JP2019132478A - Ventilation shading net structure - Google Patents

Abstract

To provide a ventilation shading net structure which may exert an excellent effect of reducing driving load such as power consumption and has an excellent durability.SOLUTION: There is provided a ventilation shading net structure 10 comprising a light shielding sheet having an air permeability, and a light shielding sheet frame which is arranged around an outdoor apparatus and on which the light shielding sheet is attached. The light shielding sheet frame comprises: a suction port light-shielding part 11 which covers so that a suction port of the outdoor apparatus is shaded with a gap of 20 cm or more from a surface of the suction port; and a ventilation shortcut prevention part 12 which is arranged between an exhaust direction of an exhaust port of the outdoor apparatus and a suction direction of the suction port of the outdoor apparatus. The light shielding sheet has a light shielding rate of 70% or more and 95% or less. The light shielding sheet has a strength of 850 N or more. The light shielding sheet has a stretch degree of 30% or more.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a ventilation shading net structure.

  The outdoor unit (outdoor unit) of the air conditioner installed around the building is exposed to direct sunlight in the summer and becomes high in temperature, so that there is a problem that thermal efficiency is lowered and power consumption is increased. In order to solve this problem, for example, Patent Document 1 discloses the ventilation of an outdoor unit of an air conditioner having a frame assembled around the outdoor unit and a ventilation shading net attached to the frame and covered by the outdoor unit. A shading net device is disclosed.

  Further, Patent Document 2 discloses an air conditioner outdoor unit shield that includes a heat shield sheet that extends over a position above each outside air intake port of a plurality of air conditioner outdoor units and shields the space between the air conditioner outdoor units up and down. A heating tool is disclosed. Patent Documents 3 to 5 disclose an awning sheet that is used like Yoshizu or a kite, a light shielding sheet that is used for agriculture, a roof sheet that is installed on a roof, and the like. In addition, as a sheet | seat which can be used as a light-shielding sheet | seat etc. for crop cultivation, patent documents 6-9 are disclosed, for example.

Utility Model Registration No. 3171945 Japanese Patent No. 5497119 JP 2001-311284 A JP 2001-61357 A JP 2009-221837 A JP 2000-014256 A JP 2008-184597 A Japanese Patent Laid-Open No. 9-262029 JP 2017-055586 A

As disclosed in Patent Documents 1 to 9, it is considered to place a light-shielding net (sheet) or the like around an outdoor unit of an air conditioning facility or on a roof to shield the light.
Patent Document 1 discloses a structure for covering an upper part or a side part of an outdoor unit. However, it is unclear how to effectively cover the outdoor unit with what type of sheet. is there.
Patent Document 2 discloses a heat shield for an air conditioner outdoor unit. However, on the premise that a plurality of outdoor units are arranged, a heat shield sheet installed above the intake ports is used as a single unit. The structure that is effective even in outdoor units is unknown. Moreover, the specific specification of the heat shield sheet is unclear, and it is unclear what kind of heat shield sheet can be used to obtain the effect.
Patent Documents 3 to 9 are respectively related to an awning sheet, a covering sheet, a roof sheet, a crop cultivation sheet, etc., and all show a certain light-shielding property, but the use around an air conditioner is unknown. It is.

  These outdoor units and roofs are greatly affected by the weather and seasons. The first problem is that the temperature rises when exposed to direct sunlight or exposed to hot air in summer, which is also a problem in the above-mentioned patent documents. On the other hand, in winter, due to the influence of snow and cold, there are cases where the temperature is too low and the fins of the outdoor unit freeze, or the heating effect tends to decrease through the roof. Taking these seasonal variations into account, changing the shading net etc. for each season increases the management burden.

  Considering the difference between summer and winter as described above, it is considered that there is room for further improvement in the structure of these shading nets. In particular, there has been a demand for achieving further excellent reduction effects such as power consumption and durability for improving long-term reliability.

  Under such circumstances, it is an object of the present invention to provide a ventilation light-shielding net structure that can achieve an effect of reducing driving load such as excellent power consumption.

  The inventors of the present invention have further studied the ventilation shielding of the outdoor unit. As a result, it is difficult to adopt a wide range of points that are not sufficient for shielding the ventilation of outdoor units with only the idea of sunshade sheets installed on the roof, etc., and the effect of reducing the operating load of the outdoor unit may not be stable or obtained. I found out that there is a case.

  In the case of an outdoor unit, it was found that since the outdoor unit itself sucks and exhausts airflow due to the intake and exhaust has a great influence on the operating load of the outdoor unit. Therefore, it may not be possible to reduce the operation load of the outdoor unit simply by covering the entire surface of the outdoor unit so as to shield the ventilation.

  In Patent Document 2, as described above, it is disclosed as a structure that spans above the outside air inlets of a plurality of air conditioner outdoor units and shields the space between the air conditioner outdoor units vertically. Such a structure cannot be employed when a plurality of outdoor units are not arranged, and only a small part of the outdoor unit is shielded from heat, and the effect is limited.

  In order to solve such a problem specific to the outdoor unit, it is necessary to provide an appropriate covering and shield the light from the air in consideration of the influence of the air flow of the outdoor unit. For this reason, it has been found that it is important to provide a net suitable for ventilation shielding in an appropriate arrangement.

