the panel 8, sufficient air 15 is distributed to all the heat exchangers 7, and the energy efficiency can be increased to the same level as in the case of independent installation.
[0073]
Moreover, although the outdoor unit which provided one air blower 9 was shown in the above-mentioned Embodiment 4, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0074]
Embodiment 5. FIG.
17, 18, and 19 show an outdoor unit of an air conditioner that is Embodiment 5 of the present invention. FIG. 17 is a partially broken perspective view showing the structure of the outdoor unit, and FIG. FIG. 19 is a cross-sectional plan view of the outdoor unit cut along the plane including the lower heat exchanger, and FIG. 19 is a cross-sectional plan view of the outdoor unit cut along the plane including the lower heat exchanger.
[0075]
17, 18, and 19, reference numeral 1 denotes an outdoor unit of an air conditioner, in which a machine room portion and a heat exchange portion are vertically arranged in the same room of a box. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are fixed on a base 6 at the lower part of the box. Reference numeral 7 denotes a heat exchanger that is disposed inside the box and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. 9 is a blower installed on the upper surface of the box. The side wall panel 8 of the box is provided with air suction ports 8a only in two disposed at positions facing each other. Among these, one side wall panel 8 is provided with an air suction port 8a on almost the entire surface extending from the machine room portion to the heat exchange portion. The other side wall panel 8 is provided with an air suction port 8a on the entire surface corresponding to the upper heat exchanging portion, and a maintenance door 13 is provided at the lower central portion thereof. The air suction port 8a is provided only at the portions on both sides.
[0076]
The heat exchanger 7 disposed in the box is divided into an upper heat exchanger 7a and a lower heat exchanger 7b. The upper heat exchanger 7a is arranged in a hexagonal tube shape in a top view so as to have a portion along the side wall panel 8 provided with the air suction port 8a at the upper part of the box. On the other hand, the lower heat exchanger 7b has a substantially hexagonal cylindrical shape like the upper heat exchanger 7a, and is disposed so as to open the lower inner surface of the side wall panel 8 provided with the maintenance door 13. It is.
[0077]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the inside of the box through the air suction port 8 a of the side wall panel 8 arranged at the opposite position passes through the heat exchanger 7. After the heat exchange with the refrigerant, the air is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0078]
Here, according to the outdoor unit 1, the machine room part and the heat exchange part are arranged in the same room, and the upper heat exchanger 7 a is arranged in a hexagonal cylinder shape so as to face all the side wall panels 8. Further, since the lower heat exchanger 7b is arranged in a substantially hexagonal cylinder shape so as to face the three side wall panels 8, the area of the heat exchanger 7 is increased even when a box equivalent to the conventional one is used. It becomes possible. Moreover, for the side wall panel 8 not provided with the air suction port 8a, the distance between the side wall panel 8 and the heat exchanger 7 is gradually increased toward the side wall panel 8 provided with the air suction port 8a. Therefore, even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at positions opposite to each other in the box, sufficient air 15 is distributed to all the heat exchangers 7. That is, the air 15 sucked directly through the air suction port 8a is sufficiently distributed to the heat exchanger 7 along the side wall panel 8 provided with the air suction port 8a, while the air suction port 8a is provided. The air 15 sucked from the air suction port 8a is sufficiently distributed to the heat exchanger 7 inclined with respect to the side wall panel 8 that is not provided. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0079]
Furthermore, since fluctuations in the distance between the rotation axis of the blower 9 and the heat exchangers 7 are reduced, the wind speed distribution in the width direction of the heat exchanger 7 can be made uniform, and the heat exchange capability can be further increased. Become. Therefore, energy efficiency can be further increased.
[0080]
Furthermore, the maintenance door 13 provided on the side wall panel 8 can perform maintenance of the compressor 4 and the like disposed in the machine room portion, and maintenance work and the like can be easily performed.
