JP2009144376A - Dew condensation prevention sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a simple anticondensation sheet with a heat insulation effect and an anticondensation effect in the constitution, which dispenses with the use of an adhesive etc. during attachment to a windowpane etc. <P>SOLUTION: In this dew condensation prevention sheet for being stuck on a surface to be stuck, an opening is provided on the side of a sticking surface, and a plurality of sealed cells are provided on the side of the other surface. A suction cup action exerted by the plurality of cells makes the dew condensation prevention sheet stuck on the surface to be stuck. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a sheet for preventing condensation that occurs on an indoor wall surface and / or glass window, and more specifically, improves the heat insulating performance of the indoor wall surface and / or glass window surface, and is detachable with no adhesive residue after the sheet is peeled off. The present invention relates to a condensation prevention sheet for preventing a decrease in room temperature and condensation in a cold season or a rainy season.

In a building such as a general house, condensation may occur on the interior wall surface or the surface of the window glass in the cold season or the rainy season. Especially in the cold season, the temperature difference between the outside air and the room temperature is increased by using a heater or the like indoors. When the temperature difference between the inside and outside of the room increases, warm air containing water vapor in the room is cooled on the surface of the window glass, and when the amount of saturated water vapor is exceeded, condensation occurs on the surface of the window glass.
If condensation on the window glass or aluminum sash surface flows into the wooden frame of the window, the deterioration of the member due to the occurrence of mold, etc., if water drops adhere to the curtain, it may cause stains and mold Many problems are caused by condensation.

As countermeasures, building materials such as double sashes and paired glass have been used. In particular, in cold regions such as Hokkaido and Tohoku regions, the building materials are suitably used in the cold winter.
However, in relatively warm regions such as the Kanto and Kansai regions, interest in the problem of dew condensation is relatively low, and due to the high cost of these building materials, double sashes and paired glass are difficult to spread. is there. In addition, even if you suffer from the problem of condensation after residence, it is technically and costly difficult to perform the retrofitting of these double sashes and paired glass.

  In order to solve this problem, a dew condensation prevention sheet that can be used for an existing window glass has been proposed. For example, in Japanese Patent Application Laid-Open No. 2000-154600, an air sealing sheet in which air sealing regions are subdivided into a plurality of locations is adhered to the window glass surface with an adhesive, and an air layer is included to prevent condensation by including an air layer. A cushioning material (air cap) -like dew condensation prevention sheet has been proposed.

  However, in the air-sealing sheet, an adhesive or the like is used for the adhesive layer formed for the purpose of adhesion between the window glass, and when the sheet becomes unnecessary, such as in summer, the sheet is peeled off. Adhesives and the like may remain on the window glass. In addition, since an adhesive or the like is used, when the sheet is attached to the glass surface, it is necessary to finely adjust the sheet after the attachment by wetting the glass surface or the attachment surface of the sheet with water. Furthermore, when the sheet is peeled off from the glass surface, the adhesive paste remains on the glass surface, so it is not easy to attach and detach, and the adhesive strength of the adhesive decreases when the sheet is attached and detached multiple times. Has occurred. As described above, since water is used when sticking the sheet, sticking to the wall surface may cause problems such as mold and stains. Furthermore, in cold regions such as Hokkaido and the Tohoku region, dew condensation may not be sufficiently prevented under severe conditions where the temperature of the outside air falls below zero and further humidification by a humidifier or the like indoors.

In order to solve this problem, for example, in Japanese Patent Application Laid-Open No. 2004-92145, a side wall is formed of a synthetic resin plate-like body and protrudes to one side of the plate-like body at the peripheral portion of the plate-like body. A glass covering tool is proposed, in which a flat portion bonded to the glass surface is formed at an end of the side wall portion, and an adhesive layer is provided on the flat portion. Yes.
However, since an adhesive is used for the flat part, there is a problem that the adhesive of the flat part remains on the window glass when the glass covering tool is detached, and a problem that condensation occurs on the flat part. It has not been solved. Moreover, the said glass covering tool is comprised from the resin-made plate-shaped body, the side wall part, the flat part, and the contact bonding layer, and there exists a problem that a structure becomes complicated.