  As a result of intensive studies to solve the above problems based on these findings, the present inventor has found that the following inventions meet the above object, and have reached the present invention.

That is, the present invention relates to the following inventions.
<1> A ventilation light-shielding net structure having a light-shielding sheet having air permeability and a light-shielding sheet frame on which the light-shielding sheet disposed around an outdoor unit is stretched,
The light shielding sheet frame covers the suction port of the outdoor unit so that it is shaded, and has a suction port light shielding part with a gap of 20 cm or more between the surface of the suction port, the exhaust direction of the exhaust port of the outdoor unit, and the outdoor An intake / exhaust short-circuit prevention portion arranged between the intake direction of the suction port of the machine,
A ventilation light shielding net structure in which the light shielding rate of the light shielding sheet is 70% or more and 95% or less, the strength of the light shielding sheet is 850 N or more, and the elongation of the light shielding sheet is 30% or more.
<2> The ventilation light shielding net structure according to <1>, further including an outdoor unit light-shielding portion provided on an inspection port side of the outdoor unit.
<3> The ventilation light shielding net structure according to <1> or <2>, wherein the suction port light shielding portion has a clearance of 100 cm or less from a surface of the suction port.
<4> The ventilation light shielding net structure according to any one of <> to <3>, wherein the basis weight of the light shielding sheet is 200 g / m ² or more and 300 g / m ² or less.
<5> The ventilation light shielding net structure according to any one of <1> to <4>, wherein an air permeability of the light shielding sheet is 25% or more and 45% or less.
<6> The ventilation light-shielding net structure according to any one of <1> to <5>, wherein the light-shielding sheet has a structure in which a thread of a high-density polyethylene resin composition is knitted.
<7> The above <6>, wherein the high-density polyethylene resin composition contains at least one selected from the group consisting of a black pigment and a weathering agent such as an ultraviolet absorber, a light stabilizer, and an antioxidant. Ventilation shading net structure as described.

  By applying the ventilation light-shielding net structure of the present invention to an outdoor unit, the load on the outdoor unit can be reduced to reduce power consumption and the like. In addition, the operation load of the outdoor unit is suppressed throughout the year such as summer and winter.

It is a perspective view which shows the structure outline | summary of the outdoor unit to which this invention is applied. It is a perspective view which shows the structure outline | summary of the ventilation light shielding net structure which concerns on 1st embodiment of this invention. It is a perspective view which shows the structure outline | summary of the light-shielding net and light-shielding net frame which concern on 1st embodiment of this invention. It is a side view which shows the structure outline | summary of the suction inlet light shielding part of the ventilation light shielding net structure which concerns on 1st embodiment of this invention. It is a side view which shows the structure outline | summary of the intake / exhaust short-circuit prevention part of the ventilation light-shielding net structure which concerns on 1st embodiment of this invention. It is a photograph which shows the external appearance of the light shielding sheet used for the Example of this invention. It is a graph which shows the power consumption concerning the Example of this invention.

  DESCRIPTION OF EMBODIMENTS Embodiments of the present invention will be described in detail below. However, the description of constituent elements described below is an example (representative example) of an embodiment of the present invention, and the present invention will be described below unless the gist thereof is changed. It is not limited to the contents. In addition, when using the expression “to” in this specification, it is used as an expression including numerical values before and after that.

[Outdoor unit]
In describing the ventilation shading net structure according to the first embodiment of the present invention, first, a schematic configuration diagram of an outdoor unit is shown in FIG. There are various types of outdoor units. For example, as shown in FIG. 1, the outdoor unit 2 includes a suction port 21 and an exhaust port 22, and includes an inspection port 23 and the like. Generally, the outdoor unit 2 has a casing shape, and a heat exchange system is built in the casing. The outdoor unit 2 is connected to an indoor unit (not shown) of a building or room to be air-conditioned by piping, and through the piping, heat exchange according to purposes such as cooling and heating is performed. Perform on each machine. Then, cool air, warm air, and the like are blown to a building or room by an indoor unit, while the outdoor unit 2 also performs heat exchange according to the operation to exhaust warm air, cold air, or the like. The outdoor unit 2 is usually installed outdoors, and is susceptible to environmental influences such as installation location and season. The present invention suppresses the burden caused by the environmental influence on the outdoor unit 2. The present invention is not limited to the one illustrated in the outdoor unit 2, and the number and direction of intake and exhaust ports are not limited and can be applied to all outdoor units.

[First embodiment]
A first embodiment of the present invention is shown in FIG. FIG. 2 is a perspective view showing an overall outline of the outdoor unit 2 shown in FIG. 1 in which the ventilation light shielding net structure 10 is installed. Below, the time when it sees from the inlet 21 side of the outdoor unit 2 is demonstrated as the front of the outdoor unit 2 and the ventilation light-shielding net structure.

  FIG. 3 is a perspective view for explaining the light shielding sheet 31 and the light shielding sheet frame 32 arranged around the upper surface of the outdoor unit 2 of the ventilation light shielding net structure 10. FIG. 4 is a side view of the ventilation light shielding net structure 10 for explaining the suction port light shielding part 11 of the ventilation light shielding net structure 10. FIG. 5 is a side view of the outdoor unit 2 and the ventilation light shielding net structure 10 for explaining the intake / exhaust short circuit prevention unit 12 of the ventilation light shielding net structure 10.

