JP2008267684A - Function-improving installation structure of air conditioner outdoor unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide function-improving installation structure of an air conditioner outdoor unit, capable of improving heat exchanging function in the air conditioner outdoor unit and improving the cooling efficiency of an air conditioner. <P>SOLUTION: The upper part and sides of the air conditioner outdoor unit 10, installed in front of an outer wall of a building, is surrounded by plants 14 cultivated in a cultivation container 12, by disposing the cultivation container 12 at each of the upper, left, and right sides of the air conditioner outdoor unit 10; while as the cultivation container 12, one having a cultivation bed part 34 for storing potting compost 32 and a water retaining tank part 38, disposed below the cultivation bed part 34 for storing water 36 supplied to the plants 14 grown in the cultivation bed part 34, is used. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an installation structure of an air conditioner outdoor unit capable of improving the function of the air conditioner outdoor unit.

  In recent years, global warming has progressed, and drought, heavy rain, and long rain due to abnormal weather have frequently occurred in various places. In urban areas, the heat island phenomenon has become a problem, which has led to a vicious cycle of accelerating power consumption of air conditioners in companies and homes, and artificial exhaust heat from air conditioners further promoting temperature rise. In addition, the increase in power consumption of air conditioners is an important problem as it is expected that it will be difficult to acquire energy in the future.

  Urban greening, including rooftop greening and wall greening, is being promoted as a measure to solve these problems. However, in urban areas, there are few soils for planting greening plants, and there are many concrete and asphalt. In addition, due to the heat island phenomenon, the temperature is very high and the dryness is severe, so that the greening plants that can be planted are limited and the landscape is damaged. In order to overcome the conditions where there is little land to plant, wall greening that can be planted three-dimensionally in a small amount of land is considered an excellent system, but in order to actually plant, concrete or Preparations such as removing asphalt, exposing the soil, and replacing it with soil suitable for planting are necessary, and even preparation requires considerable costs. In addition, in the current wall greening, there are problems such as slow growth of planted plants, taking time for greening, and unevenness in the greening surface.

  For this reason, panel-type greening is now the mainstream. However, in the panel system, the types of plants are limited. Lawns and moss are often used, but they die when they boil or bald and damage the landscape. Further, in the panel system, since hardware is often used for the base, it is very dangerous if the panel falls due to a typhoon or the like.

  By the way, more than 80% of plants are composed of water. Water is very important for the growth of plants, and the water absorbed by the plants evaporates from the leaves of the plants, and the heat of vaporization (evaporation) Cooling the atmosphere using (latent heat) greatly helps to alleviate the heat island phenomenon. To increase the cooling effect using the heat of vaporization due to the transpiration of plants, it is extremely effective to grow plants with a high transpiration capacity. Need to give. However, since the amount of water retained in the soil is as low as about 20%, sufficient water cannot be given at one time, and if frequent irrigation is neglected, the soil tends to dry. And when water is insufficient, the growth of the plant is hindered by water stress, the speed of greening becomes slow, the greening surface becomes uneven, and the plant dies. For this reason, it is difficult to cultivate plants with high transpiration ability where soil is easily dried, and plants with low transpiration ability are cultivated as greening plants.

  Under such circumstances, the present inventors focused on air conditioners that contribute to the heat island phenomenon, and studied various measures for reducing energy consumption, reducing artificial exhaust heat, and reducing energy consumption. It is.

JP 2005-168370 A Utility Model Registration No. 3128320

  Here, the present invention has been made in the background as described above, and the problem to be solved is to improve the heat exchange function of the air conditioner outdoor unit and improve the cooling efficiency of the air conditioner. It is to provide a function-improving installation structure of an air conditioner outdoor unit that can be used.

  And in order to solve such a problem, the gist of the present invention is that the cultivation containers are arranged on the upper and left and right sides of the air conditioner outdoor unit installed in front of the outer wall of the building, respectively. The upper and side of the machine are configured to be surrounded by plants cultivated in the cultivation container, and as the cultivation container, a cultivation bed part for accommodating culture soil, and a lower part of the cultivation bed part The air conditioner outdoor unit has a function-enhanced installation structure characterized in that it has a water retention tank part that is arranged and contains water to be supplied to a plant cultivated in the cultivation bed part.

  Further, according to one of the preferred embodiments of the function improving installation structure of the air conditioner outdoor unit according to the present invention as described above, the cultivation containers are respectively arranged on the upper and left and right sides of the air conditioner outdoor unit installed in front of the outer wall of the building. As a result, the space between the air conditioner outdoor unit and the outer wall of the building is configured to be surrounded by the plant.

  Furthermore, according to one of the other preferable aspects in the function improvement installation structure of the air conditioner outdoor unit according to the present invention, the cultivation container contains culture soil for cultivating the plant, while the root of the plant cultivated there A cultivation bed part provided in the bottom wall part with a through-hole that allows intrusion of the roots and further allows the root to extend downward, and a plant that is arranged below the cultivation bed part and is cultivated in the cultivation bed part A water holding tank portion configured to immerse the root of the plant extending downward through the through-hole in the water, and to enter and pass the root of the plant. A water-absorbent sheet provided over the entire bottom wall of the cultivation bed so as to cover the through-hole provided in the bottom wall of the cultivation bed, and the through-hole Through the water tank Together they are arranged so as, is immersed in the water contained within-holding the water tank unit, configured such water and a water wick for sucking up the water-absorbing sheet.