JP 2000-154600 A JP 2004-92145 A

  The present invention has been made to solve the problems of the prior art as described above, has a heat insulation effect and a dew condensation prevention effect, and requires the use of water, an adhesive, or the like when attached to a window glass or the like. The object is to provide a dew condensation prevention sheet having a simple structure.

  The invention according to claim 1 is a dew condensation prevention sheet adhered to a surface to be adhered, and has a plurality of cells in which an opening is provided on the surface to be adhered and the other surface side is sealed. And it is related with the dew condensation prevention sheet | seat characterized by sticking to the said to-be-adhered surface by the suction cup effect | action by these cells.

  The invention according to claim 2 comprises a resin plate and a cover sheet, and the plurality of cells are detachably attached to one surface of the resin plate provided with the plurality of through holes. The dew condensation prevention sheet according to claim 1, wherein the condensation prevention sheet is formed by wearing.

  The invention according to claim 3 relates to the dew condensation prevention sheet according to claim 1, wherein the sheet is integrally molded with resin.

  The invention according to claim 4 is characterized in that the resin has a hardness in a durometer hardness test type A specified in JIS K 7312 of 20 or more and 90 or less, or in a durometer hardness test type C specified in JIS K 7312. The dew condensation prevention sheet according to claim 2 or 3, wherein the hardness is 20 or more and 90 or less.

  The invention according to claim 5 relates to the dew condensation prevention sheet according to any one of claims 1 to 4, wherein the total volume of the plurality of cells is 50 to 95% of the total volume of the dew condensation prevention sheet. .

  The invention according to claim 6 is characterized in that, on the sticking surface side, the ratio of the total opening area of the opening of the cell and the total area of the sticking surface of the dew condensation prevention sheet is 50:50 to 95: 5. It is related with the dew condensation prevention sheet in any one of Claims 1-5.

  The invention according to claim 7 relates to the dew condensation prevention sheet according to any one of claims 1 to 6, wherein a weak adhesive is applied to the sticking surface.

  According to the first aspect of the present invention, the plurality of cells have a suction cup effect and a heat insulation effect because the plurality of cells are provided with openings on the sticking surface side and sealed on the other surface side. In particular, the use of water, an adhesive, or the like is not required, and a dew condensation prevention sheet having a simple configuration can be obtained. Since the anti-condensation sheet itself adheres to the window glass or wall surface due to the suction cup effect, it can be attached to the wall surface, etc., and the anti-condensation sheet is detachable and adheres to the window glass even if it is peeled off It can be set as the dew condensation prevention sheet which an agent does not remain | survive.

  According to the invention of claim 2, the resin plate and the cover sheet are included, and the plurality of cells can be attached and detached with a cover sheet covering the through hole on one surface of the resin plate provided with the plurality of through holes. Since the cover sheet can be appropriately replaced while exhibiting the suction cup effect and the heat insulation effect, it is possible to obtain a dew condensation prevention sheet excellent in functionality and design.

  According to the invention according to claim 3, since the dew condensation prevention sheet is integrally formed of resin, the sealing property of the cell can be increased and the suction cup effect can be exhibited more, the cost is reduced, and the number of parts is reduced. A dew condensation prevention sheet having a simple configuration can be obtained.

  According to the invention of claim 4, the resin plate has a durometer hardness test type A specified in JIS K 7312 of 20 or more and 90 or less, or a durometer hardness test type specified in JIS K 7312. Since the hardness at C is 20 or more and 90 or less, the sticking surface of the dew condensation prevention sheet is soft, so that the suction cup effect can be more effectively exhibited.

  According to the invention of claim 5, since the total volume of the plurality of cells is 50 to 95% of the total volume of the dew condensation prevention sheet, the suction cup effect and the heat insulating effect can be more efficiently exhibited. it can.

  According to the invention which concerns on Claim 6, in the said sticking surface side, the ratio of the total opening area of the opening part of a cell and the total area of the sticking surface of a dew condensation prevention sheet is 50: 50-95: 5. Therefore, the suction cup effect can be exhibited more effectively.

  According to the invention which concerns on Claim 7, since the weak adhesive pressure sensitive adhesive is apply | coated to the said sticking surface side, the adhesiveness of a sticking surface and a glass surface can be improved, and it is more effective. Can exert a sucker effect.

