JP6829086B2 - Arrangement structure of outdoor unit - Google Patents

Description

The present invention relates to an arrangement structure of outdoor units, and more particularly to an arrangement structure of a plurality of outdoor units.

Conventionally, for example, an air conditioner is arranged indoors in an apartment house, a business hotel, an office building, etc., and an outdoor unit of an air conditioner is arranged in a space such as a balcony. In such a case, the outdoor unit is arranged between the outer wall and the wall of the balcony arranged away from the outer wall.

The exhaust discharged from the exhaust port of the outdoor unit (low temperature exhaust in the case of heating operation, high temperature exhaust in the case of cooling operation) hits the wall of the balcony and wraps around the back side of the outdoor unit to improve the efficiency of air conditioning. It can cause a drop, the so-called short circuit. In order to deal with such a problem, a duct is attached to the exhaust port of the outdoor unit, and the exhaust discharged from the exhaust port of the outdoor unit is directly exhausted to the outside through the duct, or the wind direction is directed to the exhaust port of the outdoor unit. An adjusting plate is attached, and the exhaust gas discharged from the exhaust port of the outdoor unit is adjusted by the wind direction adjusting plate.

An outdoor unit provided with this type of wind direction adjusting plate is described in, for example, Japanese Patent Application Laid-Open No. 11-201542 (Patent Document 1).

The wind direction adjusting plate of the air conditioner outdoor unit described in Patent Document 1 has an outer frame attached to the air outlet of the air conditioner outdoor unit, and a plurality of thin plate-shaped blades arranged vertically in the outer frame. .. In the wind direction adjusting plate, each blade is formed in substantially the same shape in which the longitudinal orthogonal cross sections form an arc, and the inner surface of the arc is oriented diagonally upward at approximately the same angle, and the blades are adjacent to each other on the lower side. It is arranged so as to be closer to the outdoor unit side than the blades.

Then, in this type of wind direction adjusting plate, the wind direction of the exhaust gas from the wind outlet is adjusted upward by a plurality of thin plate-shaped blades. With such a configuration, the exhaust gas discharged from the exhaust port of the outdoor unit does not wrap around to the back side of the outdoor unit, and a gap formed between the blades, that is, a wide cross-sectional area of the flow path is formed, so that the outdoor unit It is said that it is possible to reduce the pressure loss at the air outlet.

Further, a configuration in which a plurality of outdoor unit units are arranged is described in Japanese Patent Application Laid-Open No. 2002-365118 (Patent Document 2).

The building air conditioner described in Patent Document 2 is a multi-unit in which one or more outdoor units and a plurality of indoor units having a larger number than the outdoor units are combined, and the outdoor units and the indoor units are connected to each other by a refrigerant pipe. Consists of. Then, an air-conditioning unit set composed of a combination of a plurality of multi-units is provided on each of a plurality of floors of the building.

Japanese Unexamined Patent Publication No. 11-201542 JP-A-2002-365118

However, although Patent Document 1 discloses that a wind direction adjusting plate is provided for one outdoor unit corresponding to an air conditioner to control the wind direction of the outdoor unit, control of the wind direction for a plurality of outdoor units is disclosed. No consideration is given to the relationship between. Further, there is a problem that the exhaust gas of the outdoor unit reaches the upper floor or the lower floor as it is and flows into the outdoor unit, so that the air conditioning efficiency is lowered.

Further, Patent Document 2 discloses the content of arranging a plurality of outdoor unit units, but does not describe the efficient exhaust by controlling the wind direction of the plurality of outdoor unit units.

Therefore, in view of such circumstances, it is an object of the present invention to provide an arrangement structure of an outdoor unit capable of improving the exhaust efficiency of the outdoor unit and preventing a decrease in the air conditioning efficiency.

The arrangement structure of the outdoor unit according to the present invention is a plurality of outdoor units arranged side by side along the outer wall surface between the outer wall, the wall arranged apart from the outer wall, and the outer wall and the wall. The plurality of outdoor units have a plurality of sets of outdoor unit pairs including a first outdoor unit and a second outdoor unit, and the first outdoor unit of the first outdoor unit pair and the said The second outdoor unit of the second outdoor unit pair facing the first outdoor unit is arranged so that its exhaust direction faces the direction orthogonal to the outer wall at a predetermined angle. It is characterized by.

According to the arrangement structure of the outdoor units having the above configuration, the plurality of outdoor units have a plurality of sets of outdoor unit pairs including the first outdoor unit and the second outdoor unit, and the first of the first outdoor unit pair. The outdoor unit of the above and the second outdoor unit of the second outdoor unit pair facing the first outdoor unit are arranged so that their exhaust directions face each other at a predetermined angle with respect to the direction orthogonal to the outer wall. Therefore, the exhaust gas discharged from the first outdoor unit of the first outdoor unit pair and the second outdoor unit of the second outdoor unit pair collide with each other, and the collision causes an upward or downward force. Acts to generate an updraft or downdraft. In the case of heating operation, an updraft is generated, and in the case of cooling operation, a downdraft is generated.

