JP2006078034A - Outdoor unit and setting method of outdoor unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a setting method capable of solving the problem of a narrow setting space while considering an air flow discharged from an outdoor unit. <P>SOLUTION: This outdoor unit comprises an outdoor unit body 1A having a suction part sucking air before cooling on a back surface 2 and a blowout part 5 discharging heat-exchanged air on a front surface 3. The outdoor unit body 1A is adapted to be stackable through a mount part 14. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an outdoor unit and a method for installing the outdoor unit.

  In recent years, there are many examples in which outdoor units of an air conditioner are concentrated on a rooftop of a building or the like, but these are arranged in a plane as shown in FIG. Furthermore, since the number of installed air conditioners 1 tends to increase as the number of communication devices increases, there is a possibility that the outdoor unit 1 cannot be installed on the rooftop 15. Further, it is necessary to arrange the outdoor unit 1 in order to avoid a phenomenon (short circuit) in which the exhausted air is sucked into the suction portion.

Therefore, as an arrangement method of the outdoor unit of the air conditioner, for example, a method as in Patent Document 1 is considered. In this arrangement, when a plurality of outdoor units having a suction portion on the back surface of the casing and a blowing portion on the upper surface are arranged in multiple stages, the outdoor units arranged in the upper and lower stages are aligned with the front surfaces facing each other. The outdoor unit arranged in the upper stage is arranged on the grating. The lower-stage outdoor unit is provided with a partition plate that guides air blown from the blowing portion to the grating ventilation portion.
JP 2003-294269 A

In the prior art described above, the outdoor units can be arranged on the upper and lower stages by providing a structure for arranging the outdoor units. Further, the provision of the partition plate prevents the air exhausted from the lower outdoor unit from being sucked into the other outdoor units. However, it cannot be easily provided due to a large structure such as constructing a floor, and multi-stacking may be difficult.
As described above, since the outdoor units are generally arranged in parallel on the roof of the building, the number of units that can be installed on the roof of the building is limited. In addition, the location of outdoor units has become increasingly narrow for measures such as rooftop greening, and there is a need for a method to install more outdoor units in a limited space while considering energy saving and environmental measures. It has become.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide an installation method capable of solving the problem of narrowing of the installation space while considering the airflow exhausted from the outdoor unit.

In the first aspect of the present invention, the outdoor unit main body having a suction portion for sucking air before cooling on the back surface and a blowout portion for discharging heat-exchanged air on the front surface is provided in the vertical direction via the mounting portion. It is characterized by being able to be laminated.
By comprising in this way, it becomes possible to install more outdoor units.

According to a second aspect of the present invention, in the first aspect of the present invention, the present invention is characterized in that the blow-out portion is formed obliquely upward in the outdoor unit main body.
By comprising in this way, when the back surfaces of an outdoor unit are made to oppose, it is prevented that exhaust goes directly to the vicinity. Further, when the front faces are opposed to each other, it is not necessary to provide a shielding panel for preventing the mutual exhaust air from flowing into the intake side.

According to a third aspect of the present invention, in the first or second aspect of the present invention, the heat exchanger is provided obliquely with respect to the air introduction direction of the outdoor unit main body.
By comprising in this way, the introduce | transduced air can pass a heat exchanger reliably. Furthermore, the flow path for heat exchange can be formed in a sufficient length.

The invention described in claim 4 is the invention described in claim 3, characterized in that the heat exchanger is provided in a substantially square shape.
By comprising in this way, it becomes possible to enlarge the heat exchange area of a heat exchanger, with the space where the condenser in an outdoor unit is arrange | positioned being the same. Moreover, when the space in which the condenser is arranged in the outdoor unit is reduced, the condenser can be reduced while maintaining the heat exchange area of the condenser.

The invention according to claim 5 is a method of installing a plurality of outdoor units having a suction portion on the back surface and having a blow-out portion on the front surface in order to blow out the air sucked from the suction portion, and the direction of the blow-out portion A plurality of layers are stacked in the vertical direction in a state in which they are matched.
By configuring in this way, since the exhaust direction of the air blown out from the outdoor unit is the same side, it is possible to install more outdoor units while preventing the blown air from flowing into the suction unit it can.