[0081]
In addition, as described above, the outdoor unit 1 has sufficient air for all the heat exchangers 7 even if the air suction ports 8a are provided only in the two side wall panels 8 arranged at opposite positions of the box. 15 is the one to be distributed. Accordingly, the outdoor unit 1 is continuously installed in the lateral direction so that the side wall panel 8 provided with the air suction port 8a is on the open side and the side wall panel 8 not provided with the air suction port 8a is on the adjacent side. In this case, even if there is no gap between the outdoor units 1, it is possible to allow sufficient air 15 to pass through all the heat exchangers 7 of each outdoor unit 1. As a result, energy efficiency can be increased as in the case of single installation, and a situation where the noise value increases can be prevented. In this case, since the maintenance door 13 is on the open side, the maintainability is not impaired.
[0082]
In the above-described fifth embodiment, the outdoor unit 1 in which the suction ports 8a are provided only in the two side wall panels 8 arranged at positions facing each other is shown. However, the suction ports are provided in three or more side wall panels including these. It may be provided. Even in an outdoor unit in which three or more side wall panels are provided with suction ports, if these are continuously installed in the lateral direction, there will be two side wall panels on the open side, but the side wall panel 8 on the adjacent side Since the heat exchanger 7 is inclined with respect to the heat exchanger 7, sufficient air 15 is distributed to all the heat exchangers 7, and the energy efficiency can be increased to the same level as that in the single installation.
[0083]
Moreover, although the outdoor unit which provided one air blower 9 was shown in the above-mentioned Embodiment 5, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0084]
Embodiment 6 FIG.
20 and 21 show an outdoor unit of an air conditioner according to a sixth embodiment of the present invention. FIG. 20 is a partially cutaway perspective view showing the structure of the outdoor unit, and FIG. 21 includes a heat exchanger. It is a cross-sectional top view of the outdoor unit cut | disconnected by the surface.
[0085]
20 and 21, reference numeral 1 denotes an outdoor unit of an air conditioner, in which a machine room part and a heat exchange part are arranged vertically in the same room of a box. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are fixed on a base 6 at the lower part of the box. Reference numeral 7 denotes a heat exchanger that is disposed inside the box and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. 9 is a blower installed on the upper surface of the box. Only one air suction port 8a is provided in the side wall panel 8 of the box. Further, a maintenance door 13 is provided at a lower portion of the side wall panel 8 disposed at a position opposite to the side wall panel 8 provided with the air suction port 8a.
[0086]
The heat exchanger 7 arranged in the box opens the inner surface of the side wall panel 8 provided with the maintenance door 13 in a part extending from the machine room part to the heat exchange part of the box, and the other three side wall panels. 8 are arranged in a U-shape so as to be along 8.
[0087]
The minimum distance L2 between the side wall panel 8 not provided with the air suction port 8a and the heat exchanger 7 disposed along the side wall panel 8 is the heat disposed along the side wall panel 8 provided with the air suction port 8a. It is longer than the minimum distance L1 with the exchanger 7. This distance L2 is relative to the distance L3 from the side wall panel 8 on the open side where the air suction port 8a is provided to the end of the heat exchanger 7.10% Or more, in other words, with respect to the horizontal length of the heat exchanger 7 along the side wall panel 8 where the air inlet 8a is not provided.10% Or more.