Then, the exhaust gas that has become an updraft or a downdraft is discharged to the outside from the wall, and is discharged as it is ascending or descending. As a result, the exhaust gas discharged from the first outdoor unit of the first outdoor unit pair and the second outdoor unit of the second outdoor unit pair is not taken into the outdoor unit again through the wall. By controlling the wind direction with respect to the plurality of outdoor units, the exhaust efficiency of the outdoor units can be improved, and the decrease in air conditioning efficiency can be prevented.

As one aspect of the present invention, the predetermined angle is preferably in the range of 45 degrees to 90 degrees with respect to the direction orthogonal to the outer wall.

According to the arrangement structure of the outdoor unit having the above configuration, since the predetermined angle is in the range of 45 degrees to 90 degrees with respect to the direction orthogonal to the outer wall, the first outdoor unit and the first outdoor unit of the first outdoor unit pair The exhaust discharged from the second outdoor unit of the second outdoor unit pair is controlled in the range of 45 degrees to 90 degrees with respect to the direction orthogonal to the outer wall, and generates an updraft or a downdraft more efficiently. As a result, the exhaust efficiency of the outdoor unit can be further improved, and the decrease in air conditioning efficiency can be further prevented.

As another aspect of the present invention, it is preferable that the first outdoor unit pair and the adjacent second outdoor unit pair are arranged at a predetermined interval of 3.5 m or more.

For example, in the average case of an office building, the distance from the outer wall to the wall is 1.2 m, and the air volume of the exhaust gas discharged from the indoor unit is 4140 m ³ / h. In such a case, when the first outdoor unit pair and the adjacent second outdoor unit pair are arranged at a predetermined interval of 3.5 m or more, the first outdoor unit pair and the second outdoor unit pair are arranged. The exhaust gas discharged from the machine pair is not taken into the outdoor unit again through the wall, the exhaust efficiency of the outdoor unit can be further improved, and a decrease in air conditioning efficiency can be further prevented.

As another aspect of the present invention, it is preferable that the two outdoor units in each outdoor unit pair are arranged at a distance of 0.1 m or more.

According to the arrangement structure of the outdoor units having the above configuration, the two outdoor units in each outdoor unit pair are arranged at a distance of 0.1 m or more, so that the exhaust gas discharged from the two outdoor units interferes with each other. There is no.

As still another aspect of the present invention, a plurality of flooring materials provided at intervals in the vertical direction between the outer wall and the wall are provided, and the outdoor unit pair is arranged on each flooring material, and each floor is provided. It is preferable that the material is configured to be breathable and the opening ratio of the floor surface is in the range of 20 to 80%.

According to the arrangement structure of the outdoor unit having the above configuration, a plurality of floor materials provided at intervals in the vertical direction are provided between the outer wall and the wall, and an outdoor unit pair is arranged on each floor material, and each floor. Since the material is configured to be breathable and the floor opening ratio is in the range of 20 to 80%, the first outdoor unit of the first outdoor unit pair and the second outdoor unit of the second outdoor unit pair. A part of the exhaust that is discharged from the machine and becomes an updraft or a downdraft does not stay in the space between the outer walls, but goes up and down through a plurality of flooring materials provided at intervals in the vertical direction. You can get out in the direction. Thereby, the air conditioning efficiency can be further improved.

As yet another aspect of the present invention, it is preferable that the plurality of sets of outdoor unit pairs are arranged vertically and horizontally.

According to the arrangement structure of the outdoor units having the above configuration, since the plurality of sets of outdoor unit pairs are arranged vertically and horizontally, the exhaust gas is discharged from the plurality of sets of outdoor unit pairs and becomes an updraft or a downdraft. A part of the above can be efficiently removed in the vertical direction through a plurality of flooring materials provided at intervals in the vertical direction without being interfered by a plurality of pairs of outdoor units. As a result, the influence on the thermal efficiency of the building can be reduced.

As yet another aspect of the present invention, the exhaust of each outdoor unit of the outdoor unit pair is exhausted toward the wall, and the exhaust direction of the outdoor unit is directed to the exhaust port of the outdoor unit in a direction orthogonal to the outer wall. On the other hand, it is preferable that a wind direction adjusting plate that can be arranged so as to face each other at the predetermined angle is provided.