The invention described in claim 6 is characterized in that mounting units for stacking a plurality of outdoor units are arranged adjacent to each other, and the outdoor units are sequentially stacked on the mounting units arranged in a row.
By comprising in this way, a mounting part can be previously provided adjacently. And an outdoor unit can be laminated | stacked sequentially from a lower stage irrespective of the order which laminates | stacks an outdoor unit on a mounting part.

The invention according to claim 7 comprises a back surface on the same side, a plurality of the outdoor units are stacked in the vertical direction to constitute an outdoor unit group, and the outdoor unit groups are arranged adjacent to each other in a row. Features.
With this configuration, the outdoor unit group can be configured in advance in a wide place where work is easy. In addition, the configured outdoor unit group is simply installed adjacent to each other, and installation work on site is facilitated.

The invention according to claim 8 is characterized in that a plurality of layers are stacked in the vertical direction with the back surface of the outdoor unit and the back surface of another outdoor unit facing each other.
In this configuration, as in the ninth aspect of the invention, the outdoor unit group is configured by stacking a plurality of the outdoor units in the vertical direction with the back side on the same side, and the back side of the outdoor unit group and the like. The outdoor unit group may be installed face to face.
With this configuration, the exhaust directions of the opposing outdoor units are opposite to each other. Furthermore, a common maintenance space can be secured on the back side.

The invention according to claim 10 is characterized in that a plurality of layers are stacked in the vertical direction with the front surface of the outdoor unit and the front surface of another outdoor unit facing each other.
By comprising in this way, the bad influence from the blowing side given to the suction side can be suppressed to the minimum by consolidating the exhaust side of an outdoor unit.

The invention according to claim 11, in a state where the front surface of the outdoor unit and the front surface of another outdoor unit face each other, a plurality of stacked so that the positional relationship of the opposed outdoor units are staggered in the vertical direction, A shield panel is installed between the upper and lower outdoor units.
In this configuration, as in the invention described in claim 12, an outdoor unit group is configured by stacking a plurality of the outdoor units in the vertical direction with the back surfaces aligned on the same side, and the other unit facing the outdoor unit group. The front side of the outdoor unit group may be opposed to each other, and the positional relationship between the opposing outdoor units may be staggered in the loading direction, and a shielding panel may be installed between the upper and lower outdoor units.
With such a configuration, the positions of the facing outdoor units in the stacking direction are alternated, so that the exhaust direction does not collide. Further, by providing the shielding panel, it is possible to prevent wraparound to the back surface having the intake portion.

  According to the first aspect of the present invention, it is possible to install more outdoor units, and thus it is possible to solve the problem of narrowing the limited arrangement space.

    According to the second aspect of the present invention, since the exhaust is prevented from going directly to the neighborhood, it is possible to reduce the noise to the neighborhood. Further, when the front faces are opposed to each other, it is not necessary to provide a shielding panel or the like for preventing the mutual exhaust from flowing into the intake side, so that the outdoor units can be stacked with high density.

  According to the third aspect of the present invention, the introduced air can surely pass through the heat exchanger, and the flow path for heat exchange can be formed in a sufficient length. Heat exchange efficiency can be obtained.

  According to the fourth aspect of the present invention, it is possible to increase the heat exchange area of the heat exchanger while maintaining the same space in which the condenser is arranged in the outdoor unit, so that the heat exchange efficiency is further improved. Can be made. In addition, if the space where the condenser is placed in the outdoor unit is reduced, the condenser can be reduced while maintaining the heat exchange area of the condenser. Is possible.

  According to the invention described in claim 5, since more outdoor units can be installed, it becomes possible to solve the problem of narrowness of a limited arrangement space. In addition, since the blown air can be prevented from flowing into the suction portion, the desired cooling effect can be obtained without reducing the heat exchange capability of the outdoor unit.

  According to the sixth aspect of the present invention, the installation position of the mounting portion can be determined in advance, so that an installation space can be secured. And since it can be laminated | stacked sequentially from the lower stage of the arrange | positioned mounting part irrespective of the order which laminates | stacks an outdoor unit on a mounting part, an outdoor unit can be installed and added easily.