[0088]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the inside of the box through the air suction port 8 a of the side wall panel 8 arranged at the opposite position passes through the heat exchanger 7. After the heat exchange with the refrigerant, the air is discharged from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0089]
Here, according to the said outdoor unit 1, a machine room part and a heat exchange part are arrange | positioned in the same room, and it arrange | positions along the three side wall panels 8 in the site | part ranging from these machine room parts to a heat exchange part. Therefore, the area of the heat exchanger 7 can be increased even when a box equivalent to the conventional box is used. Moreover, as the minimum distance L2 between the side wall panel 8 not provided with the air inlet 8a and the heat exchanger 7 disposed along the side wall panel 8, the heat exchanger along the side wall panel 8 provided with no air inlet 8a. For a horizontal length of 710Therefore, even if the air suction port 8a is provided only in one side wall panel 8 of the box, sufficient air 15 is distributed to all the heat exchangers 7. That is, the air 15 sucked directly through the air suction port 8a is sufficiently distributed to the heat exchanger 7 along the side wall panel 8 provided with the air suction port 8a, while the air suction port 8a is provided. Even in the heat exchanger 7 along the side wall panel 8 that is not provided, the air 15 sucked from the air suction port 8a is sufficiently distributed through the interval with the side wall panel 8 that secures the minimum distance L2. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0090]
Furthermore, the maintenance door 13 provided on the side wall panel 8 can perform maintenance of the compressor 4 and the like disposed in the machine room portion, and maintenance work and the like can be easily performed.
[0091]
FIG. 22 shows a state when the outdoor unit of the air conditioner shown in FIGS. 20 and 21 is continuously installed in the lateral direction, and is a cross-sectional plan view of the outdoor unit cut along a plane including the heat exchanger. It is.
[0092]
As described above, in the outdoor unit 1, sufficient air 15 is distributed to all the heat exchangers 7 only by providing the air suction port 8 a on only one side wall panel 8 of the box. Therefore, as shown in FIG. 22, the outdoor unit 1 is placed sideways so that the side wall panel 8 provided with the air suction port 8a is on the open side and the side wall panel 8 not provided with the air suction port 8a is on the adjacent side. When installed continuously in the direction, even if there is no gap between the outdoor units 1, it is possible to allow sufficient air 15 to pass through all the heat exchangers 7 of each outdoor unit 1. . As a result, energy efficiency can be increased as in the case of single installation, and a situation where the noise value increases can be prevented. In this case, since the maintenance door 13 is on the open side, the maintainability is not impaired.
[0093]
Although the outdoor unit 1 in which the suction port 8a is provided in only one side wall panel 8 is shown in the above-described sixth embodiment, the suction ports may be provided in two or more side wall panels including this. Even in an outdoor unit in which two or more side wall panels are provided with suction ports, sufficient air 15 is distributed to all the heat exchangers 7, and the energy efficiency can be increased to the same level as that in a single installation.
[0094]
Moreover, although the outdoor unit which provided one air blower 9 was shown in the above-mentioned Embodiment 6, the number of air blowers may be plural. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0095]
Embodiment 7 FIG.
23 and 24 show an outdoor unit of an air conditioner according to Embodiment 7 of the present invention. FIG. 23 is a partially cutaway perspective view showing the structure of the outdoor unit, and FIG. 24 includes a heat exchanger. It is a cross-sectional top view of the outdoor unit cut | disconnected by the surface.
[0096]
23 and 24, reference numeral 1 denotes an outdoor unit of an air conditioner, in which a machine room part and a heat exchange part are arranged in the same room of a box. Reference numeral 4 denotes a compressor, and 5 denotes an accumulator, which are fixed on a base 6 at the lower part of the box. Reference numeral 7 denotes a heat exchanger that is disposed inside the box and is connected to the compressor 4 and the accumulator 5 to form a refrigeration cycle. 9 is a blower installed on the upper surface of the box. In the side wall panel 8 of the box, three of them are provided with air suction ports 8a. The side wall panel 8 not provided with the air suction port 8a is provided with a maintenance door 13 at the lower part thereof.
[0097]
The heat exchanger 7 arranged in the box opens the inner surface of the side wall panel 8 provided with the maintenance door 13 in a part extending from the machine room part to the heat exchange part of the box, and the other three side wall panels. 8 are arranged in a U-shape so as to be along 8.
[0098]
When the compressor 4 and the blower 9 are operated in the outdoor unit 1, the air 15 sucked into the box through the air suction ports 8 a of the three side wall panels 8 passes through the heat exchanger 7 and exchanges heat with the refrigerant. After that, it is discharged to the outside from the upper surface side of the box through the bell mouth 10, the fan guard 11, and the air outlet 12.