[Ventilation light shielding net structure 10]
The ventilation shading net structure shown in FIG. 2 is the ventilation shading net structure 10 attached to the outdoor unit 2 shown in FIG. FIG. 3 illustrates an example of the ventilation light-shielding net structure 10 arranged on the upper surface of the outdoor unit. The ventilation light shielding net structure 10 includes a light shielding sheet 31 having air permeability and a light shielding sheet frame 32 on which the light shielding sheet disposed around the outdoor unit is stretched. That is, a ventilation light-shielding net structure is installed in an outdoor unit using a frame of the light-shielding sheet frame 32 and a frame in which the light-shielding sheet 31 is stretched. The light shielding ratio of the light shielding sheet 31 is 70% or more and 95% or less, the strength of the light shielding sheet 31 is 850 N or more, and the elongation of the light shielding sheet 31 is 30% or more.

[Suction port shading part 11]
As shown in FIG. 2, the ventilation light-shielding net structure 10 is configured such that the light-shielding sheet 31 is covered so that the suction port 21 of the outdoor unit 2 is shaded, and the clearance with the surface of the suction port 21 is 20 cm or more. A light shielding part 11 is provided. The suction port light blocking unit 11 will be described in more detail with reference to FIG. The suction port light shielding unit 11 is installed around the outdoor unit 2 using a light shielding sheet frame 32 having a light shielding sheet 31 stretched thereon.

  The suction port light shielding unit 11 covers the suction port 21 so as to be shaded. For this reason, it installs so that the light ray L1 of sunlight hardly illuminates the suction inlet 21 during the daytime.

  As shown in FIG. 4, the suction port light shielding unit 11 has a structure in which the suction port 21 is covered with a light shielding sheet 31 from a position in the vertical direction higher than the upper end side of the suction port 21 of the outdoor unit 2. More specifically, when the suction port 21 side of the outdoor unit 2 is the front surface of the outdoor unit 2, the suction port light shielding unit 11 includes a light shielding sheet surface 111 provided in the vertical direction so as to face the front surface, and the suction unit The light shielding sheet surface 112 extending horizontally from the upper end of the surface on the mouth 21 side to the light shielding sheet surface 111 side, and the light shielding sheet surface 111 side in the direction perpendicular to the surface of the suction port 21 from the side portion side of the surface on the suction port 21 side And a light-shielding sheet surface 113 that is stretched to the right. And the suction inlet light-shielding part 11 is the structure which makes the shade area | region 11a around the suction inlet 21. As shown in FIG.

  By forming this shaded area 11a, the suction port 21 draws in a gentle gas intake air F1 that has passed through the shaded area 11a and the influence of the season and time is suppressed by the shaded area 11a. Since the light shielding sheet also has air permeability, the intake air F1 is stably sucked into the shaded area 11a from the outside of the shaded area 11a.

  The outdoor unit 2 sucks air through the shaded area 11a instead of the air whose temperature has been increased by direct sunlight during the summer, particularly during the daytime, by having the suction port light shielding part 11 and the shaded area 11a. It will be a thing. Moreover, the temperature rise of outdoor unit 2 itself, especially the suction inlet 21 periphery can also be prevented, and the driving | operation in an overheated state can be avoided. For this reason, the operation load of the outdoor unit 2 is suppressed, a stable operation can be performed at a low load, and power consumption can be reduced.

  In addition, the temperature of the outdoor unit 2 is too low, such as during winter, when the temperature drops, especially at night, because the ambient temperature of the outdoor unit 2 is too low due to the effects of cold wind, snow, rain, etc. The operating load may be high. However, by having the inlet light shielding part 11 as shown in the present embodiment and forming the shaded area 11a, it is possible to suppress a large temperature change effect due to the cold wind around the inlet 21, etc. However, the operation load of the outdoor unit 2 is suppressed, and a stable operation can be performed at a low load, so that power consumption can be reduced.

  The suction port light shielding unit 11 is covered so that the suction port of the outdoor unit is shaded, and the clearance from the surface of the suction port is set to 20 cm or more. This gap is the distance between the surface of the suction port 21 in the outdoor unit 2 and the light shielding sheet facing the suction port 21, and is the distance d1 between the surface of the suction port 21 and the light shielding sheet surface 111 shown in FIG. When this distance d1 is too short than 20 cm, the sufficient shade area | region 11a cannot be obtained around the suction inlet 21, and the operation load suppression effect by the shade area | region 11a, etc. may not be acquired. In addition, although the air inlet 21 sucks air, the light shielding sheet surface 111 may be disposed too close to obstruct air suction and may increase the operating load. For this reason, distance d1 shall be 20 cm or more.

  This distance d1 is preferably 25 cm or more, and more preferably 30 cm or more. On the other hand, it may be expanded to an arbitrary range as long as the effect can be obtained, but the effect of forming the shaded area 11a is saturated even if it is arranged too far away, and the installation is difficult due to the restriction of the outdoor unit installation location. Or an upper limit may be set because it may be harmful to traffic or inspection. The upper limit of the distance d1 is preferably 100 cm or less, and more preferably 80 cm or less.