  According to the seventh aspect of the present invention, since the outdoor unit group can be configured in advance in a wide place where the work is easy to perform, the work efficiency can be improved. Furthermore, this is particularly effective when the number of outdoor units to be installed is known and there are a sufficient number of outdoor units that can constitute the outdoor unit group. In addition, it is only necessary to install the constructed outdoor unit groups adjacent to each other, and the installation work at the site becomes easy, so that the work time can be shortened.

According to the invention described in claims 8 and 9, since the exhaust direction of the opposing outdoor unit is reversed, it is possible to prevent the interference of the air flow, and the expected heat exchange capacity of the outdoor unit is not reduced. A cooling effect can be obtained.
Furthermore, since a common maintenance space can be secured on the exhaust side, the outdoor units on both sides can be maintained at the same time, making it easy to work. Further, since the maintenance space can be shared, the maintenance space can be minimized.

According to the tenth aspect of the present invention, since the adverse effect from the blowing side given to the suction side can be minimized by consolidating the blowing side, it is possible to prevent the heat exchange efficiency from being lowered.
According to the invention described in claims 11 and 12, since the exhaust directions of the outdoor units facing each other do not collide, the backflow of exhaust can be prevented. Furthermore, since the front surfaces of the outdoor units are installed facing each other, it is possible to reduce noise in the vicinity. In addition, since it is possible to prevent backflow of exhaust gas and wraparound to the intake side, heat exchange can be performed efficiently.

Embodiments of the present invention will be described below.
First, a first embodiment will be described with reference to FIGS.
As shown in FIG. 2, on the rooftop 15 of the building, an outdoor unit group 6 in which a plurality of outdoor units 1 are stacked in the vertical direction via a mounting unit 14 composed of four columns 8 is disposed adjacently. ing. This adjacently arranged outdoor unit group 6 constitutes an outdoor unit row M, the rear unit 2 faces each other together with the outdoor unit row N having the same configuration, and between the outdoor unit row M and the outdoor unit row N. A distance is set, and this is used as a maintenance space 16.

FIG. 1 is a partially enlarged view of FIG. 2, in which one outdoor unit group 6 of the outdoor unit row M and one outdoor unit group 6 ′ of the outdoor unit row N disposed to face the outdoor unit row M are arranged. Show.
As shown in FIG. 1, the outdoor units 1, 1 ′ are cuboid outdoor unit main bodies 1 </ b> A, 1 </ b> A ′, and the air before cooling provided on the entire back surfaces 2, 2 ′ (may be provided in part). And a blow-out portion 5, 5 ′ provided on the front surface 3, 3 ′. Two cylindrical fans 10 are respectively provided in parallel in the blowing sections 5 and 5 ′, and condensers 9 and 9 ′, which are heat exchangers, are provided inside the outdoor unit main bodies 1A and 1A ′. It is inclined and arranged so as to descend from the upper part of 3 ′ to the lower part of the back surface 2 and 2 ′. The placement unit 14 for placing the outdoor units 1, 1 ′ includes, for example, four support columns 8 erected in parallel with the side surfaces 1 b, 1 b ′ of the outdoor units 1, 1 ′. Two outdoor units 1, 1 ′ are provided so as to face each other on the front surface 3, 3 ′ side and the back surface 2, 2 ′ side. The mounting portion 14 is fixed to a rooftop 15 of the building by a stud bolt or the like, for example.

  And outdoor unit 1, 1 'is constant in the perpendicular direction of the above-mentioned mounting part 14 in the state in which the suction part and blowing part 5, 5' become horizontal with the upper surface 1a, 1a 'facing up. A plurality is loaded at intervals. At this time, the back surfaces 2, 2 'of the outdoor units 1, 1' are set on the same side. The outdoor unit group 6 configured as described above has a back surface 2 side facing a back surface 2 'side of another outdoor unit group 6', and a space equal to or more than one outdoor unit (maintenance space) therebetween. 16). As described above, as shown in FIG. 2, a plurality of these outdoor unit groups 6 and 6 ′ are arranged adjacent to each other as an outdoor unit row M and an outdoor unit row N.