  In addition, according to one of the other preferable embodiments in the function improving installation structure of the air conditioner outdoor unit according to the present invention, the cultivation container is made of a support and a net for winding the plant to grow. It is configured to have at least one of them.

  Further, according to another preferred embodiment of the function improving installation structure of the air conditioner outdoor unit according to the present invention as described above, at least one of the support and the net for winding and growing the plant is provided. The plant cultivated in the cultivation container is attached to the cultivation container so as to be positioned in front of the front surface of the air conditioning outdoor unit at a predetermined interval from the front surface of the air conditioning outdoor unit. It grows along the net and / or is configured to be covered with the plant grown in the cultivation container in front of the air conditioner outdoor unit.

  Furthermore, according to one of the other preferable aspects in the function improvement installation structure of the air conditioner outdoor unit according to the present invention, the airflow dispersion guide for dispersing the flow of air discharged from the front surface on the front surface of the air conditioner outdoor unit. Is provided.

  As described above, in the function improving installation structure of the air conditioner outdoor unit according to the present invention, the air conditioner is arranged by arranging the cultivation containers on the upper and left sides of the air conditioner outdoor unit installed close to the outer wall of the building, respectively. From the place where the upper and side of the outdoor unit are surrounded by the plants cultivated in the cultivation container, by the latent heat of evaporation taken away from the pores of the leaves of the plants cultivated in the cultivation container The temperature around the air conditioner outdoor unit can be effectively lowered, and the plant can be prevented from being shaded, and the outer wall near the air conditioner outdoor unit can be advantageously prevented from being exposed to direct sunlight. Become.

  As a result, the temperature of the air around the air conditioner outdoor unit, in particular, the temperature of the space between the plant and the outer wall is effectively reduced as compared with the case where there is no plant. Thereby, the temperature of the air taken in in an air-conditioner outdoor unit from the rear surface side (air suction side) of an air-conditioner outdoor unit becomes low at the time of cooling. For this reason, the heat exchanging function of the air conditioner outdoor unit is extremely effectively enhanced, and thus the cooling efficiency of the air conditioner is remarkably improved. As a result, the power consumption of the air conditioner is also suppressed, artificial exhaust heat is reduced, and energy saving can be realized.

  In addition, in this invention, what has a cultivation bed part for accommodating culture | cultivation soil as a cultivation container, and the water retention tank part in which the water for supplying to the plant grown in a cultivation bed part is accommodated. From the point where it is used, even if the cultivation container is installed on the upper and left and right sides of the air conditioner outdoor unit, it is difficult to become water shortage, and the growth of plants cultivated there can be advantageously prevented. It is. In short, the surroundings of the air conditioner outdoor unit are hot and easy to dry due to hot air exhausted from the air conditioner outdoor unit, etc., but since the water holding tank part is provided, it is accommodated in the water holding tank part. It is avoided that water is supplied to the plant and the plant is subjected to water stress due to water shortage. Therefore, according to the present invention, not only plants with low transpiration capacity but also plants with high transpiration capacity (high cooling effect) that require a large amount of water are cultivated and the air conditioner outdoor unit is surrounded by the plants. Thus, the function of the air conditioner outdoor unit can be improved more effectively.

  Hereinafter, in order to clarify the present invention more specifically, embodiments of the present invention will be described in detail with reference to the drawings.

  First, in FIG.1 and FIG.2, the air-conditioner outdoor unit and cultivation container installed with the structure according to this invention are each shown schematically in the front form and left side form containing a partially notched cross section, respectively. . In FIG. 1, reference numeral 10 denotes an air conditioner outdoor unit, and two cultivation containers 12 are arranged on the upper and left and right sides of the air conditioner outdoor unit 10, respectively. 10 has a structure in which the upper side, the left side, and the right side are surrounded by the plant 14 cultivated in each cultivation container 12.

  More specifically, the air conditioner outdoor unit 10 is used together with the air conditioner indoor unit, and air taken in from the rear side (the outer wall side of the building) is formed with openings that allow air to pass through at least the rear surface and the front surface. As shown in FIG. 2, it is installed in front of the outer wall 16 of the building (outside of the building) at a predetermined distance as shown in FIG. ing. Here, a wooden mounting table 18 for mounting the cultivation container 12 is disposed around the air conditioner outdoor unit 10. The mounting table 18 includes a rectangular plate-shaped top plate portion 20 and four prismatic leg portions 22 projecting downward from corner portions of the top plate portion 20. The upper surface of the plate part 20 is a mounting surface on which the cultivation container 12 is mounted.

  In this embodiment, two synthetic resin-made cultivation containers 12 are placed in series in the left-right direction on the mounting table 18, and also on the ground on the side of the air-conditioner outdoor unit 10. Two cultivation containers 12 are arranged in series so as to be adjacent to the left side surface and the right side surface of the machine 10, respectively.