[0099]
Here, according to the said outdoor unit 1, a machine room part and a heat exchange part are arrange | positioned in the same room, and it arrange | positions along the three side wall panels 8 in the site | part ranging from these machine room parts to a heat exchange part. Therefore, the area of the heat exchanger 7 can be increased even when a box equivalent to the conventional box is used. In addition, since the air suction ports 8a are provided in the respective side wall panels 8 on which the heat exchangers 7 are arranged, sufficient air 15 reaches all the heat exchangers 7. Therefore, the energy efficiency can be remarkably increased while the unit outer dimensions are the same as those of the conventional outdoor unit.
[0100]
Furthermore, the maintenance door 13 provided on the side wall panel 8 can perform maintenance of the compressor 4 and the like disposed in the machine room portion, and maintenance work and the like can be easily performed.
[0101]
FIG. 25 shows a state when the outdoor unit of the air conditioner shown in FIGS. 23 and 24 is continuously installed in the lateral direction, and is a cross-sectional plan view of the outdoor unit cut along the plane including the heat exchanger. It is.
[0102]
As is clear from FIG. 25, when the outdoor unit 1 is continuously installed in the lateral direction, the side wall panel 8 provided with the maintenance door 13 and the side wall panel 8 are arranged at positions facing each other. The side wall panel 8 is on the open side, and a spacer 14 is interposed between the outdoor units 1. The spacer 14 is for securing a distance La between the heat exchangers 7 arranged along the side wall panel 8 on the adjacent side, and an air suction port 14a is provided on the side wall on the open side. The distance La secured by the spacer 14 is relative to the distance L3 from the side wall panel 8 on the open side where the air suction port 8a is provided to the end of the heat exchanger 7.20% Or more, in other words, with respect to the horizontal length of the heat exchanger 7 along the side wall panel 8 where the air inlet 8a is not provided.20% Or more.
[0103]
According to the outdoor unit 1 continuously installed in the lateral direction with the spacer 14 interposed between the adjacent side wall panels 8 as described above, two of the side wall panels 8 provided with the air suction ports 8a. One becomes the adjacent side and only the remaining one becomes the open side, but sufficient air 15 reaches all the heat exchangers 7. That is, the air 15 sucked directly through the air inlet 8a directly reaches the heat exchanger 7 along the side wall panel 8 on the open side, while on the other side along the side wall panel 8 on the adjacent side. The air 15 sucked into the heat exchanger 7 through the air suction port 14a of the spacer 14 passes between the heat exchangers 7 that have secured the distance La, and then the air in the side wall panel 8 on the adjacent side. It will be sufficiently distributed through the suction port 8a. Therefore, it becomes possible to allow sufficient air 15 to pass through all the heat exchangers 7 of the outdoor units 1 that are continuously installed in the lateral direction, and the energy efficiency can be increased as in the case of the single installation. At the same time, it is possible to prevent the noise level from increasing.
[0104]
Even in the above-described seventh embodiment, an outdoor unit provided with one blower 9 is shown, but a plurality of blowers may be provided. In this case, since the amount of air passing through the heat exchanger 7 can be increased compared to the case where there is one fan, it is possible to further improve energy efficiency.
[0107]
【The invention's effect】
  As explained above, thisAccording to the invention, the heat exchanger is formed in a square tube shape and arranged along each side wall panel of the box, and the side wall panel on the open side is placed under the square tube heat exchanger. Since the lower heat exchanger that is configured to open only the part facing one side is provided, the area can be increased, and further maintenance of the compressor and the like can be performed through the maintenance door, so the unit outer dimensions are increased. It is possible to obtain an outdoor unit of an air conditioner with improved energy efficiency and high maintainability.
[0108]
According to the next invention, the distance between the adjacent side wall panel and the heat exchanger disposed along the side wall panel is 5% or more with respect to the distance between the two side wall panels on the open side. Ensuring the spacing allows sufficient air to pass through all heat exchangers, even when installed continuously, so that energy efficiency when installed continuously in the horizontal direction can be set independently. The effect is that it can be increased to the same degree as time.