[Intake / exhaust short circuit prevention unit 12]
As shown in FIG. 2, the ventilation light shielding net structure 10 has an intake / exhaust short-circuit prevention unit 12 disposed between the exhaust direction of the exhaust port 22 of the outdoor unit 2 and the intake direction of the intake port 21 of the outdoor unit 2. doing.

  FIG. 5 is a diagram for explaining the intake / exhaust short-circuit prevention unit 12, as viewed from the side surface direction of the outdoor unit 2. FIG. 5A is a view for explaining intake / exhaust in the outdoor unit 2 before the ventilation light-shielding net structure is provided.

  As shown in FIG. 5A, the outdoor unit 2 sucks the intake air F <b> 1 from the suction port 21, is used for heat exchange in the outdoor unit, and the exhaust F <b> 2 is discharged from the exhaust port 22. Although there is a temperature difference between the intake air F1 and the exhaust gas F2, the outdoor unit 2 is usually designed so that the intake and exhaust air are sufficiently separated. However, if there is a wall around the place where the outdoor unit 2 is installed, wind is strong, or a light shielding sheet is provided around the outdoor unit 2, an intake / exhaust short circuit (so-called short circuit) occurs, and the exhaust F2 is There may be a case where a short circuit flow F3 flowing into the intake air F1 occurs. When this intake / exhaust short circuit occurs, it becomes necessary to perform heat exchange or the like in the outdoor unit 2 so that a temperature difference is generated compared to the gas of the exhaust F2, so that the operation load increases.

  In the embodiment of the present invention, in order to prevent this intake / exhaust short circuit, the intake / exhaust short circuit prevention unit 12 is provided by the light shielding sheet frame on which the light shielding sheet is stretched. As shown in FIG. 5B, the intake / exhaust short circuit prevention unit 12 is disposed between the exhaust F2 direction of the outdoor unit 2 and the intake F1 direction of the outdoor unit 2. The intake / exhaust short circuit prevention unit 12 can prevent the short circuit flow F3. The intake / exhaust short-circuit prevention unit 12 may have a structure using a light shielding sheet frame that is the same as the light shielding sheet frame forming the suction port light shielding unit described above. That is, the light shielding sheet surface 112 in FIG. 4 may be a part of the intake / exhaust short circuit prevention unit 12 and the suction port light shielding unit 11.

[Outdoor unit shading part 13]
The ventilation light shielding net structure 10 of the present embodiment further includes an outdoor unit light shielding unit 13 provided on the inspection port 23 side of the outdoor unit 2. By providing the suction port light shielding unit 11 and the intake / exhaust short circuit preventing unit 12 described above, the operation load of the outdoor unit 2 due to seasonal variation or the like can be significantly suppressed. In addition to this, the outdoor unit light-shielding unit 13 can be provided using a light-shielding sheet or the like around the outdoor unit within a range that is allowed according to the location or environment where the outdoor unit 2 is installed.

  The outdoor unit shading unit 13 can be provided at a position facing the surface of the inspection port 23 of the outdoor unit 2 or the like. Here, the inspection port refers to both the surface of the outdoor unit 2 provided with the suction port and the surface other than the surface provided with the exhaust port. The surface of this inspection port is simply provided with a plate part that forms part of the casing of the outdoor unit, pipes for connection with the indoor unit are connected, etc. In addition, various sensor display sections and openings for management are provided.

  One or more light-shielding sheets are provided so as to face any surface of the inspection port 23, and the outdoor unit light-shielding unit 13 is provided with a shaded area or air conditioning area between the outdoor unit 2. And The outdoor unit light-shielding unit 13 is arranged with respect to the surface of the inspection port 23 instead of the surface of the suction port 21 according to the concept of the position and gap common to the arrangement of the light-shielding sheet 31 with respect to the surface of the suction port 21 of the suction port light-shielding unit 11. As described above, the light shielding sheet frame 32 can be provided. By providing this outdoor unit light-shielding part 13 on at least one of the surfaces of the inspection port 23, the outdoor unit 2 cooperates with the suction port light-shielding part 11 and the intake / exhaust short-circuit prevention part 12, so that The influence of wind etc. can be suppressed. Thereby, the operation load of the outdoor unit 2 can be further suppressed.

[Shading sheet frame]
The light shielding sheet 31 is stretched around the light shielding sheet frame 32 and disposed at a predetermined position. Then, the light-blocking sheet frame 32 with the light-blocking sheet 31 is provided to provide the suction port light-blocking unit 11, the intake / exhaust short-circuit prevention unit 12, and the outdoor unit light-blocking unit 13. Any light shielding sheet frame (light shielding sheet frame 32) may be used as long as the light shielding sheet frame is a frame that stretches the light shielding sheet. For example, a rod-shaped body or a plate-shaped body is arranged at a position to be a side of the surface by each light-shielding sheet, a square shape with a light-shielding sheet arrangement portion of the plate-shaped body opened, a U-shaped frame / plate, etc. May be used. The ventilation light-shielding net structure is appropriately adjusted depending on the shape of the outdoor unit and the location of the outdoor unit.Therefore, a frame is made using a rod-shaped body such as an iron pipe, and a light-shielding sheet is wrapped around the rod-shaped body. It is preferable to provide a joint portion for attaching the sheet to the rod-shaped body, or to fix the light shielding sheet to the rod-shaped body with a fixing jig.