  In addition, each cultivation container 12 has two synthetic resin-made straight lines in which a synthetic fiber net 24 is stretched around the plant 14 cultivated there. Are arranged so that the surface (hereinafter referred to as the net surface) made of the net 24 is substantially parallel to the outer wall surface of the building, and the plant 14 cultivated in each cultivation container 12 is provided. It grows upward and laterally along this net surface.

  For this reason, a so-called panel-like or curtain-like greening surface made of plants 14 is formed above and to the left and right sides of the air conditioner outdoor unit 10. In this case, the plant 14 is surrounded by the plant 14. In addition, it is advantageously prevented that the panel-like or curtain-like plant 14 becomes a sunshade, and the outer wall 16 near the air conditioner outdoor unit 10 is irradiated with direct sunlight. It is.

  Therefore, due to the transpiration action of the plant 14 cultivated in the cultivation container 12 (the action of depriving the latent heat of vaporization and lowering the temperature when moisture evaporates from the pores of the plant leaves) and the sunshade effect (heat shielding effect). The temperature of the air around the air conditioner outdoor unit 10, particularly the temperature of the space 17 between the panel-like or curtain-like plant 14 and the outer wall 16, is about 2 to 4 ° C. compared to the case where there is no plant. It will be lower. For this reason, during cooling, the temperature of the air taken into the air conditioner outdoor unit 10 from the rear surface 28 side of the air conditioner outdoor unit 10 is lowered, and thus the heat exchange function of the air conditioner outdoor unit 10 is extremely effectively enhanced. The cooling efficiency of the air conditioner can be significantly improved. As a result, the power consumption of the air conditioner is also suppressed, artificial exhaust heat is reduced, and power saving can be realized.

  Moreover, in this embodiment, since the cultivation container 12 is arrange | positioned above the air conditioner outdoor unit 10 and the right and left sides, and is not arrange | positioned in the front side of the air conditioner outdoor unit 10, from the fan 30 of the air conditioner outdoor unit 10. Even if the hot air is exhausted forward, the hot air does not hit the cultivation container 12 from the front. For this reason, it can be advantageously prevented that the growth of the plant 14 to be cultivated is inhibited by the inside of the cultivation container 12 being heated or dried by hot air. In addition, even when hot air convects around the air conditioner outdoor unit 10, it can be advantageously prevented that hot air is taken in from the back side (rear side 28 side) of the air conditioner outdoor unit 10 at a high temperature. The air sucked into the air conditioner outdoor unit 10 is effectively cooled by the panel-like or curtain-like plant 14.

  By the way, as mentioned above, in order to obtain the transpiration effect and the sunshade effect by the plant 14, the growth of the plant 14 cultivated in the cultivation container 12 is indispensable. As what has the cultivation bed part 34 for accommodating culture soil 32, and the water retention tank part 38 in which the water 36 for supplying to this cultivation bed part 34 is accommodated is used from the air-conditioner outdoor Even if the cultivation container 12 is installed on the upper side and the side of the machine 10, water shortage hardly occurs, and the growth of the plant 14 cultivated there can be advantageously prevented. That is, in a normal planter without the water retention tank portion 38, the soil in the planter is easily dried by hot air discharged from the air conditioner outdoor unit 10, but in this embodiment, the cultivation container 12 has a water retention tank. Since the part 38 is provided, it is avoided that the water 36 of this water retention tank part 38 is supplied to the plant 14, and the plant 14 receives the water stress by water shortage.

  In addition, the cultivation container 12 used suitably in this embodiment is schematically shown by FIG.3 and FIG.4 in the longitudinal cross-sectional form. As described above, the cultivation container 12 has a cultivation bed portion 34 for housing the cultivation soil 32 for cultivating plants, and a water retention tank portion 38 disposed below the cultivation bed portion 34. And is configured. More specifically, the cultivation bed part 34 disposed above the water retention tank part 38 is a rectangular housing 35 integrally having a bottom wall part 40 and a side wall part 42 made of synthetic resin. It is formed, and culture soil 32 is put inside it so that plants can be cultivated. The bottom wall 40 of the cultivation bed 34 has a slit-like through-hole 44 extending in the width direction (left and right direction in FIG. 4) with a predetermined interval in the longitudinal direction (left and right direction in FIG. 3). There are two. Here, the size of the through hole is set to a width of about 1 to 3 cm and a length of about 5 to 15 cm.

  Moreover, in the bottom wall part 40 of the cultivation bed part 34, the rectangular shape of predetermined thickness (here 1-5 mm thickness) which consists of 1-3 nonwoven fabrics made from chemical fiber over the whole surface The water absorbent sheet 46 is disposed, and thereby the openings of the two through holes 44 and 44 provided in the bottom wall portion 40 are completely covered. Therefore, even if the culture soil 32 is accommodated on the water-absorbent sheet 46 or irrigation is performed in a state where the culture soil 32 is accommodated, the culture soil 32 may flow down into the water retention tank portion 38. It is advantageously prevented. In addition, since the water absorbent sheet 46 made of such a nonwoven fabric has water absorbency, the plant to be cultivated can be planted or sown in any position in the cultivation bed part 34 from the water absorbent sheet 46, so that moisture, etc. Since the water-absorbent sheet 46 is made of a material that does not prevent the invasion or passage of plant roots, the plant to be cultivated can be absorbed in the interior of the water-absorbent sheet 46 or The roots can be extended down.