According to the arrangement structure of the outdoor units having the above configuration, the exhaust of each outdoor unit of the outdoor unit pair is exhausted toward the wall, and the exhaust direction of the exhaust port of the outdoor unit is directed to the direction orthogonal to the outer wall. Since the wind direction adjustment plate that can be arranged so as to face each other at a predetermined angle is provided, the first outdoor unit of the first outdoor unit pair and the second outdoor unit of the second outdoor unit pair are directed toward the wall. The exhausted exhaust is more properly faced by the wind direction adjusting plate, and by generating an updraft or a downdraft more efficiently, the wind direction with respect to a plurality of outdoor units is controlled more efficiently, and the outdoor unit's exhaust gas is exhausted. The exhaust efficiency can be further improved, and the decrease in air conditioning efficiency can be further prevented.

In yet another aspect of the invention, the wall preferably comprises a solar panel.

Solar panels may be installed on the outer wall or wall. The solar panel becomes extremely hot due to the irradiation of sunlight, and the power generation efficiency often deteriorates.

In the arrangement structure of the outdoor unit of the present invention, the wall includes a solar panel. According to the arrangement structure of the outdoor units having the above configuration, the exhaust gas exhausted from the plurality of sets of outdoor unit pairs toward the wall generates an updraft or a downdraft as described above, and becomes an updraft or a downdraft. The exhaust gas will be discharged as it is without hitting the wall. Therefore, the solar panel is efficiently cooled, and the power generation efficiency is improved.

As described above, according to the arrangement structure of the outdoor unit of the present invention, the exhaust efficiency of the outdoor unit can be improved, and the decrease in the air conditioning efficiency can be prevented.

It is a figure which shows the appearance that the arrangement structure of the outdoor unit which concerns on one Embodiment of this invention is arranged in a building, and a part of the exhaust of the outdoor unit pair goes to the upper floor. It is an enlarged view which shows the outline of the arrangement structure of the outdoor unit which concerns on one Embodiment of this invention. It is the schematic of the wind direction adjustment plate installed in the arrangement structure of the outdoor unit which concerns on one Embodiment of this invention.

Hereinafter, the outline of the arrangement structure of the outdoor unit according to the embodiment of the present invention will be described with reference to the accompanying drawings.

The arrangement structure of the outdoor unit according to the present embodiment is for being installed on, for example, a balcony having an outer wall and a wall arranged apart from the outer wall, a double-skin façade, or the like. Examples of buildings having such balconies include apartment houses, business hotels, office buildings, and the like.

As shown in FIG. 1, the arrangement structure 100 of the outdoor unit according to the present embodiment is installed in a building 200 having a plurality of floors. As shown in FIG. 2, the arrangement structure 100 of the outdoor unit is arranged side by side along the outer wall surface 10a between the outer wall 10, the wall 11 arranged apart from the outer wall 10, and the outer wall 10 and the wall 11. It is equipped with a plurality of outdoor units.

In the present embodiment, the plurality of outdoor units has a plurality of pairs of outdoor units including a first outdoor unit and a second outdoor unit.

More specifically, as shown in FIGS. 1 and 2, a plurality of sets of outdoor unit pairs of the outdoor unit arrangement structure 100 include a first outdoor unit pair 12 and a second outdoor unit pair 13. Be prepared. The first outdoor unit pair 12 includes a first outdoor unit 12a and a second outdoor unit 12b. The second outdoor unit pair 13 includes a first outdoor unit 13a and a second outdoor unit 13b.

In the present embodiment, the first outdoor unit pair 12 and the adjacent second outdoor unit pair 13 are arranged at a predetermined interval of 3.5 m or more.

For example, in the average case of an office building, the distance from the outer wall to the wall is 1.2 m, and the air volume of the exhaust gas discharged from the indoor unit is 4140 m ³ / h. In such a case, when the first outdoor unit pair 12 and the second outdoor unit pair 13 are arranged at a predetermined interval of 3.5 m or more, the first outdoor unit pair 12 and the second outdoor unit pair 12 The exhaust gas discharged from the outdoor unit pair 13 is not taken into the first outdoor unit pair 12 and the second outdoor unit pair 13 again through the wall 11.

In the present embodiment, the two outdoor units 12a, 12b (13a, 13b) in each outdoor unit pair 12 (13) are arranged so as to be separated by 0.1 m or more.

In the present embodiment, the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 facing the first outdoor unit 12a have their exhaust directions. Are arranged so as to face each other at a predetermined angle with respect to the direction orthogonal to the outer wall 10.

In the present embodiment, the predetermined angle is in the range of 45 degrees to 90 degrees with respect to the direction orthogonal to the outer wall 10.

Further, as shown in FIG. 2, in the first outdoor unit pair 12, the first outdoor unit 12a and the second outdoor unit 12b are adjacent to each other with the exhaust directions opposite to each other in the direction along the outer wall 10. Will be installed. Further, in the second outdoor unit pair 13, the first outdoor unit 13a and the second outdoor unit 13b are installed adjacent to each other with the exhaust direction opposite to that in the direction along the outer wall 10.