[0109]
  According to the following invention,next toSide wall panel on the contact sideLeEven when it is installed continuously by securing an interval of 10% or more relative to the distance between the two side wall panels on the open side between the heat exchangers arranged along Since sufficient air can be passed through all of the heat exchangers, there is an effect that the energy efficiency when continuously installed in the lateral direction can be increased to the same extent as when installed alone.
[0110]
According to the next invention, the area can be increased by configuring the heat exchanger in the shape of a hexagonal tube, and sufficient air can be supplied to all the heat exchangers even when installed continuously. Since it can be passed, the energy efficiency can be improved without increasing the unit external dimensions, and the energy efficiency when installed continuously in the horizontal direction can be increased to the same extent as when installed alone. Play.
[0111]
According to the next invention, the area can be increased by configuring the heat exchanger in the shape of a hexagonal tube, and sufficient air can be supplied to all the heat exchangers even when installed continuously. Since it can be passed, the energy efficiency can be improved without increasing the outer dimensions of the unit, and the energy efficiency when installed continuously in the horizontal direction can be increased to the same extent as when installed alone. . In addition, since the maintenance door is provided on the side wall panel, the compressor and the like can be maintained through the maintenance door, and an outdoor unit of the air conditioner having high maintainability can be obtained.
[0115]
According to the next invention, since the amount of air passing through the heat exchanger can be increased, there is an effect that the energy efficiency can be further improved.
[Brief description of the drawings]
FIG. 1 is a partially cutaway perspective view showing the structure of an outdoor unit of an air conditioner that is Embodiment 1 of the present invention.
FIG. 2 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 1 cut along a horizontal plane including a heat exchanger.
FIG. 3 is a perspective view showing an appearance when the outdoor unit of the air conditioner shown in FIG. 1 is continuously installed in the horizontal direction.
4 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when the outdoor unit of the air conditioner shown in FIG. 1 is continuously installed in the horizontal direction.
FIG. 5 is a graph showing a rate of change in pressure loss ΔP with respect to L2 / Ld of the outdoor unit at the same air volume.
FIG. 6 is a partially broken perspective view showing the structure of an outdoor unit of an air conditioner that is Embodiment 2 of the present invention.
7 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 6 cut along a horizontal plane including a heat exchanger.
FIG. 8 is a perspective view showing an appearance when the outdoor unit of the air conditioner shown in FIG. 6 is continuously installed in the horizontal direction.
9 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when continuously installed in the lateral direction of the outdoor unit of the air conditioner shown in FIG. 6;
FIG. 10 is a partially cutaway perspective view showing the structure of an outdoor unit of an air conditioner that is Embodiment 3 of the present invention.
11 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 10 cut along a horizontal plane including an upper heat exchanger.
12 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 10 cut along a horizontal plane including a lower heat exchanger.
FIG. 13 is a partially cutaway perspective view showing the structure of an outdoor unit of an air conditioner that is Embodiment 4 of the present invention.
14 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 13 cut along a horizontal plane including a heat exchanger.
15 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when the outdoor unit of the air conditioner shown in FIG. 13 is continuously installed in the horizontal direction.
16 is a cross-sectional plan view showing a modification of the outdoor unit of the air conditioner shown in FIG. 13, cut along a horizontal plane including a heat exchanger when continuously installed in the lateral direction.
FIG. 17 is a partially cutaway perspective view showing the structure of an outdoor unit of an air-conditioning apparatus according to Embodiment 5 of the present invention.
18 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 17 cut along a horizontal plane including an upper heat exchanger.
19 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 17 cut along a horizontal plane including a lower heat exchanger.
FIG. 20 is a partially cutaway perspective view showing the structure of an outdoor unit of an air-conditioning apparatus according to Embodiment 6 of the present invention.