Hereinafter, a preferred embodiment of a dew condensation prevention sheet according to the present invention will be described with reference to the drawings. In addition, in the following description, although the embodiment which sticks a dew condensation prevention sheet to glass, such as a window glass, is described for convenience, it is a window glass etc. that the dew condensation prevention sheet which concerns on this invention is stuck. It is not limited to glass, and can be used for indoor wall surfaces.
1A and 1B are views of a dew condensation prevention sheet according to the present invention, in which FIG. 1A is a perspective view and FIG. 1B is a cross-sectional view in a state of being attached to glass.

  The dew condensation prevention sheet 1 according to the present invention includes a resin plate 9 and a cover sheet 10, and a plurality of through holes are provided in the resin plate 9, and the cell 5 is formed by bonding the cover sheet 10 to the other surface 4 side. Is formed. The plurality of cells 5 have an opening 3 on the sticking surface 2 side, and the other surface 4 is sealed. By sticking the adhesion surface 2 of the dew condensation prevention sheet 1 to the glass 6 such as a window glass while holding the cell bottom 8, the inside of the cell 5 is depressurized and the suction cup effect is generated. Fixed. In the state of being attached to the glass 6 surface, the anti-condensation sheet 1 has an air layer in the cell 5, thereby providing a heat insulating effect and an anti-condensing effect.

  As a material of the resin plate 9, a natural resin such as natural rubber or a synthetic resin that is generally used can be used. It may be a soft resin or a hard resin, and may be a thermoplastic resin or a thermosetting resin, and is not particularly limited as long as it can be used in the present invention. Examples of the synthetic resin include polyvinyl chloride, polyvinylidene chloride, polyvinyl fluoride, polypropylene, polyethylene, polyester, EVA resin, polyurethane, polystyrene rubber, synthetic rubber, silicone rubber, polystyrene elastomer, polyester elastomer, polyamide elastomer. , Polyacrylonitrile, polyamide, polyimide, ABS resin, EVOH resin, MBS resin, PBT resin, PET resin, PTT resin, phenol resin, melamine resin, acrylic resin, epoxy resin and the like. These synthetic resins may be used alone or in combination of two or more. It is particularly preferable to use a soft resin. This is because the use of a soft resin makes it easier to exhibit the suction cup effect of the cell 5 described later, compared to the case of using a hard resin. Preferred soft resins include polyvinyl chloride, polypropylene, polyethylene, polyester, polyurethane, ABS resin, PET resin, polystyrene, polystyrene elastomer, polyester elastomer and the like because they are easily available and easy to process. Can be mentioned.

  The resin plate 9 has a hardness of 20 or more and 90 or less in the durometer hardness test type A specified in JIS K 7312 or a hardness of 20 or more and 90 in the durometer hardness test type C specified in JIS K 7312. The hardness in the durometer hardness test type A specified in JIS K 7312 is more preferably 20 or more and 90 or less, and the hardness in the durometer hardness test type A specified in JIS K 7312. More preferably, the thickness is 40 or more and 90 or less. When the hardness in the durometer hardness test type C specified in JIS K 7312 is 20 or less, the dew condensation prevention sheet 1 is too soft, so the hardness in the durometer hardness test type A specified in JIS K 7312 is 90. Since it is too hard to be above, the inside of the cell cannot be sufficiently depressurized, so that the suction cup effect of the cell 5 to be described later cannot be sufficiently exhibited, which is not preferable in any case.

  The material of the cover sheet 10 is not particularly limited as long as it is used by those skilled in the art, and natural resins such as natural rubber and synthetic resins that are generally used can be used. Examples of the synthetic resin include polyvinyl chloride, polyvinylidene chloride, polyvinyl fluoride, polypropylene, polyethylene, polyester, EVA resin, polyurethane, polystyrene rubber, synthetic rubber, silicone rubber, polystyrene elastomer, polyester elastomer, polyamide elastomer. , Polyacrylonitrile, polyamide, polyimide, ABS resin, EVOH resin, MBS resin, PBT resin, PET resin, PTT resin, phenol resin, melamine resin, acrylic resin, epoxy resin and the like. These synthetic resins may be used alone or in combination of two or more. It is not limited to resin, and glass, metal, etc. can also be used. These materials may be used alone or in combination of two or more. For example, a vinyl chloride steel plate that combines a synthetic resin and a metal, an FRP that combines a synthetic resin and glass, and the like can be given.