With this configuration, the air sucked from the intake portions of the rear surfaces 2 and 2 ′ is heated to a high temperature by the built-in condenser 9, and horizontally from the outlet portions 5 and 5 ′ of the front surfaces 3 and 3 ′. Although the air is blown out into the atmosphere, the exhaust direction of the outdoor unit group 6 ′ facing the outdoor unit group 6 is opposite to each other, so that the air blown from the opposing outdoor unit 1 and the outdoor unit 1 ′ collides with each other. Can be prevented.
Moreover, the maintenance space 16 can be formed by providing a space | interval in the back surface 2, 2 'side of the outdoor unit groups 6 and 6' which oppose. As a result, as shown in FIG. 2, in the state of being installed on the rooftop 15, the air blown from the outdoor unit group 6 of the outdoor unit row M and the outdoor unit group 6 ′ of the opposing outdoor unit row N are blown out. You can prevent a collision with the air. A common maintenance space 16 can be formed between the outdoor unit rows M and N.

Therefore, more outdoor units 1, 1 ′ can be gathered and installed at high density, and the limited space on the rooftop 15 can be used effectively. In addition, since the maintenance space 16 can be secured on the back surface 2, 2 ′ side of the opposed outdoor unit groups 6, 6 ′, it is possible for workers to enter and exit and to perform maintenance work. Further, by sharing the maintenance space 16 with the opposed outdoor unit groups 6 and 6 ′, more outdoor unit groups 6 and 6 can be obtained as compared with the case where the maintenance space 16 is secured for each of the outdoor unit groups 6 and 6 ′. 6 'can be provided. In addition, since the exhaust does not enter the suction portion, it is possible to prevent the cooling capacity from being lowered.
In the above-described embodiment, the placement unit 14 is installed on the roof 15 of the building, but may be installed on the ground or the like.

Here, as shown in FIG. 3, when configuring the outdoor unit group 6, the outdoor unit 1 may be sequentially installed on a column 8 provided in advance. At this time, the outdoor units 1 are sequentially stacked in the vertical direction upward from the lower stage. For example, the rear unit 1 is provided with rails on both side surfaces 1b and the inside of the support column 8, or the mounting unit 14 is provided with a receiving plate so as to form a shelf. Thus, the outdoor unit 1 can be inserted and placed.
By comprising in this way, when the installation number of the outdoor unit 1 is not decided beforehand or when it wants to add later, it can mount suitably. Moreover, since it loads sequentially, it is not necessary to move the piping and cable of the existing outdoor unit 1. Furthermore, since the outdoor unit 1 is individually installed on the mounting portion 14, even the lower outdoor unit 1 on which a plurality of outdoor units 1 are stacked can be inserted and removed as needed.
Therefore, since the outdoor unit 1 can be appropriately mounted, even if the number of the outdoor unit groups 6 is not reached, the outdoor unit 1 can be loaded on the mounting unit 14. Moreover, since it is not necessary to move the piping and cable of the existing outdoor unit 1, the mounting operation can be easily performed. Furthermore, since the outdoor unit 1 can be individually inserted into and removed from the placement unit 14, the outdoor unit 1 can be easily removed due to a failure or the like.

  Further, as shown in FIG. 4, on both side surfaces 1 b of the outdoor unit main body 1 </ b> A, additional support members 13 may be provided in parallel on the front surface 3 and the back surface 2 side to constitute the outdoor unit 11. The support member 13 is provided such that the inside of the upper end portion thereof is fixed to the side surface 1 b of the outdoor unit 1 and the lower end portion thereof is projected from the lower surface of the outdoor unit 1. For example, the outdoor unit 11 can be loaded by forming a concave portion at the upper end of the support member 13 and forming a convex portion at the lower end.