FIG. 21 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 20 cut along a horizontal plane including a heat exchanger.
22 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when the outdoor unit of the air conditioner shown in FIG. 20 is continuously installed in the horizontal direction.
FIG. 23 is a partially cutaway perspective view showing the structure of an outdoor unit of an air conditioner that is Embodiment 7 of the present invention.
24 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 23 cut along a horizontal plane including a heat exchanger.
25 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when the outdoor unit of the air conditioner shown in FIG. 23 is continuously installed in the horizontal direction.
FIG. 26 is an exploded perspective view showing the structure of an outdoor unit of a conventional air conditioner.
FIG. 27 is a partially cutaway perspective view showing the structure of an outdoor unit of another conventional air conditioner.
28 is a cross-sectional plan view of the outdoor unit of the air conditioner shown in FIG. 27 cut along a horizontal plane including a heat exchanger.
FIG. 29 is a perspective view showing an appearance when the outdoor unit of the air conditioner shown in FIG. 27 is continuously installed in the horizontal direction.
30 is a cross-sectional plan view cut along a horizontal plane including a heat exchanger when the outdoor unit of the air conditioner shown in FIG. 27 is continuously installed in the horizontal direction.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outdoor unit of air conditioner, 2 Machine room part, 3 Heat exchange part, 4 Compressor, 5 Accumulator, 6 units, 7 Heat exchanger, 7a Upper heat exchanger, 7b Lower heat exchanger, 8 Side wall panel, 8a Air inlet, 9 Blower, 10 Bell mouth, 11 Fan guard, 12 Air outlet, 13 Maintenance door, 14 Spacer, 14a Air inlet, 15 Air passing through the heat exchanger.

Claims (6)

A box body provided with a suction port in each of two side wall panels disposed at at least opposite positions, a heat exchanger disposed inside the box body, and air inside the box body through the suction port of the side wall panel And a blower installed so as to be discharged from the upper surface side after passing through the heat exchanger, and in the case of continuous installation, the two side wall panels are on the open side, and In the outdoor unit of an air conditioner that is arranged side by side so that the other side wall panel is on the adjacent side,
The heat exchanger is formed in a rectangular tube shape and arranged along each side wall panel of the box,
Under the square cylindrical heat exchanger, a lower heat exchanger configured to open only a portion facing one of the side wall panels on the open side is provided,
Furthermore, the outdoor unit of the air conditioner provided with the maintenance door in the side wall panel facing the open part of the said lower heat exchanger. The space | interval which becomes 5% or more with respect to the distance between the two side wall panels used as the said open | release side is ensured between the side wall panel used as the said adjacent side, and the heat exchanger arrange | positioned along the said side wall panel. The outdoor unit for an air conditioner according to claim 1 . Each side wall panel of the box is provided with a suction port, and between the heat exchangers arranged along the side wall panel on the adjacent side, the distance between the two side wall panels on the open side The outdoor unit of the air conditioner according to claim 1 , wherein an interval of 10% or more is secured. A box body provided with a suction port in each of two side wall panels disposed at at least opposite positions, a heat exchanger disposed inside the box body, and air inside the box body through the suction port of the side wall panel And a blower installed so as to be discharged from the upper surface side after passing through the heat exchanger, and in the case of continuous installation, the two side wall panels are on the open side, and In the outdoor unit of an air conditioner that is arranged side by side so that the other side wall panel is on the adjacent side,
The outdoor unit of an air conditioner, wherein the heat exchanger is formed in a hexagonal cylinder shape having two sides arranged along each of the side wall panels on the open side. Under the hexagonal cylindrical heat exchanger, a lower heat exchanger configured to open only a portion facing one of the side wall panels on the open side is provided,
Furthermore, the outdoor unit of the air conditioner of Claim 4 which provided the door for a maintenance in the side wall panel facing the open part of the said lower heat exchanger. The outdoor unit of the air conditioner according to any one of claims 1 to 5 , wherein a plurality of the blowers are provided.

Images