By doing so, for example, the balcony area formed between the outer wall 10 and the wall 11 can be effectively utilized, and the first outdoor unit 12a or the second outdoor unit pair 13 of the first outdoor unit pair 12 can be effectively utilized. When any of the second outdoor units 13b of the above is stopped, the first outdoor unit 12a or the second outdoor unit 13b becomes an obstacle, and the adjacent first outdoor unit pair 12 or the second Exhaust flowing from the outdoor unit pair 13 can be prevented.

As shown in FIGS. 1 and 2, in the present embodiment, a plurality of flooring materials 14 and 15 provided at intervals in the vertical direction are provided between the outer wall 10 and the wall 11. A first outdoor unit pair 12 and a second outdoor unit pair 13 are arranged on each floor material 14 (15). Each floor material 14 (15) is configured to be breathable, and the opening ratio of the floor surface 14a (15a) is in the range of 20 to 80%.

In the present embodiment, the plurality of sets of outdoor unit pairs 12 and 13 are arranged vertically and horizontally. In addition, "a plurality of sets of outdoor unit pairs 12 and 13 are arranged vertically and horizontally" means that "a plurality of sets of outdoor unit pairs 12 and 13 are arranged at the same position in the vertical direction." , They are placed in the same position in the left-right direction. "

As shown in FIGS. 2 and 3, in the first outdoor unit pair 12, the exhaust of the first outdoor unit 12a and the second outdoor unit 12b is exhausted laterally along the outer wall 10, and the first The exhaust ports of the outdoor unit 12a and the second outdoor unit 12b are provided with wind direction adjusting plates 16 and 16 which can be arranged so that the exhaust direction faces the direction orthogonal to the outer wall 10 at a predetermined angle. .. As shown in FIG. 3, the wind direction adjusting plates 16 and 16 are vertically spaced from the outer frame 16a that can be attached to the air outlets of the first outdoor unit 12a and the second outdoor unit 12b. It has a plurality of plate-shaped members 16b provided in the above. In addition, in FIG. 2 and FIG. 3, the arrow indicates the direction of the exhaust gas discharged from the first outdoor unit 12a and the second outdoor unit 12b.

That is, the wind direction adjusting plate 16 is installed so that the exhaust of the first outdoor unit 12a and the second outdoor unit 12b blows out in the opposite direction along the outer wall 10.

By doing so, the exhaust gas discharged from the first outdoor unit 12a and the second outdoor unit 12b is discharged in the opposite direction at a predetermined angle by the wind direction adjusting plate 16, and each exhaust gas is discharged to the adjacent outdoor unit. By colliding with the exhaust of the second outdoor unit and the first outdoor unit of the aircraft pair, an upward or downward force acts to generate an updraft or a downdraft.

As shown in FIGS. 2 and 3, in the second outdoor unit pair 13, the exhaust of the first outdoor unit 13a and the second outdoor unit 13b is exhausted laterally along the outer wall 10, and the first The exhaust ports of the outdoor unit 13a and the second outdoor unit 13b are provided with wind direction adjusting plates 17 and 17 which can be arranged so that the exhaust direction faces the direction orthogonal to the outer wall 10 at a predetermined angle. .. As shown in FIG. 3, the wind direction adjusting plates 17 and 17 are vertically spaced from the outer frame 17a that can be attached to the air outlets of the first outdoor unit 13a and the second outdoor unit 13b. It has a plurality of plate-shaped members 17b provided in the above. Similarly to the above, in FIGS. 2 and 3, the arrows indicate the directions of the exhaust gas discharged from the first outdoor unit 13a and the second outdoor unit 13b.

That is, the wind direction adjusting plate 17 is arranged so that the exhaust of the first outdoor unit 13a and the second outdoor unit 13b is blown out in the opposite direction along the outer wall 10.

By doing so, the exhaust gas discharged from the first outdoor unit 13a and the second outdoor unit 13b is discharged in the opposite direction at a predetermined angle by the wind direction adjusting plate 17, and each exhaust gas is discharged to the adjacent outdoor unit. By colliding with the exhaust of the second outdoor unit and the first outdoor unit of the aircraft pair, an upward or downward force acts to generate an updraft or a downdraft.

As shown in FIG. 2, in this embodiment, the wall 11 includes a solar panel 18. For example, solar panels may be installed on the outer walls and walls of buildings such as apartment houses, business hotels, and office buildings. The solar panel becomes extremely hot due to the irradiation of sunlight, and the power generation efficiency often deteriorates.