[Shading sheet]
In the present invention, an air-permeable light shielding sheet (light shielding sheet 31) is used. This light shielding sheet has a light shielding ratio of 70% to 95%, a strength of 850 N or more, and an elongation of 30% or more. Hereinafter, the characteristics of the light shielding sheet will be described in more detail.

  The light shielding sheet used in the present invention has a light shielding ratio of 70% to 95%. The outdoor unit is generally installed outdoors, and an increase in operating load due to the outdoor unit being heated by sunlight causes a problem. Therefore, it is effective to shield the sunlight. Therefore, a light shielding sheet that achieves a predetermined light shielding rate is used. By setting the light blocking rate to 70% or more, it is possible to prevent the outdoor unit from being heated by sunlight. The lower limit of the light shielding rate is preferably 75% or more, more preferably 80% or more.

  On the other hand, the light shielding sheet should not affect the airflow for intake and exhaust of the outdoor unit around the outdoor unit. For this reason, a light-shielding sheet having air permeability is used, but in order to maintain the air permeability, the light-shielding sheet has holes, and light is transmitted through the holes. In winter, it is possible to prevent the surroundings of the outdoor unit from becoming too cold due to light transmission. The upper limit of the light shielding rate is preferably 93% or less, and more preferably 90% or less. The light blocking ratio can be measured by JIS L1055 (2009) A method.

  The light shielding sheet used in the present invention has a strength of 850 N or more. Since the light shielding sheet has a certain strength, the workability of the light shielding net structure is improved, and bending due to intake and exhaust of the outdoor unit can be suppressed. When the strength of the light shielding sheet is too low, when the light shielding sheet is stretched on the light shielding sheet frame, it will be broken by the tension, it will be easily damaged by the coupling tool, or something will collide because it is placed outside There is a risk of tearing easily. From such a viewpoint, the strength of the light shielding sheet is 850 N or more. More preferably, it is 900 N or more. On the other hand, the upper limit of the strength does not need to be set, but considering the upper limit of the physical properties of the resin sheet that can be widely used as a light-shielding sheet, and handling properties such as cutting, repairing, and removal during construction. Thus, an upper limit of strength may be provided. The upper limit of the strength can be 1500 N or less, 1400 N or less, 1300 N or less, or 1200 N or less.

  As the light-shielding sheet, a sheet manufactured as a wound body obtained by winding a sheet strip of several tens of meters or more is generally used. The strength of the light-shielding sheet used in the present invention is the strength in the two directions of the vertical direction, which is the flow direction (MD) of the sheet at the time of manufacture, and the horizontal direction (TD) perpendicular to the flow direction. It is about. The strength and elongation are preferably measured at the time of installation of the ventilation light-shielding net structure (for example, within about two months after installation).

  The light-shielding sheet used in the present invention has an elongation of 30% or more. Since the light shielding sheet has a certain degree of elongation, it is excellent in operability during construction, and can be bent to such an extent that it can be appropriately received with respect to an air flow caused by intake and exhaust of an outdoor unit. If the elongation of the light shielding sheet is too low, it may be difficult to stretch on the light shielding sheet frame, or may be easily broken due to expansion / contraction due to seasonal factors or collision of objects when used for a long time. From such a viewpoint, the elongation of the light shielding sheet is 30% or more. Preferably it is 35% or more, More preferably, it is 38% or more. On the other hand, the upper limit of the elongation does not need to be set, but the upper limit of the physical properties of the resin sheet as well as the strength, and it is prevented from being deformed or sucked in due to excessively high elongation and bending. Therefore, an upper limit of elongation may be provided. The upper limit of the elongation can be 200% or less, 150% or less, 100% or less, 80% or less, or 60% or less.

  The strength and elongation of the light shielding sheet used in the present invention are measured by the method described in JIS L1096 (2010) 8.14.1. According to the labeled strip method, the type of the tester is a constant speed extension type, the width of the test piece is 50 mm, the gripping interval is 200 mm, the tensile speed is 200 mm / min, and the average value of five test pieces is used.

  The light-shielding sheet used in the present invention can be produced by selecting a yarn or a woven (knitted) structure with reference to Patent Documents 6 to 9. More specifically, the light shielding sheet used in the present invention can be produced using a thermoplastic resin. Examples of the thermoplastic resin include polyolefin resins such as polypropylene and polyethylene, polyester resins such as polyethylene terephthalate, polyvinyl alcohol, polyvinyl chloride, polystyrene, and polyamide. The light-shielding sheet used in the present invention preferably has a structure in which a thread of a high-density polyethylene resin composition is knitted. By setting it as such a light shielding sheet, it can be set as the ventilation light-shielding net structure which satisfied the light-shielding rate etc. which are calculated | required by this invention, and there existed the outstanding effect and was excellent also in durability.

  A high-density polyethylene resin composition is a composition containing an additive group consisting of a weathering agent such as a coloring material, an ultraviolet absorber, a light stabilizer, and an antioxidant as appropriate, using a high-density polyethylene resin as a base resin. It is. By using such a high-density polyethylene resin, a light-shielding sheet excellent in strength, elongation and the like can be obtained.