  Furthermore, in this embodiment, the water-absorbing member has a rectangular water-absorbing sheet 48 composed of 1 to 3 non-woven fabrics similar to the water-absorbing sheet 46, and an intermediate portion in the length direction of the water-absorbing sheet 46. In a state of being overlapped between the bottom wall portion 40 and the bottom wall portion 40, both end portions in the length direction are suspended from the two through holes 44, 44 provided in the bottom wall portion 40 to the bottom portion 50 of the water retention tank portion 38. It has been. Accordingly, when the water suction sheet 48 is immersed in the water 36 in the water retention tank portion 38, the water and nutrients in the water retention tank portion 38 are sucked up to the water absorption sheet 46 through the water suction sheet 48. It is supposed to be.

  Further, the water suction sheet 48 is arranged so that a gap is formed between the water suction sheet 48 and the inner surface 45 of the through hole 44 without completely closing the entire opening of the through hole 44. ing. For this reason, the root of the plant to be cultivated extends through the through holes 44, 44 provided in the bottom wall portion 40 of the cultivation bed portion 34, and more quickly in the lower water retention tank portion 38. . When the plant roots extend into the water retention tank 38, the plant roots absorb moisture and nutrients directly from the water 36 stored in the water retention tank 38 as well as from the culture soil 32. Can do it.

  On the other hand, the water retention tank part 38 arrange | positioned under the cultivation bed part 34 is about half of the lower side of the container body 54 of rectangular housing shape which integrally has the bottom part 50 and the surrounding wall part 52 which consist of synthetic resins. It consists of the parts. Here, the container main body 54 has a height that is at least twice that of the side wall 42 of the housing 35 that constitutes the cultivation bed portion 34, and an internal dimension that is substantially the same as the outer dimensions of the housing 35. An annular protrusion 56 that protrudes inward is integrally formed at the intermediate portion in the height direction of the peripheral wall portion 52 so as to be continuous in the circumferential direction. Then, by placing the casing 35 constituting the cultivation bed part 34 on the upper part of the annular protrusion 56, the internal space of the container main body 54 is divided into upper and lower parts, and kept below the cultivation bed part 34. A water tank portion 38 is formed. The water retention tank portion 38 formed in this manner is in a substantially sealed state, and has a structure that advantageously prevents evaporation of the water 36 accommodated therein.

  In addition, on the bottom 50 of the container main body 54, leg portions 58 of a predetermined length projecting downward are integrally formed at four corners, like the conventional planter. The cultivation container 12 can be placed on the ground or the like in a stable state. Further, a drain port 60 is provided in the bottom portion 50 so as to protrude downward, and by opening the closed drain port 60 to the outside, the drain port 60 is connected to the inside of the water retention tank unit 38. The water 36 contained in the water can be discharged.

  Thus, when the plant 14 is cultivated using the cultivation container 12 having the structure as described above, the plant 14 in the cultivation bed portion 34 extends the root in the culture soil 32 while allowing the root of the plant to enter and pass through. Of the water 36 in the water retention tank 38 as shown in the cutaway view of FIG. 1 through the water absorbent sheet 46 that can pass through the gap between the water suction sheet 48 and the inner surface 45 of the through hole 44. Extend the roots inside. At this time, the roots of the plant 14 are guided to the water suction sheet 48 through the water suction sheet 48 suspended from the through hole 44 and extend into the water. Specifically, when the roots of the plant 14 reach the water absorbent sheet 46 and the water wicking sheet 48 laid down on the bottom wall part 40 of the cultivation bed part 34, the moisture contained in the sheets 46 and 48 and While absorbing the nutrients, it extends along the sheets 46 and 48 and reaches the bottom 50 of the water retention tank portion 38 at an early stage.

  Thus, when the cultivation container 12 is used, the roots of the plant 14 cultivated in the cultivation bed unit 34 are not only in the culture soil 32 of the cultivation bed unit 34 but also in the water contained in the water retention tank unit 38. In order to extend, cultivation combining hydroponics and soil cultivation can be performed, and the plant 14 absorbs nutrients, oxygen, moisture, and the like from the culture soil 32 and also from the water 36 in the water retention tank section 38. It absorbs moisture and nutrients (fertilizer eluted from the culture soil by irrigation). For this reason, it is hard to receive the water stress by water shortage, and the growth of the plant 14 can be effectively promoted now compared with the case where soil cultivation is carried out. It is advantageously avoided that unevenness is formed on the greening surface of the plant or that the plant 14 is dead.

  In addition, a sufficient amount of water can be stored in the water retention tank 38 in advance regardless of the water retention capacity of the soil, so that a plant having a high transpiration capacity is advantageous as the plant 14 cultivated in the cultivation container 12. The advantage that it can be cultivated can be enjoyed. As a result, the amount of transpiration from the plant 14 is increased, and the temperature around the air conditioner outdoor unit 10 can be further advantageously lowered, and the heat exchange function of the air conditioner outdoor unit 10 is further enhanced. Here, examples of plants having high transpiration ability include morning glory, climbing plants such as bitter gourd and loofah.