  When the resin plate 9 provided with a plurality of through holes and the cover sheet 10 are bonded together, they may be bonded using an adhesive. Examples of the pressure-sensitive adhesive used for bonding include acrylic resin, silicone resin, urethane resin, EVA resin, epoxy resin, polyethylene, polyvinyl acetate, and SBS resin. Moreover, when bonding together without using an adhesive, for example, grease, petrolatum or the like can be used to enhance the sealing property.

By making the cover sheet 10 detachable, the material or the like of the cover sheet 10 can be appropriately changed. For example, from the viewpoint of interior decoration, the color of the cover sheet 10 can be appropriately changed depending on the day, such as green transparent and blue transparent. In summer, a colored transparent cover sheet 10 such as black or brown is used. In the severe cold season, it is possible to appropriately change according to the season, such as using a colorless and transparent cover sheet 10. Further, the processing is simpler than the integral molding, and a mold required for the integral molding is not required, so that it can be manufactured at a low cost.
Moreover, in order to shield the heat ray of sunlight, what laminated | stacked the aluminum vapor deposition layer on the cover sheet 10, what added the heat shield to the cover sheet 10, etc. can also be used. The heat shield used is not particularly limited as long as it is generally used by those skilled in the art.
Furthermore, in order to prevent ultraviolet rays from entering the room, a cover sheet 10 containing an ultraviolet ray preventing agent can be used. Examples of the ultraviolet inhibitor used include an ultraviolet absorber that chemically absorbs and blocks ultraviolet rays, and an ultraviolet scattering agent that physically scatters and blocks ultraviolet rays, but are not particularly limited. The ultraviolet inhibitor can be blended in the synthetic resin forming the cover sheet 10.

  The thickness of the condensation prevention sheet 1 is preferably about 3 mm to 15 mm, more preferably 4 mm to 12 mm, and still more preferably 5 mm to 11 mm. If the thickness of the condensation prevention sheet 1 is less than 3 mm, the volume of the cell 5 described later is small, so that the heat insulation effect is poor and the condensation prevention effect is not sufficiently exhibited. This is because it is not preferable in any case. However, when the dew condensation prevention sheet 1 is used on a single-sided or double-glazed window, a slashing window, or a wall surface in the room other than the window, the thickness of the dew condensation prevention sheet is 3 mm or more and is attached to the window or the like. If possible, it is not particularly limited to 15 mm or less.

  FIG. 2 is a diagram of another embodiment of the dew condensation prevention sheet according to the present invention (hereinafter referred to as the second embodiment, and the above embodiment is referred to as the first embodiment), and (a) is a perspective view; (B) is sectional drawing of the state stuck on glass. In the second embodiment, the resin plate 9 and the cover sheet 10 in the first embodiment are integrally molded. In particular, when the resin plate 9 and the cover sheet 10 are made of the same material, it is preferable that they are integrally molded as in the second embodiment. This is because by integrally molding, the sealing property of the cell 5 can be further improved, the number of parts is small, and the configuration is simple. The integral molding method is not particularly limited as long as it is a method generally used by those skilled in the art, and examples thereof include direct pressure molding, injection molding, extrusion molding, vacuum molding, blow molding, optical molding, and dipping molding. .

In the second embodiment, the color of the anti-condensation sheet 1 is not particularly limited. However, considering that it is generally used for glass such as a window glass in a severe cold period, a colorless and transparent one is used from the viewpoint of daylighting. It is preferable to adopt. However, considering that the dew condensation prevention sheet 1 according to the present invention exhibits a heat insulating effect, it can be used to improve cooling efficiency in summer. In this case, it is also possible to make the color transparent such as black, brown, etc. so as to cut the sun rays inserted into the room to some extent. Further, from the viewpoint of design, such as interior decoration, green, blue, etc. can be made colored and transparent. Furthermore, from the viewpoint of privacy protection, it is possible to make it opaque so that it cannot be seen from the outside.
Moreover, in order to shield the heat ray | sunlight of sunlight, what laminated | stacked the aluminum vapor deposition layer on the dew condensation prevention sheet 1, what added the heat shielding agent to the dew condensation prevention sheet 1, etc. can also be used. The heat shield used is not particularly limited as long as it is generally used by those skilled in the art.
Furthermore, the anti-condensation sheet 1 can contain an ultraviolet ray preventing agent in order to prevent ultraviolet rays from entering the room. Examples of the ultraviolet inhibitor used include an ultraviolet absorber that chemically absorbs and blocks ultraviolet rays, and an ultraviolet scattering agent that physically scatters and blocks ultraviolet rays, but are not particularly limited. The ultraviolet inhibitor can be blended in the synthetic resin forming the dew condensation preventing sheet 1.