  The yarn forming the light shielding sheet may be a twisted yarn or a non-twisted yarn. In consideration of the strength and elongation of the yarn itself, and the ease of application to a light-shielding sheet having a woven structure, monofilaments, flat yarns, split yarns and the like can be preferably used, and monofilaments and flat yarns are particularly preferably used. It is done. The thickness of the thread used for the light shielding sheet is suitably about 100 dtex to 2000 dtex. The thickness of the yarn is appropriately selected depending on whether it is a woven warp yarn or an insertion yarn. If the yarn is thinner than this, it may be difficult to achieve strength and elongation, and it may be difficult to adjust the light-shielding property because the area of the yarn itself tends to decrease. Further, a thicker thread is insufficiently stretched as a thread and has low durability, and the number of driving for forming a sheet is relatively low, so that the tear resistance of the sheet may be reduced. .

  The light shielding sheet used in the present invention preferably has a woven structure. The light shielding property and mechanical strength can be adjusted depending on the thickness and type of the yarn used in the woven structure, and it is suitable in that air can be ventilated from the hole between the woven structures. As the woven structure, any woven structure such as plain weave, entangled weave, and Russell knitting can be adopted. In particular, Russell knitting is preferred because it maintains light-shielding properties, mechanical strength, air permeability, and mass productivity and is less likely to be damaged by long-term outdoor use.

  When raschel knitting is used, it is preferable to use a warp yarn of 300 to 500 dtex, more preferably 350 to 450 dtex. On the other hand, the insertion yarn is preferably 800 to 1200 dtex, more preferably 900 to 1100 dtex. By adopting the yarn in such a range, it is easy to achieve the light shielding property, mechanical strength, and air permeability as the light shielding sheet used in the present invention.

  Russell knitting structure suitable for the present invention is, for example, a warp yarn (warp, cord) knitted with two monofilaments, and insert yarn (weft) between 6E and 6 stitches (about 4mm per stitch) Can be used in which a monofilament insertion yarn and a tape yarn insertion yarn are alternately knitted so that the yarns overlap one another.

The light-shielding sheet used in the present invention preferably has a basis weight of 200 g / m ² or more and 300 g / m ² or less. The light-shielding sheet used in the present invention has a high light-shielding property, is not easily affected by intake and exhaust of the outdoor unit, and has a high mechanical strength in order to withstand long-term use outdoors. Generally light shielding sheet to achieve the light blocking ratio required for light shielding sheet used in the present invention, the basis weight is less than 200 g / m ^2, is often primarily 100~180g / m ² approximately. This is because a general shading sheet is used as a roof for shading for agricultural purposes when creating crops, etc., so it is light enough to make it easy to stretch with a wide simple framework at the same time as the shading rate Is required. On the other hand, in the present invention, although the temperature change around the outdoor unit covered by the light shielding sheet is suppressed and the strength for long-term use is also required, the covering range is limited to the periphery of the outdoor unit, and the light shielding sheet frame Use while reinforcing. Therefore, those having a feeling of weight and stability are preferably used, and there are few adverse effects of using a sheet having a large basis weight. From such a viewpoint, it is preferable to use a sheet having a basis weight as described above.

If the weight per unit area is too small, the light-shielding property is likely to be lowered, or the air permeability is too high, and the temperature control property, particularly the heat retaining property in winter may be lowered. On the other hand, if the basis weight is too large, the light shielding property may be too high, the air permeability may be too low, or the handling may be difficult during construction. The lower limit of the basis weight is preferably 220 g / m ² or more, and more preferably 230 g / m ² or more. The upper limit of the basis weight is preferably from 280 g / m ² or less, more preferably 260 g / m ^2. The basis weight can be obtained by converting the basis weight per unit area from the result of cutting the light shielding sheet and measuring the weight per area.

  The light shielding sheet used in the present invention preferably has an air permeability of 25% or more and 45% or less. When the air permeability is within this range, air movement between the regions sandwiching the light shielding sheet occurs moderately, and the outdoor unit operating load suppression effect as a ventilation light shielding net structure using the light shielding sheet is excellent. . If the air permeability is too high, the light-shielding sheet will not function as an intake / exhaust short-circuit prevention section, causing a short-circuit flow, reducing the heat retention in winter, etc. There is a possibility that the effect of suppressing the driving load cannot be obtained by inhaling the outside air as it is. On the other hand, if the air permeability is too low, the air permeability is insufficient, there is a risk that an appropriate air-conditioning effect cannot be obtained due to insufficient intake air amount, or the operating load of the outdoor unit becomes high.

The air flow rate is determined by blowing a constant wind into a pipe having a cross-sectional area of 20 cm ² , and an air volume of a blank passing through the pipe without attaching anything to the pipe, and an air volume with a sheet passing through the pipe when a sheet is attached to the pipe. And the ratio of “air volume with sheet / air volume of blank” is obtained as the air permeability (%) based on the average value during 10 tests. Change the place of the same sheet a little, and the average measured three times is taken as the air permeability of the sheet. Note that the distance between the sample and the circulator is 60 cm, and the distance between the sample and the air flow measuring device is 20 cm.