First, as for the outdoor unit 11 installed in the lowest stage, the lower end of the support member 13 is installed on the rooftop 15 of a building, for example. And it positions by fitting the convex part currently formed in the support member 13 of the outdoor unit 11 to add to the concave part formed in the upper end.
With this configuration, when the outdoor unit 11 is added, it is only necessary to stack the outdoor unit 11 above the existing outdoor unit 11 one after another.
Therefore, since it is not the structure piled up along the support | pillar 8 with the fixed dimension, as long as conditions, such as intensity | strength and stability, are satisfy | filled, it can load as much as possible. Moreover, since it can load, without moving the piping and cable of the existing outdoor unit 11, installation work becomes easy.

Or you may comprise so that the outdoor unit 1 may be inserted from the lower stage of the mounting part 14, as shown in FIG. In this case, for example, the mounting unit 14 may be provided with a lift-up mechanism, and the outdoor unit 1 may be moved up and down sequentially by a jack or the like.
With this configuration, the outdoor unit 1 can be easily loaded up to the uppermost stage of the placement unit 14 without lifting. In addition, since work at high places can be eliminated, work can be performed safely and efficiently.

Moreover, as shown in FIG. 6, you may make it insert the said outdoor unit 11 from the bottom.
By configuring in this way, since the length of the support column 8 of the above-described embodiment has been determined in advance, the support member 13 can be configured to add the mounting portion 14 ′ and satisfy the above-described conditions. It becomes possible to load the outdoor unit 11 to the limit.
Therefore, more outdoor units 1 can be installed. Furthermore, since the work can be performed from below, the labor of the worker can be reduced.

Further, as shown in FIG. 7, the outdoor unit group 19 may be configured by loading the outdoor unit 1 on the mounting unit 17 with the side surface 1 b facing up. The placement portion 17 is configured according to the width dimension of the side surface 1b of the outdoor unit 1.
By configuring in this way, the space in the width direction of the placement portion 17 can be saved, so that many outdoor unit groups 19 can be aligned in the column direction. Moreover, it becomes effective when the installation space of the outdoor unit 1 is narrow.

Moreover, as shown in FIG. 8, the outdoor unit 30 may have a side surface 30b (depth dimension) shorter than the outdoor unit 1 of the above-described embodiment, and may be formed in a substantially square shape in front view. Specifically, the front surface 33 and the back surface 32 are formed in a substantially square shape, and four fans 10 are attached to the blow-out portion 35 provided on the front surface 33 in parallel in the vertical and horizontal directions. The placement unit 18 is installed according to the depth dimension of the side surface 30b of the outdoor unit 30 to constitute an outdoor unit group 36.
With this configuration, the space in the depth direction of the placement unit 18 can be saved. Therefore, the outdoor unit group 36 can be installed to face each other even in a narrow installation space without a depth, and the narrowing problem can be solved. Moreover, since the area of the front surface 33 and the back surface 32 is formed wider than the outdoor unit 1 of the embodiment described above, more air can be sucked and exhausted, and the heat dissipation efficiency can be improved.

Next, a second embodiment will be described with reference to FIGS.
Hereinafter, the same components as those of the first embodiment described above are denoted by the same reference numerals, description thereof is omitted, and differences will be mainly described.
In the second embodiment, the outdoor units 1, 1 ′ are installed with the front surfaces 3, 3 ′ side of the outdoor unit groups 7, 7 ′ facing each other. At this time, the outdoor units 1 and 1 ′ placed on the opposing outdoor unit groups 7 and 7 ′ are arranged so that their positional relationship is staggered (alternate) in the stacking direction. And the blank panel 12 (shielding panel) is installed between the upper and lower outdoor units 1, 1 '. The blank panel 12 is formed in, for example, a rectangular plate shape, and the column 8 positioned on the front surface 3, 3 ′ side of the outdoor unit 1, 1 ′ among the columns 8 supporting the outdoor unit 1, 1 ′. Between. A blank panel 12 is also provided in the gap between the lower-stage outdoor unit 1 and the rooftop 15 in the odd-numbered outdoor unit group 7. Further, above the uppermost outdoor unit 1, the outdoor unit 1 Two blank panels 12 are provided in the stacking direction.