  Further, when the plant 14 is cultivated, antibacterial properties, insect resistance, disease resistance, etc., such as Super Vine (trade name) manufactured by Toda Biosystems Co., Ltd. Excellent soil conditioner and Hanasaki from Toda Biosystems Co., Ltd. When a liquid compound fertilizer such as SUN (trade name) is applied, the growth of the plant 14 can be promoted very effectively. Specifically, when the above soil conditioner is applied, the roots of plants are strengthened, antibacterial properties and insect resistance are effectively enhanced, and the pathogen that causes root rot in hydroponics is Pishum Even if fungi are present, root rot is less likely to occur. Furthermore, when the soil conditioner and liquid compound fertilizer are used in combination, the photosynthetic ability of the plant and the amount of transpiration of the leaf are effectively improved, and the growth speed (greening speed) of the plant is further increased.

  Thus, while cultivating the plant 14 using the cultivation container 12, if a plurality of such cultivation containers 12 are arranged on the upper and left sides of the air conditioner outdoor unit 10, the air conditioner outdoor unit 10 is cultivated in the cultivation container 12. The air conditioner outdoor unit 10 is in a state of being surrounded by the plant 14 and part of the green surface of the panel shape or curtain shape.

  In addition, when arrange | positioning the cultivation container 12 in the upper part of the air-conditioner outdoor unit 10, and right and left, the plant 14 may not be cultivated with the cultivation container 12, or may be cultivated. That is, after arranging the cultivation container 12 on the upper part and the left and right of the air conditioner outdoor unit 10, the plant may be planted and sown to grow the plant 14, or the plant 14 is grown in another place in advance, You may make it arrange | position the cultivation container 12 in the upper part of the air-conditioner outdoor unit 10, and right and left in the stage which grew to a certain size. More preferably, like the latter, it is desirable to arrange the cultivation container 12 after forming a panel or curtain made of the plant 14 in advance. The function of the air conditioner outdoor unit 10 is improved without waiting for the growth of the plant 14.

  By the way, the function improvement installation structure of the air conditioner outdoor unit according to the present invention is not construed to be limited to the above-described exemplary structure, and other examples are shown in FIGS. 5 to 9, members and parts having the same structure as those of the above-described embodiment are given the same reference numerals as those of the above-described embodiment in the drawings, and detailed descriptions thereof are given. The explanation is omitted.

  That is, first, in FIG. 5 and FIG. 6, another embodiment of the function improving installation structure of the air conditioner outdoor unit according to the present invention is schematically shown in a front form and a left side form, respectively. 5 and 6, among the cultivation containers 12 arranged on the left and right sides of the air conditioner outdoor unit 10, the cultivation containers 12 (L1) and 12 (R1) arranged on the leftmost and rightmost sides are In other words, the cultivation containers 12 (L1) and 12 (R1) are parallel to the outer wall 16 of the building. ) So that the net surface of the net 24 stretched between the two struts 26 and 26 respectively disposed perpendicular to the surface 16 of the outer wall of the building as shown in FIG. Placed in the cultivation container 12 (L1 , 12 (R1) cultivation containers 12 (L2) adjacent to the cultivation containers 12 (L1) and 12 (R1), respectively, so that the outer wall side end surface in the longitudinal direction (left-right direction in FIG. 6) is close to the outer wall 16 ), 12 (R2) is arranged on the outer wall 16 side, so that the space 17 between the air conditioner outdoor unit 10 and the outer wall 16 of the building is planted not only on the front but also on both sides thereof. 14 is surrounded.

  Further, in the present embodiment, the cultivation container 12 (L2), 12 (R2), 12 (C1), 12 (C2) has an upper end portion as shown in FIG. Two substantially inverted L-shaped support columns 62 that are bent toward the outer wall 16 of the building are disposed, and the upper part of the space 17 between the air conditioner outdoor unit 10 and the outer wall 16 of the building is also planted. 14 is surrounded. That is, in this embodiment, the space 17 between the air conditioner outdoor unit 10 and the outer wall 16 of the building is surrounded on all sides by a box-shaped green surface.

  For this reason, the air in the space (17) surrounded by the box-shaped green surface can be more effectively cooled by the transpiration action of the plant 14 and the sunshade effect (heat shielding effect). Moreover, since the space 17 is surrounded by the box-shaped plant 14, it is set as the structure where the cooled air cannot escape easily. Therefore, when the air conditioner is in operation (cooling), the cooled air is sucked into the air conditioner outdoor unit 10 without escaping to the outside of the space (17) surrounded by the box-shaped green surface, and the refrigerant It can be advantageously used for heat exchange. In addition, in this embodiment, since the air always flows through the greening surface in the space (17) surrounded by the box-shaped greening surface, the transpiration action (cooling action) by the plant 14 is further increased. is there.

  7 and 8 schematically show still another embodiment of the function improving installation structure of the air conditioner outdoor unit according to the present invention in a front form and a left side form, respectively. 7 and 8, the four cultivation containers 12 (L1), 12 (L2), 12 (R1), and 12 (R2) arranged on the left and right of the air conditioner outdoor unit 10 are located above the air conditioner outdoor unit 10. Are arranged at the same height as the cultivation containers 12 (C1) and 12 (C2). In the present invention, “the left side of the air conditioner outdoor unit” and “the right side of the air conditioner outdoor unit” include not only the side of the air conditioner outdoor unit (true left and right) but also the upper left of the air conditioner outdoor unit. And upper right (upper right corner) are also included.