  In the light-shielding sheet used in the present invention, the high-density polyethylene resin composition used in the light-shielding sheet preferably contains at least one or more selected from the group consisting of a black pigment, an ultraviolet stabilizer, and a weathering agent. By containing a black pigment, it becomes easy to improve light-shielding property and weather resistance. Furthermore, the weather resistance of the light shielding sheet exposed to sunlight outdoors improves more by containing a ultraviolet absorber and a light stabilizer. By containing these weathering agents, an excellent weather resistance is exhibited as a light-shielding sheet having a ventilation light-shielding net structure that is used throughout the year due to a difference in temperature.

Carbon black can be used as the black pigment. Other black pigments include organic pigments, inorganic pigments, acrylic resin beads, mixed pigments, and the like. A master batch having a pigment concentration of about 10/100 to 1/100 in a dilution ratio (mass ratio) is added to the high density polyethylene resin composition, and the pigment concentration in the high density polyethylene resin composition of the entire sheet is, for example, 0. It can be 1 to 5.0% by weight or 0.5 to 3.0% by weight.
Weathering agents include heavy metal deactivators, hydrazides and amides; UV absorbers, benzotriazoles, benzophenones, and triazines; radical scavengers, HALS and phenolic antioxidants; peroxide decomposing agents, phosphorus A system antioxidant, a sulfur system antioxidant, etc. can be used. Similarly to the pigment, the concentration of the weathering agent in the high-density polyethylene resin composition of the entire sheet can be, for example, 0.1 to 5.0% by weight or 0.5 to 3.0% by weight.

The light shielding sheet used in the present invention is preferably excellent in weather resistance. It is preferable that this weather resistance has the weather resistance excellent with respect to an ultraviolet-ray, since the light shielding sheet used for this invention is mainly used outdoors. As this index, it is possible to use a change when the strength and elongation are measured in accordance with JIS L1096 (2010) and the acceleration test is performed. The strength and elongation for weather resistance evaluation can be obtained by using an average value of three test pieces, using a tester, with the width of the test piece being 25 mm, the gripping interval being 100 mm, and the tensile speed being 100 mm / min. . The acceleration test is performed with a metal halide lamp type tester, and by continuous irradiation, the irradiance is 100 mW / cm ² (wavelength 295 to 450 nm), the BP temperature is 63 ° C. (± 3 ° C.), and the humidity is 60 RH% (± 5%). Irradiate for 100 hours, 300 hours, or 500 hours. The strength for obtaining the strong elongation after irradiation for a predetermined time and the retention rate of the elongation can be used as an index. The light-shielding sheet used in the present invention is preferably 80% or more with a 100-hour retention rate of strength and elongation. Moreover, 50% or more is more preferable with a 300-hour retention rate. Moreover, 30% or more is more preferable at a 500-hour retention rate.

[Ventilation shading net structure]
Based on the structure as described above, the ventilation light-shielding net structure of the present invention may be installed such that it can be further modified according to the season and weather. For example, as a sheet frame structure that can variably adjust the area covered by the light shielding sheet on the upper side of the outdoor unit, in summer, the sheet frame structure is moved to the upper part, and a range that is not closed by the light shielding sheet is provided at the upper part for ventilation. Maintains heat retention as it is difficult to circulate with the outside air by improving the circulation with the outside air and by lowering the seat frame structure in winter and covering the area around the inlet of the outdoor unit with a light shielding sheet. Can be improved.

  EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to a following example, unless the summary is changed.

[Installation conditions]
Two outdoor units installed on the roof of a hotel in Kagoshima Prefecture were tested as an outdoor unit A and an outdoor unit B. The effect of the present invention is confirmed as an example in which one outdoor unit is used as a reference test without using a conventional ventilation shading net structure and the like, and the other is installed with the ventilation shading net structure according to the present invention. A test was conducted. In addition, in order to confirm the influence of an operating condition or an installation place, the blank of A and B and the Example were changed and tested by the operation time.
The outdoor unit ("RZYP280AA" manufactured by Daikin Co., Ltd., height 1680 mm, width 930 mm, depth 765 mm) has a configuration similar to that shown in FIG. It has a structure in which an inspection port is provided on the side surface, a space by a scaffold is provided at the lower part of the outdoor unit, and piping with the indoor unit is provided via the space at the lower part of the outdoor unit.

[Test period]
(1) 8 / 20-8 / 24 (average temperature 28.75 ° C during the period)
Outdoor unit A: Example (with ventilation light-shielding net structure), Outdoor unit B: Blank (2) 9/7 to 9/11 (average temperature 25.97 ° C. during the period)
Outdoor unit A: Blank, Outdoor unit B: Example (with ventilation light-shielding net structure)

[Shading sheet]
Using a high-density polyethylene resin composition containing a black pigment, a light-shielding sheet having a Russell knitted structure (number of driven-in wires 6 / inch) was produced. The main specifications are as follows. Moreover, the photograph which shows the external appearance of this light shielding sheet is shown in FIG.
-Warp yarn: 420 dtex-Monofilament-Insertion yarn: 1060 dtex-Tape-like yarn-Shading rate: 85%
・ Strength: Vertical direction 920N, horizontal direction 935N
・ Elongation: 45% in the vertical direction, 40% in the horizontal direction
-Weight per unit area: 246 g / m ²
Air permeability: 33.2% (average air flow rate = 8.41 (m ³ / h / 20 cm ² ))