In addition, the number of the blank panels 12 is not limited to the above, and may be provided so as to shield the air blown from the opposed outdoor units 1 and 1 ′. Further, the distance between the outdoor unit groups 7 and 7 ′ that are installed opposite to each other is determined by the air volume and speed of the air discharged by the fan 10, and further considers the reduction of the arrangement space. Yes.
As shown in FIG. 10, a plurality of these outdoor unit groups 7 and 7 ′ are arranged adjacent to each other as an outdoor unit row P and an outdoor unit row Q.

By comprising in this way, even if it installs facing back 2, 2 ', since the mutual exhaust direction shift | deviates, it can prevent that the blown-out air collides. Therefore, it is possible to prevent a decrease in fan capacity. Further, the blank panel 12 closes the gap between the upper and lower outdoor units 1 and 1 ′, and the air blown from the opposed outdoor units 1 and 1 ′ It is possible to prevent sneaking into the intake side.
Therefore, it is possible to prevent the exhaust from flowing into the intake portion, so that heat can be radiated effectively. Furthermore, by providing the outdoor unit groups 7 and 7 ′ with the back surfaces 2 and 2 ′ inward, noise to the vicinity can be reduced.

Next, another aspect of the outdoor unit in the present invention will be described. For example, in the outdoor units 1 and 1 ′ shown in FIGS. 1 and 9, the front surfaces 3 and 3 ′ including the blowing portions 5 and 5 ′ are provided in parallel with the back surfaces 2 and 2 ′. As shown, the blowout part 25 of the outdoor unit 20 may be configured to face obliquely upward. Specifically, the dimensions of the upper surface 20a and the lower surface 20c of the outdoor unit 20 in the longitudinal direction are different, and the lower surface 20c is formed longer than the upper surface 20a. And the blowing part 25 will be comprised diagonally upward by providing the front surface 23 so that the end of the longitudinal direction of an up-and-down surface may be aligned and the difference of the edge part made into the other end side may be connected.
This configuration can also be applied to the outdoor units 1 and 30 having the shapes shown in FIGS.

With this configuration, the air sucked from the suction portion is always blown obliquely upward from the blowout portion 25. Therefore, when the outdoor unit 20 is installed with the back surface 22 facing the exhaust, It is possible to prevent going directly to the neighborhood. Therefore, it is possible to reduce noise in the vicinity. In addition, when the front surface 23 is set to face, it is difficult for the exhausted air to flow into the gap between the upper and lower sides of the facing outdoor unit 20, so it is necessary to include the blank panel 12 as in the above-described embodiment. Disappear. Therefore, the outdoor units 20 can be stacked with high density, and the equipment cost can be reduced. Furthermore, since the exhaust of the outdoor unit 20 installed facing each other can be prevented from interfering with each other, it is possible to prevent a decrease in fan capacity.
Therefore, since it is not necessary to consider the positional relationship of the blowing part 25 of the opposing outdoor unit 20 at the time of installation, work time can be shortened.

In the above-described embodiment, after the outdoor unit group 6 is formed, the outdoor unit group 6 is arranged in a plane in an arbitrary place, but for example, a column is formed at a place where the outdoor unit group 6 is to be formed. 8 may be arranged in advance, and first, the outdoor unit 1 may be planarly arranged below each support column 8, and the outdoor unit 1 may be placed as needed from the second stage onward.
Moreover, although the said outdoor unit group 6 is installed so that other outdoor unit group 6 'may be opposed, it is not necessarily restricted to this, The said outdoor unit group 6 may be installed alone. Furthermore, the number of the fans 10 is not limited to the above, and may be appropriately installed so that the air in the outdoor unit 1 can be effectively discharged.

Furthermore, the condenser 9 installed inside the outdoor unit 1 may be installed in a square shape. That is, as shown in FIG. 12, the condenser 39 descends from the upper part of the front surface 3 of the outdoor unit 1 to the central part of the rear surface 2, bends at this central part, and further descends to the lower part of the front surface 3. Can be doubled as compared with the condenser 9 of the first embodiment. Alternatively, as shown in FIG. 13, the condenser 9 in the above-described embodiment may be bent from the substantially central portion of the condenser 9 without changing the heat exchange area and formed like a condenser 49. Good. By doing so, the depth dimension of the condenser 9 is reduced to approximately half, so that the entire outdoor unit 1 can be configured in a small size. Furthermore, the heat exchange efficiency equivalent to that of the first embodiment can be maintained.
In addition, you may arrange | position so that the bending part of these condensers 39 and 49 may come to the front surface 3 side. Further, instead of bending the condensers 39 and 49 as described above, a plurality of condensers may be combined.
Furthermore, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the gist of the present invention.