  More specifically, in this embodiment, instead of the mounting table 18 as described above, a mounting table 64 having a length about three times that of the mounting table 18 is used. The mounting table 64 includes a long rectangular plate-shaped top plate portion 66 and four prismatic leg portions 68 that protrude downward from the corners of the top plate portion 66. And while the two cultivation containers 12 (C1) and 12 (C2) are mounted in the site | part located in the upper part of the air-conditioner outdoor unit 10 among the upper surfaces of the top-plate part 66 of this mounting base 64, they are Four cultivation containers 12 (L1), 12 (L2), 12 (R1), and 12 (R2) are arranged in a row, two on each of the left and right sides of the cultivation containers 12 (C1) and 12 (C2). Are lined up.

  In the present embodiment, the hot air discharged from the front surface 29 side of the air conditioner outdoor unit 10 passes through the space between the top plate portion 66 of the mounting table 64 and the ground, that is, the upper left of the air conditioner outdoor unit 10. And it does not flow directly into the rear of the air conditioner outdoor unit 10 through the space formed below the cultivation containers (L1), 12 (L2), 12 (R1), and 12 (R2) arranged in the upper right. The left and right of the air conditioner outdoor unit 10 are provided with shielding plates 69 and 69 made of wood or synthetic resin (see FIG. 9).

  And in this embodiment, in each cultivation container 12, a total of four plants are cultivated two each in the front-back direction and the left-right direction, respectively, and as shown in FIG. The plant 14 on the side) is cultivated so as to grow upward as in the above embodiment, while the plant 70 cultivated on the front side is more forward than the front surface 29 of the air conditioner outdoor unit 10. It is cultivated to grow. That is, on the rear side of each cultivation container 12, as in the above-described embodiment, the two straight columns 26, 26 on which the net 24 is stretched are substantially parallel to the outer wall surface of the building. Thus, the plant 14 on the rear side grows upward along the net surface. On the other hand, on the front side of each cultivation container 12, two substantially inverted J-shaped struts 74, 74 with a net 72 stretched between them, a predetermined distance so as to draw an arch forward from the cultivation container 12. It is attached to the cultivation container 12 so that it protrudes only from there and hangs down toward the ground. With this, the columns 74 and 74 and the net 72 stretched over them are connected to the front surface 29 of the air conditioner outdoor unit 10. Without being in contact with the air conditioner, the air conditioner outdoor unit 10 is arranged at a predetermined distance d (here, about 30 to 70 cm) ahead of the front surface 29 of the air conditioner outdoor unit 10. Thereby, the plant 70 cultivated on the front side grows along the columns 74 and 74 and the net 72 and grows so as to drop in front of the front surface 29 of the air conditioner outdoor unit 10.

  For this reason, in the present embodiment, the upper and left and right sides of the air conditioner outdoor unit 10 are surrounded by the plant 14, and further, the front of the air conditioner outdoor unit 10 is also covered with the plant 70. is there. In other words, a panel-like or curtain-like greening surface made of plants 70 is formed not only above and to the side of the air conditioner outdoor unit 10 but also in front. As a result, the greening surface of the plant 70 becomes a sunshade and prevents direct sunlight from hitting the front surface 29 of the air conditioner outdoor unit 10, thereby reducing the load on the air conditioner outdoor unit 10. As a result, a further energy saving effect of the air conditioner outdoor unit 10 can be realized, and the hot air discharged from the air conditioner outdoor unit 10 is composed of the leaves of the plant 70 without being released as it is. It passes through the greening surface and is released to the outside, so that the exhaust heat can be effectively cooled by the transpiration of the plant 14.

  When hot air continuously passes through the greening surface, more water than usual is evaporated from the leaves of the plant 70. For this reason, in plants planted in a planter (soil) that does not have a normal water retention tank, if water is rapidly lost from the leaves, hydration is not in time, causing strong water stress such as wilt and transpiration The leaves that are short of the amount and touched with hot air are accompanied by temperature stress and die in the state of drought, but in this embodiment, the cultivation container 12 is provided with a water retention tank 38, It is prevented that the water 36 of this water retention tank part 38 is supplied to the plant 70, and the plant 70 receives the water stress by water shortage.

  However, if the hot air from the air conditioner outdoor unit 10 is discharged as it is, the hot air concentrates on the plant 70 located directly in front of the fan 30 of the air conditioner outdoor unit 10, and therefore the transpiration of the leaves of the plant 70 may be insufficient. There is. For this reason, when growing the plant 70 in front of the air conditioner outdoor unit 10, an airflow dispersion guide that disperses the flow of air discharged from the front surface 29 side of the air conditioner outdoor unit 10 (see, for example, FIGS. 10 to 12). Is preferably attached to the front surface 29 of the air conditioner outdoor unit 10 (particularly in front of the fan 30) so that the flow of hot air discharged from the air conditioner outdoor unit 10 is dispersed. Thereby, it is avoided that hot air hits a part of greening surface which consists of the plant 70, and the transpiration | evaporation effect by a plant can be exhibited still more efficiently.