In the present embodiment, the exhaust gas exhausted from the first outdoor unit pair 12 and the second outdoor unit pair 13 toward the wall generates an updraft or a downdraft as described above, and the updraft or the downdraft is generated. The exhaust gas that has become a downdraft is discharged to the outside from the wall 11 and is discharged as it is by rising or falling. Therefore, the solar panel 18 is efficiently cooled, and the power generation efficiency is improved.

Next, the present invention will be described in more detail with reference to examples, but the present invention is not limited thereto.

(Analysis of airflow of exhaust gas discharged from the outdoor unit using computational fluid dynamics analysis)
The inventors analyzed the influence of a short circuit on the arrangement structure of an outdoor unit by using a computational fluid dynamics (CFD) analysis (hereinafter referred to as CFD analysis).

CFD analysis is a numerical analysis and simulation method for observing the flow of a fluid by solving an equation related to the motion of the fluid with a computer.

In this example, the influence of the short circuit on the following outdoor unit arrangement structures (No. 1 to No. 5) was analyzed by CFD analysis using a general-purpose thermo-fluid analysis tool. The calculation settings such as how to cut the mesh were determined by the balance between the calculation system and the calculation time.

(Analysis conditions and model)
A total of 18 outdoor units shown in Tables 1 and 2 below were installed on the balconies on each floor of the building 200, and the layout structure of the outdoor units was changed under the cooling rating conditions (outside air 35 ° C) and no wind. Then, the analysis was performed under the following conditions.

Table 1 below describes the analysis conditions such as the outdoor unit pattern, the number of outdoor units arranged, the exhaust blowing direction, and the opening ratio of the balcony floor in the outdoor unit arrangement structure (No. 1 to No. 8) analyzed in this embodiment. Shown in.

室外機のショートサーキットによる冷房運転効率の低下を５％以下にするには、室外機の機器特性により、室外機の吸込み温度を外気温度に比し＋２℃以下にする必要がある。本実施例においては、複数の室外機を用いるため、各室外機の吸込み温度が、外気温度に比し＋２℃以下であることを目標値とする。数値解析による室外機の吸込み温度の結果を、以下の表２に示す。なお、表１に示す室外機の配置構造（Ｎｏ．１〜Ｎｏ．８）が、表２に示すＮｏ．１〜Ｎｏ．８に対応している。

In order to reduce the cooling operation efficiency due to the short circuit of the outdoor unit to 5% or less, it is necessary to set the suction temperature of the outdoor unit to + 2 ° C or less compared to the outside air temperature due to the equipment characteristics of the outdoor unit. In this embodiment, since a plurality of outdoor units are used, the target value is that the suction temperature of each outdoor unit is + 2 ° C. or less with respect to the outside air temperature. The results of the suction temperature of the outdoor unit by numerical analysis are shown in Table 2 below. The arrangement structure (No. 1 to No. 8) of the outdoor unit shown in Table 1 is the No. 1 shown in Table 2. 1-No. It corresponds to 8.

（解析結果）
表１に示すように、室外機の配置構造Ｎｏ．１（パターンＡ）（以下、Ｎｏ．１という）では、床の開口率が８０％のバルコニーに、１台の室外機を配置し、正面からの吹出し方向で排気を行った。

(Analysis result)
As shown in Table 1, the arrangement structure No. of the outdoor unit. In No. 1 (Pattern A) (hereinafter referred to as No. 1), one outdoor unit was arranged on a balcony having an opening ratio of 80% on the floor, and exhaust was performed in the blowing direction from the front.

As shown in Table 2, No. In No. 1, the average suction temperature was 39.0 ° C., and the target value (hereinafter referred to as the target value) that the suction temperature of the outdoor unit was + 2 ° C. or lower with respect to the outside air temperature was not achieved.

The reason why the average suction temperature increased was that the exhaust gas blown out from the outdoor unit hit the wall of the balcony and the outdoor unit sucked in the exhaust gas again, causing a short circuit (factor a), and the outdoor installed on the balcony on the upper floor. It is probable that this is because the aircraft sucked in the exhaust gas from the outdoor unit installed on the balcony on the lower floor (factor b).

Therefore, No. In 2, as a measure against the short circuit, a wind direction adjustment plate was attached to the outlet of the outdoor unit. The wind direction adjusting plate can be freely attached in the vertical and horizontal directions of the outlet of the outdoor unit. As shown in Table 1, No. In 2, the wind direction adjusting plate was attached upward (up 45 degrees).

As shown in Table 2, No. In No. 2, the average suction temperature was 36.7 ° C., and the above target value was achieved. The above factor a was improved by attaching the wind direction adjusting plate, but the above factor b was not improved because the wind direction adjusting plate was attached upward, and the suction temperature of the upper floor was high.