It is an oblique view which shows the outdoor unit group which concerns on 1st Embodiment in this invention. It is a whole oblique view which shows the example of installation of the outdoor unit group which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 1st Embodiment in this invention. It is an oblique view which shows the outdoor unit group which concerns on 2nd Embodiment in this invention. It is a whole oblique view which shows the example of installation of the outdoor unit group which concerns on 2nd Embodiment in this invention. It is an oblique view which shows the modification of the installation method of the outdoor unit which concerns on 2nd Embodiment in this invention. It is an oblique view which shows the other aspect of the heat exchanger in this invention. It is an oblique view which shows the other aspect of the heat exchanger in this invention. It is the oblique view shown about the example of installation of the conventional outdoor unit group.

Explanation of symbols

1, 1 ', 20, 30 Outdoor unit 1A, 1A' Outdoor unit main body 2, 2 ', 22, 32 Rear surface 3, 3', 23, 33 Front surface 5, 5 ', 25, 35 Outlet 6, 6', 7, 7 ', 36 Outdoor unit group 12 Blank panel (shielding panel)
14, 14 ', 17, 18 Mounting part 9, 9', 39, 49 Condenser (heat exchanger)

Claims (12)

    The outdoor unit body that has a suction part that sucks in air before cooling on the back side and a blowout part that discharges heat-exchanged air on the front side is configured to be able to be stacked vertically via the mounting part. An outdoor unit characterized by    The outdoor unit according to claim 1, wherein the blow-out portion is formed obliquely upward in the outdoor unit main body.     The outdoor unit according to claim 1 or 2, wherein a heat exchanger provided in the outdoor unit body is disposed obliquely with respect to an air introduction direction of the outdoor unit body.     The outdoor unit according to claim 3, wherein the heat exchanger is provided in a substantially square shape.     A method of installing a plurality of outdoor units having a suction portion on the back surface and having a blow-out portion on the front surface in order to blow out air sucked from the suction portion. A method of installing an outdoor unit, wherein a plurality of the units are stacked.     An installation method for an outdoor unit, wherein a plurality of placement units for stacking a plurality of outdoor units are arranged adjacent to each other, and the outdoor units are sequentially stacked on the placement units arranged in a row.     A method of installing an outdoor unit, wherein a plurality of the outdoor units are stacked in the vertical direction with the back surfaces aligned on the same side to constitute an outdoor unit group, and the outdoor unit groups are arranged adjacent to each other in a row.     A method of installing an outdoor unit, wherein a plurality of layers are stacked in a vertical direction with a back surface of the outdoor unit and a back surface of another outdoor unit facing each other.     The outdoor unit group is configured by stacking a plurality of the outdoor units in the vertical direction with the back side aligned on the same side, and the back side of the outdoor unit group and the back side of the other outdoor unit group are installed facing each other. A featured outdoor unit installation method.     A method of installing an outdoor unit, wherein a plurality of layers are stacked in a vertical direction with the front surface of the outdoor unit and the front surface of another outdoor unit facing each other.     In a state where the front face of the outdoor unit and the front face of another outdoor unit face each other, a plurality of layers are stacked so that the positional relationship of the opposed outdoor units is staggered in the vertical direction, and a shielding panel is provided between the upper and lower outdoor units. An installation method of an outdoor unit characterized by installing The outdoor unit is configured by stacking a plurality of outdoor units in the vertical direction with the back side aligned on the same side, and the front side is opposed to the outdoor unit group and the other outdoor unit group facing each other. A method of installing an outdoor unit, wherein the outdoor unit is arranged such that the positional relationship with the outdoor unit is staggered in the stacking direction and a shielding panel is installed between the upper and lower outdoor units.

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