  10 to 12 show an example of the airflow dispersion guide as described above. The airflow dispersion guide 76 includes a rectangular frame 78 made of synthetic resin and the frame 78. The four fins 80, 80, 82, and 82 that are integrally formed so as to protrude forward from the shape and have a substantially divided cylindrical shape made of synthetic resin. The four fins 80, 80, 82, 82 are integrally attached to the frame body 78 so that the longitudinal direction thereof is the vertical direction, and the four fins 80, 80, 82, 82, Among the two fins 80 and 80 on the central side, the radius of curvature is larger than the radius of curvature of the two fins 82 and 82 on both sides, and the amount of forward protrusion is also large. The two left fins 80 and 82 are provided so that the protruding end faces are on the left side, while the two right fins 80 and 82 are provided so that the protruding end faces are on the right side. For this reason, when the airflow dispersion guide 76 is connected to the front surface of the air conditioner outdoor unit 11 using a connecting member such as a screw, as shown in FIGS. 11 and 12, the airflow dispersion guide 76 is discharged from the front side of the air conditioner outdoor unit 11. Hot air is dispersed and discharged to a wide range on the left and right. For this reason, as described above, even if a greening surface made of plants 70 is formed in front of the air conditioner outdoor unit 11, hot air may be concentrated on a part of the greening surface made of plants 70 during cooling. It can be avoided.

  The specific configuration of the present invention has been described in detail above. However, this is merely an example, and the present invention is not limited by the above description.

  For example, in the above example, two cultivation containers 12 are placed on each of the upper and left and right sides of the air conditioner outdoor unit 10, but the number and arrangement of the cultivation containers 12 are the size of the cultivation container. However, the present invention is not limited at all.

  Furthermore, in the said embodiment, although the support | pillars 26 and 26 by which the net | network 24 for making a plant roll around and growing it were fixed to the cultivation container 12 were fixed, only a net | network is installed or only a support | pillar is. It may be installed, and its size and arrangement number are not limited at all. Moreover, a net | network or a support | pillar is not necessarily required when what can stand independently as a plant 14 without winding around another thing is cultivated.

  In addition, the material of the net and the support is not limited in any way. For example, instead of a synthetic fiber net or a synthetic resin support, a metal net or a metal support can be used. . Moreover, even if it exists in the shape of a support | pillar, it is not limited at all to the linear shape of the above example, reverse L shape, or reverse J shape, for example, the arch shape by which the upper part was curved, or reverse U shape A well-known shape such as a letter-shaped support can be used.

  Further, in the above embodiment, a non-woven fabric made of chemical fiber is adopted as the water absorbent sheet 46, whereby the water absorbent sheet breaks or corrodes even if the roots of the plant enter or pass through or are intertwined in a complicated manner. However, the material of the water-absorbent sheet 46 should be a sheet that has water-absorbency and allows the roots of plants to enter and pass through. For example, in addition to the non-woven fabric made of chemical fiber, a conventionally known water-absorbing sheet such as a non-woven fabric made of natural fiber, a knitted fabric, or a sponge may be used. Moreover, even if it exists in the thickness of a water absorbing sheet, it can set suitably according to the material etc. of the water absorbing sheet employ | adopted.

  Similarly, in the above-described embodiment, the water wicking sheet 48 made of a non-woven fabric made of chemical fiber is employed as the water wicking member, thereby advantageously preventing breakage and corrosion of the sheet and extending the underwater roots. However, as long as the water in the water retaining tank 38 can be sucked up and supplied to the water absorbent sheet 46, a conventionally known water absorbent such as a woven fabric or sponge made of natural or chemical fiber can be used. In addition to the sheet shape, it is also possible to adopt a string shape, a tube shape, or the like. Moreover, even if it is the length which hangs down the water absorption sheet 48 in the water retention tank part 38, although it will not specifically limit, if it hangs down to the bottom part 50 of the water retention tank part 38, a water retention tank part Even if the amount of water 36 stored in 38 is reduced, water can be sucked into the water absorbent sheet 46 of the cultivation bed section 34.

  Further, the bottom wall portion 40 of the cultivation bed portion 34 was provided with two slit-like through holes 44 extending in the width direction with a predetermined interval in the longitudinal direction. The number, shape, size, etc. of the arrangement are not limited at all. Furthermore, in the above example, a gap was provided between the water wicking sheet 48 and the inner surface of the through hole 44, which promoted the growth of plant roots in the water retention tank portion 38. In this case, the gap is not necessarily required, and even if no gap is provided, the root of the plant extends into the water retention tank portion 38 although the extension is slow.

  Furthermore, the overall shape of the cultivation container 12 is not limited to the illustrated one, and if the cultivation bed part is arranged in the upper stage and the water retention tank part is arranged in the lower stage, the planar rectangular shape in the above example Besides, it may have any shape such as a flat circular shape, etc., and even if the cultivation bed part and the water retention tank part are detachably assembled, or the cultivation bed part and the water retention tank part May be integrally fixed so as not to be detachable. Further, the material of the casing 35 and the container main body 54 constituting the cultivation container 12 is not limited to resin, and any material such as metal, ceramics, or polystyrene can be used as long as it does not allow water to pass therethrough. There may be.