[Ventilation shading net structure]
Using the light shielding sheet, a ventilation light shielding net structure was provided around the outdoor unit in an arrangement according to the first embodiment. A light-shielding sheet frame for stretching the light-shielding sheet by stretching 30 cm from the upper surface of the outdoor unit in four directions in the outer direction parallel to the upper surface was provided, and a light-shielding sheet parallel to the upper surface of the outdoor unit was provided. Furthermore, a light shielding sheet frame in the vertical direction is provided at the bottom of the light shielding sheet frame extended from the upper surface of the outdoor unit so as to face the suction port and inspection port surface on the side of the outdoor unit, and the light shielding that faces the suction port surface and the inspection port surface is provided. A sheet was provided. In addition, about 30 cm below each surface was made open because pipes and the like were provided. Thus, the ventilation light-shielding net structure is provided in such a structure as to open the exhaust port surface on the upper surface side of the outdoor unit and cover the whole from the upper end of the outdoor unit.
-Suction port light shielding part By the ventilation light shielding net structure described above, a light shielding sheet having a gap (distance d1) of 30 cm is arranged opposite to the suction port surface to form a suction port light shielding part.
-Intake / exhaust short-circuit prevention part With the above-described ventilation light-shielding net structure, a light-shielding sheet extended in parallel with the upper surface of the outdoor unit is arranged to form an intake / exhaust short-circuit prevention part.
-Outdoor unit light-shielding part With the above-described ventilation light-shielding net structure, a light-shielding sheet with a clearance of 30 cm is arranged facing the inspection port surface to form an inspection port light-shielding unit.

[result]
The result of measuring the power consumption of each outdoor unit is shown in FIG. FIG. 7 shows a change in current over time and an active power amount that is an accumulation of power consumption during the test period (horizontal axis).
The upper graph in FIG. 7 shows the test results from 8/20 to 8/24. The power consumption of the outdoor unit A provided with the ventilation light-shielding net structure was 173 kWh. On the other hand, the conventional outdoor unit B was 282 kWh. According to the present invention, the outdoor unit A achieved a power consumption reduction of about 39%.
The lower graph of FIG. 7 shows the test results from 9/7 to 9/11. The power consumption of the outdoor unit B provided with the ventilation light-shielding net structure was 130 kWh. On the other hand, the conventional outdoor unit A was 203 kWh. According to the present invention, the outdoor unit B achieved a power consumption reduction of about 36%.
As described above, by providing the ventilation light-shielding net structure of the present invention, the load of the outdoor unit is suppressed by reducing the airflow sucked by the outdoor unit or avoiding overheating of the outdoor unit itself.

  In addition, as a result of operating these outdoor units with a ventilation light-shielding net structure throughout the year, it was possible to reduce power consumption in the winter as well as in the summer as compared with the conventional period. Furthermore, although it is arranged and used outdoors, there was no significant change in appearance after use for about one year, and the burden of maintenance was small.

  ADVANTAGE OF THE INVENTION According to this invention, the ventilation light-shielding net structure which suppresses the operating load of an outdoor unit is provided. The outdoor unit provided with this ventilation light-shielding net structure has a reduced operating load, which contributes to a reduction in power consumption.

DESCRIPTION OF SYMBOLS 10 Ventilation light shielding net structure 11 Suction inlet light shielding part 12 Intake / exhaust short circuit prevention part 13 Outdoor unit light shielding part 111, 112, 113 Light shielding sheet surface 11a Shade area 2 Outdoor unit 21 Suction inlet 22 Exhaust outlet 23 Inspection opening 31 Light shielding sheet 32 Light shielding sheet frame

Claims (7)

A ventilation light shielding net structure having a light shielding sheet having air permeability and a light shielding sheet frame on which the light shielding sheet disposed around an outdoor unit is stretched,
The light shielding sheet frame covers the suction port of the outdoor unit so that it is shaded, and has a suction port light shielding part with a gap of 20 cm or more between the surface of the suction port, the exhaust direction of the exhaust port of the outdoor unit, and the outdoor An intake / exhaust short-circuit prevention portion arranged between the intake direction of the suction port of the machine,
A ventilation light shielding net structure in which the light shielding rate of the light shielding sheet is 70% or more and 95% or less, the strength of the light shielding sheet is 850 N or more, and the elongation of the light shielding sheet is 30% or more.   The ventilation light-shielding net structure according to claim 1, further comprising an outdoor unit light-shielding part provided on an inspection port side of the outdoor unit.   The ventilation light-shielding net structure according to claim 1 or 2, wherein the suction port light-shielding portion has a gap with the surface of the suction port of 100 cm or less. Ventilation shielding net structure according to any one of claims 1 to 3 weight per unit area is 200 g / m ² or more 300 g / m ² or less of the light shielding sheet.   The ventilation light shielding net structure according to any one of claims 1 to 4, wherein an air permeability of the light shielding sheet is 25% or more and 45% or less.   The ventilation light shielding net structure according to any one of claims 1 to 5, wherein the light shielding sheet has a structure in which a thread of a high density polyethylene resin composition is knitted.   7. The ventilation light shielding according to claim 6, wherein the high-density polyethylene resin composition contains at least one selected from the group consisting of a black pigment and a weathering agent such as an ultraviolet absorber, a light stabilizer, and an antioxidant. Net structure.