As a means for improving factor b, it is conceivable to reduce the opening ratio of the balcony floor. Therefore, as shown in Table 1, No. In No. 3, the analysis was performed with the opening ratio of the balcony floor set to 80% to 20%.

As shown in Table 2, No. In No. 3, the average suction temperature was 37.0 ° C. The temperature was slightly higher than the result of 2 (36.7 ° C.). The cause is that factor b has been improved, but factor a has deteriorated.

As a means for improving factor b, it is conceivable to reduce the air volume of the upward exhaust gas from the outdoor unit. Therefore, as shown in Table 1, No. In No. 4, the wind direction adjusting plate was installed sideways (45 degrees to the right) and the analysis was performed.

As shown in Table 2, No. In No. 4, the average suction temperature was 37.3 ° C., and the target value was not achieved, but the factor b was improved. The reason why the average suction temperature was high was that the multiple outdoor units each sucked in the warm air blown from the adjacent outdoor unit, and the suction temperature of the outdoor unit installed at the end became high ( It is considered that the factor c).

As a means for improving the factor c, it is conceivable to alternately arrange the outdoor unit that blows out to the right and the outdoor unit that blows out to the left. Therefore, No. In No. 5, the outdoor unit blowing to the right and the outdoor unit blowing to the left were alternately arranged (45 degrees to the left and right), and the analysis was performed.

As shown in Table 2, No. In No. 5, the average suction temperature was 36.8 ° C., and the target value was achieved. However, a short circuit occurred at a place where the exhaust gas blown from the adjacent outdoor unit collided.

As a means for improving the short circuit at the place where the exhaust gas blown from the adjacent outdoor unit collides, it is conceivable to arrange the two outdoor units as a pair. Therefore, No. In No. 6, two outdoor units were arranged as a pair and analyzed.

As shown in Table 2, No. In No. 6, the average suction temperature was 35.8 ° C., the target value was achieved, and the best result was obtained. No. The reason why the good result was obtained in 6 is that the two outdoor units were made into a pair and the heat exhaust direction of each outdoor unit was set in the opposite direction along the outer wall, so that the air was blown out from the adjacent outdoor unit. The exhaust is less likely to collide and the shot circuit is less likely to occur (factor d), and because the wind direction adjustment plate is provided, the exhaust blown from the outdoor unit is exhausted sideways and does not hit obstacles, and the shot circuit is It is difficult to generate the exhaust gas (factor e), and it is difficult for the outdoor unit on the upper floor to suck the exhaust gas of the outdoor unit on the lower floor (factor f).

As a means for further improving the factor f, as shown in Table 1, the analysis was performed with the floor opening ratio set to 80% to 20% (No. 7).

As shown in Table 2, No. In No. 7, the average suction temperature was 36.0 ° C., and the target value was achieved. The result was slightly worse than 6. As the factor, No. Similar to No. 3, it is considered that the high temperature exhaust gas blown out from the outdoor unit hits the wall of the balcony and the outdoor unit sucks in the high temperature exhaust gas again, causing a short circuit (factor a).

In addition, as shown in Table 1, NO. The same analysis was performed by halving the distance between adjacent outdoor units in No. 6 (No. 8).

As shown in Table 2, No. In No. 8, the average suction temperature was 38.3 ° C., and the target value was not achieved. No. It was found that when the outdoor units are arranged as a set of two as in No. 6, it is necessary to take a sufficient distance between adjacent outdoor units.

In this embodiment, the exhaust efficiency of the outdoor unit during the cooling operation was analyzed, but the same analysis can be performed for the exhaust efficiency of the outdoor unit during the heating operation.

As described above, according to the arrangement structure 100 of the outdoor unit according to the present embodiment, the second of the first outdoor unit 12a and the second outdoor unit pair 13 of the first outdoor unit pair 12 during the cooling operation. The exhaust gas discharged from the outdoor unit 13b collides with each other, and when they collide with each other, an upward force acts to generate an updraft.

Then, the exhaust gas that has become an updraft is discharged to the outside from the wall 11 and is discharged as it is. As a result, the exhaust gas discharged from the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 is taken into the outdoor unit again through the wall 11. Therefore, by controlling the wind direction for a plurality of pairs of outdoor units, the exhaust efficiency of the outdoor units can be improved and the decrease in air conditioning efficiency can be prevented.

Further, the exhaust gas discharged from the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 is 45 degrees to the direction orthogonal to the outer wall. Since it is controlled in the range of 90 degrees, the exhaust efficiency of the outdoor unit can be further improved by generating the updraft more efficiently, and the decrease in the air conditioning efficiency can be further prevented.