  In addition, in the above example, water was stored in the water retention tank portion 38 by irrigating from above the cultivation bed portion 34, but the utility model was registered in the bottom wall portion 40 of the cultivation bed portion 34. As shown in Japanese Patent No. 3128320, it is also possible to provide a water injection pipe so that water is directly introduced into the water holding tank section 38 without using the culture soil 32 accommodated in the cultivation bed section 34. .

  In addition, although not enumerated one by one, the present invention can be carried out in a mode to which various changes, modifications, improvements, etc. are added based on the knowledge of those skilled in the art. It goes without saying that all are included in the scope of the present invention without departing from the spirit of the present invention.

It is front explanatory drawing including the partially notched cross section which shows one Embodiment of the function improvement installation structure of the air-conditioner outdoor unit according to this invention. It is a left view in FIG. It is a longitudinal cross-sectional explanatory drawing which shows the cultivation container shown by FIG. 1, Comprising: The state in which the plant is not grown is shown. . It is IV-IV cross-sectional explanatory drawing in FIG. It is front explanatory drawing which shows another embodiment of the function improvement installation structure of the air-conditioner outdoor unit according to this invention. It is a left view in FIG. It is front explanatory drawing which shows another embodiment of the function improvement installation structure of the air-conditioner outdoor unit according to this invention. It is a left view in FIG. In FIG. 7, it is front explanatory drawing which shows the state which omitted the support | pillar by which the net was stretched, and the plant. It is an isometric view explanatory drawing which shows an example of the airflow dispersion | distribution guide used advantageously in the function improvement installation structure of the air-conditioner outdoor unit according to this invention. It is perspective explanatory drawing which shows the state which attached the airflow dispersion | distribution guide shown by FIG. 10 to the air-conditioner outdoor unit. It is plane explanatory drawing in FIG.

Explanation of symbols

10, 11 Air conditioner outdoor unit 12 Cultivation container 14, 70 Plant 16 Building outer wall 17 Space 18, 64 Mounting table 24, 72 Net 26, 62, 74 Post 32 Culture soil 34 Cultivation bed section 35 Case 36 Water 38 Water tank section 40 Bottom wall portion 44 Through hole 46 Water absorbing sheet 48 Water suction sheet 54 Container body 56 Annular projection 60 Drain outlet 69 Shielding plate 76 Airflow dispersion guide

Claims (6)

  By placing cultivation containers on the upper and left and right sides of the air conditioner outdoor unit installed in front of the outer wall of the building, respectively, the upper and side of the air conditioner outdoor unit are surrounded by plants grown in the cultivation container. As the cultivation container, there is a cultivation bed part for containing the culture soil, and water for supplying the plant that is arranged below the cultivation bed part and is cultivated in the cultivation bed part. A function-enhanced installation structure for an air conditioner outdoor unit, characterized in that a unit having a water retention tank portion to be accommodated is used.   By arranging cultivation containers on the upper and left and right sides of the air conditioner outdoor unit installed in front of the outer wall of the building, the space between the air conditioner outdoor unit and the outer wall of the building is surrounded by the plant. The function improvement installation structure of the air conditioner outdoor unit according to claim 1, wherein the function improvement installation structure is configured as described above.   While the cultivation container accommodates culture soil for cultivating plants, a through-hole is provided in the bottom wall portion that allows the root of the plant cultivated there to enter and further allows the root to extend downward. The cultivated bed part is disposed below the cultivated bed part, and water for supplying to the plants cultivated in the cultivated bed part is accommodated, and the water extends downward through the through hole. It is made of a water retention tank part configured to immerse the roots of the plant and a material that allows the roots of the plants to enter and pass through, and covers the through hole provided in the bottom wall part of the cultivation bed part The water-absorbing sheet provided over the entire bottom wall portion of the cultivation bed portion, and the water contained in the water-reserving tank portion are arranged so as to hang down in the water-reserving tank portion through the through-hole. Soaked in the water absorbent sheet Improvements installation structure of the air conditioner outdoor unit according to claim 1 or claim 2, characterized in that it has a water wick for bring have.   The said cultivation container has at least any one of the support | pillar and net | network for winding and growing the said plant, The structure of any one of Claim 1 thru | or 3 characterized by the above-mentioned. Function improvement installation structure of the air conditioner outdoor unit described in the section.   At least one of the support and the net for winding and growing the plant is positioned in front of the front surface of the air conditioner outdoor unit at a predetermined interval from the front surface of the air conditioner outdoor unit, By being attached to the cultivation container, the plant cultivated in the cultivation container is grown through the support and / or the net, and the front of the air conditioner outdoor unit is covered with the plant cultivated in the cultivation container. The function improvement installation structure of the air conditioner outdoor unit according to any one of claims 1 to 3, wherein the function improvement installation structure is provided. The air conditioner outdoor unit according to any one of claims 1 to 5, wherein an airflow dispersion guide for dispersing the flow of air discharged from the front surface is provided on the front surface of the air conditioner outdoor unit. Improved function installation structure.

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