Further, when the first outdoor unit pair 12 and the adjacent second outdoor unit pair 13 are arranged at a predetermined interval of 3.5 m or more, the first outdoor unit of the first outdoor unit pair 12 is arranged. The exhaust gas discharged from the second outdoor unit 13b of the machine 12a and the second outdoor unit pair 13 does not interfere with each other and is not taken into the outdoor unit again through the wall 11 of the outdoor unit. The exhaust efficiency can be further improved, and the decrease in air conditioning efficiency can be further prevented.

Further, when the two outdoor units in each outdoor unit pair 12 (13) are arranged at a distance of 0.1 m or more, the exhaust gas discharged from the two outdoor units does not interfere with each other.

Further, a plurality of floor materials 14 and 15 provided at intervals in the vertical direction between the outer wall 10 and the wall 11 are provided, and outdoor unit pairs 12 and 13 are arranged on each floor material 14 (15). Since each floor material 14 (15) is configured to be breathable and the opening ratio of the floor surface is in the range of 20 to 80%, the first outdoor unit 12a and the second outdoor unit 12a of the first outdoor unit pair 12 A part of the exhaust that is discharged from the second outdoor unit 13b of the outdoor unit pair 13 and becomes an updraft is provided not only in the space between the outer wall 10 and the wall 11 but also at an upward interval. It can be pulled out upward through a plurality of floor materials 14, 15 ... As a result, it is possible to prevent the space between the outer wall 10 and the wall 11 from becoming hot, and it is possible to improve the air conditioning efficiency.

Further, a part of the exhaust gas discharged from the plurality of sets of outdoor unit pairs 12 and 13 and becoming an updraft is provided at intervals in the upward direction without being interfered with by the plurality of sets of outdoor unit pairs 12 and 13. It can be efficiently pulled out upward through the plurality of flooring materials 14, 15 ... As a result, it is possible to prevent the space between the outer wall 10 and the wall 11 from becoming hot, and it is possible to improve the air conditioning efficiency.

Further, the exhaust gas exhausted from the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 toward the wall 11 is exhausted by the wind direction adjusting plates 16 and 17. By facing more appropriately and generating an updraft more efficiently, the wind direction to multiple outdoor units can be controlled more efficiently, the exhaust efficiency of the outdoor units can be further improved, and the air conditioning efficiency can be improved. The decrease can be further prevented.

Further, the exhaust gas exhausted from the plurality of sets of outdoor unit pairs 12 and 13 generates an updraft as described above, and the exhaust gas that has become an updraft is discharged as it is without hitting the wall 11. .. Therefore, the power generation efficiency of the solar panel 18 is good.

It should be noted that the arrangement structure of the outdoor unit of the present invention is not limited to the above embodiment, and of course, it can be appropriately changed without departing from the gist of the present invention.

In the above embodiment, the plurality of outdoor units have a plurality of sets of outdoor unit pairs in which two units are one set, but the present invention is not limited to this, and for example, the outdoor unit is only one unit or is outdoors. The machine may be an outdoor unit pair consisting of three or more units.

In the above embodiment, the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 facing the first outdoor unit 12a have their exhaust directions. Are arranged so as to face each other at a predetermined angle with respect to the direction orthogonal to the outer wall 10, but the present invention is not limited to this.

For example, the first outdoor unit 12a of the first outdoor unit pair 12 and the second outdoor unit 13b of the second outdoor unit pair 13 facing the first outdoor unit 12a have their exhaust directions set to the outer wall. It may be arranged so as to face 10 at a predetermined angle.

In the above embodiment, the predetermined angle is in the range of 45 degrees to 90 degrees with respect to the direction orthogonal to the outer wall 10, but is not limited thereto. In short, the predetermined interval may be an interval that can efficiently adjust the exhaust of a plurality of outdoor units, further improve the exhaust efficiency of the outdoor units, and further prevent a decrease in air conditioning efficiency. ..

In the above embodiment, the first outdoor unit pair 12 and the adjacent second outdoor unit pair 13 are arranged at a predetermined interval of 3.5 m or more, but the present invention is not limited to this. .. For example, it can be appropriately changed depending on the distance from the outer wall 10 to the wall 11, the size of the outdoor unit, the air volume of the exhaust gas discharged from the indoor unit, and the like. In short, the predetermined interval may be an interval that can efficiently adjust the exhaust of a plurality of outdoor units, further improve the exhaust efficiency of the outdoor units, and further prevent a decrease in air conditioning efficiency. ..

In the above embodiment, the two outdoor units in each outdoor unit pair 12 (13) are arranged at a distance of 0.1 m or more, but the present invention is not limited to this. For example, it can be appropriately changed depending on the distance from the outer wall 10 to the wall 11, the size of the outdoor unit, the air volume of the exhaust gas discharged from the indoor unit, and the like. The point is that the predetermined interval is such that the exhaust of a plurality of outdoor units can be efficiently adjusted, the exhaust efficiency of the outdoor units can be further improved, and the decrease in air conditioning efficiency can be further prevented. Good.

In the above embodiment, each floor material 14 (15) is configured to be breathable, and the opening ratio of the floor surface 14a (15a) is in the range of 20 to 80%, but is not limited thereto. In short, the aperture ratio of the floor surface 14a (15a) may be within a range that can efficiently control the exhaust of a plurality of outdoor units and does not affect the exhaust control of the outdoor units on the upper and lower floors. ..

In the above embodiment, the wind direction adjusting plates 16 and 16 are provided in the outer frame with an outer frame 16a that can be attached to the air outlets of the first outdoor unit 12a and the second outdoor unit 12b at intervals in the vertical direction. It has, but is not limited to, a plurality of plate-shaped members 16b.

In short, the wind direction adjusting plates 16 and 16 can be freely attached in the vertical and horizontal directions of the outlet of the outdoor unit, and more efficient updraft or downdraft from the exhaust discharged from a plurality of outdoor unit pairs. The configuration may be such that the exhaust efficiency of the outdoor unit can be further improved and the decrease in the air conditioning efficiency can be further prevented. The same applies to the wind direction adjusting plates 17 and 17.

In the above embodiment, the wall 11 includes, but is not limited to, the solar panel 18. For example, the wall 11 may be a waist wall or the like.

In the above embodiment, the building 200 is, but is not limited to, an apartment house, a business hotel, an office building, etc., the outer wall 10, the wall 11 arranged apart from the outer wall 10, and the outer wall. Any building may be a building in which a plurality of outdoor units arranged side by side along the outer wall surface 10a are provided between the 10 and the wall 11.

The arrangement structure of the outdoor unit of the present invention is effectively applied to the outdoor unit of the air conditioner arranged in a building such as an apartment house, a business hotel, or an office building.

10 outer wall, 10a outer wall surface, 11 wall, 12 first outdoor unit pair, 12a first outdoor unit, 12b second outdoor unit, 13 second outdoor unit pair, 13a first outdoor unit, 13b second Outdoor unit, 14,15 multiple floor materials, 14a, 15a floor surface, 16,17 wind direction adjustment plate, 16a, 17a outer frame, 16b, 17b plate-shaped member, 18 solar panel.

Claims (6)

The outer wall of a multi-storey building and
On each floor of the building, a waist wall provided in parallel with a distance along the outer wall ,
It is an arrangement structure of an outdoor unit including a plurality of outdoor units arranged between the outer wall and the waist wall .
The arrangement structure of the outdoor unit is
On each floor of the building, a first outdoor unit pair and a second outdoor unit pair arranged adjacent to each other are provided.
The first outdoor unit pair includes a first outdoor unit and a second outdoor unit arranged adjacent to each other.
The second outdoor unit pair includes a first outdoor unit and a second outdoor unit arranged adjacent to each other.
The exhaust ports of the first outdoor unit and the second outdoor unit in the first outdoor unit pair are provided with wind direction adjusting plates for directing the exhaust direction away from each other.
The exhaust ports of the first outdoor unit and the second outdoor unit in the second outdoor unit pair are provided with wind direction adjusting plates for directing the exhaust direction away from each other.
The first pair of outdoor units located on the upper and lower floors are aligned in the vertical direction so that the positions in the horizontal direction are the same.
The second pair of outdoor units located on the upper and lower floors are aligned in the vertical direction so that the positions in the horizontal direction are the same.
The second outdoor unit of the first outdoor unit pair and the first outdoor unit of the second outdoor unit pair are located adjacent to each other, and the air flows discharged from the respective exhaust ports collide with each other. An arrangement structure of an outdoor unit , characterized in that an ascending or descending airflow is generated by being arranged so as to perform . The wind direction adjusting plates provided on the first and second outdoor units are
The arrangement structure of the outdoor unit according to claim 1, wherein the outdoor unit is adjusted so as to discharge air at an angle of 45 to 90 degrees with respect to a direction orthogonal to the outer wall. The arrangement structure of the outdoor unit according to claim 1 or 2, wherein the first outdoor unit pair and the second outdoor unit pair are arranged at a distance of 3.5 m or more. First and second outdoor unit in each of the first and second outdoor unit pair are spaced apart more than 0.1 m, the arrangement of the outdoor unit according to any one of claims 1 to 3 Construction. Further comprising a flooring that provided between said outer wall spandrel,
The upper surface of the flooring is disposed before outdoor unit pair,
The flooring is configured to be breathable
The arrangement structure of the outdoor unit according to any one of claims 1 to 4, wherein the opening ratio of the floor material is in the range of 20 to 80%. The arrangement structure of the outdoor unit according to any one of claims 1 to 5 , wherein the waist wall includes a solar panel.

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