  The affixing surface 2 is an affixing surface for adhering the dew condensation prevention sheet 1 to a wall 6 or glass 6 such as a window glass, and is usually formed smoothly in order to improve the sealing property of the cell 5 described later and obtain a suction effect. The In the first embodiment, the resin plate 9 is created in a state in which a hole is made by integral molding, but a hole is not provided during integral molding, and a plurality of through holes are provided later to create the resin plate 9 In this case, it is preferable to remove the burrs and the like generated on the sticking surface 2 and the cover sheet sticking surface 11 to which the resin plate 9 and the cover sheet 10 are stuck, and perform smoothing by sanding or the like. In the second embodiment, even when a plurality of cells 5 are provided after the synthetic resin is molded into a sheet shape, burrs or the like are generated on the sticking surface 2. Therefore, in this case as well, it is preferable to smooth the sticking surface by removing burrs or the like and performing sanding or the like in some cases.

As shown in FIG. 3, the adhesive surface 2 is further filled with a gap between the anti-condensation sheet 1 and the glass 6 such as a window glass to improve adhesion, and the glass 6 and the adhesive surface 2 are adhered. It is more preferable that the slightly sticky pressure-sensitive adhesive 7 is applied in order to give a tack when it is done. By applying the slightly adhesive pressure-sensitive adhesive 7, the cell 5 can be further sealed in the glass 6 such as a window glass, and the suction cup effect and the heat insulating effect by the cell 5 can be further improved. As for the adhesive force of the slightly sticky adhesive to apply | coat, 1-10 gf / 25mm is preferable. This is because if the adhesive strength exceeds 10 gf / 25 mm, paste marks may remain upon peeling, and if it is less than 1 gf / 25 mm, an appropriate tack cannot be provided. The adhesive strength can be measured according to JIS A 5759. As the slightly tacky pressure-sensitive adhesive, a pressure-sensitive adhesive that does not cause adhesive residue on the glass 6 such as a window glass, for example, an acrylic resin, a silicone resin, a urethane resin, an EVA resin, or the like can be used. These synthetic resins may be used alone or in combination of two or more.
Moreover, if the gap between the glass 6 such as a window glass and the sticking surface can be filled, the suction cup effect can be improved even if it does not have adhesiveness. A substance that does not have adhesiveness but improves adhesion to the glass 6 such as a window glass, such as grease and petrolatum, can also be used.

From the viewpoint of design properties such as interior decoration, the cover sheet 10 may be formed with unevenness or may be printed. In the second embodiment, the other surface 4 of the dew condensation prevention sheet 1 may be formed with unevenness or may be printed.
Moreover, in order to give the ultraviolet-ray prevention effect mentioned above, the designability, etc. simultaneously, it can also shape | mold by laminating | stacking a dissimilar material on the dew condensation prevention sheet 1. FIG.

  In the dew condensation preventing sheet 1, the cell 5 has an opening 3 on the sticking surface 2 side, and the other surface 4 side is sealed.

  The shape of the opening 3 of the cell 5 is not particularly limited. For example, it is circular in FIGS. 1 (a) and 2 (a), but may be a polygonal shape such as a quadrangle as shown in FIGS. 4 (a) and 4 (b). . The shape of the opening 3 of the cell 5 is more preferably circular as shown in FIGS. 1A and 2A since the suction cup effect is most improved. From the viewpoint of design such as interior decoration, the shape of the opening 3 is a heart shape, a star shape, an animal shape (a shape imitating a part or the whole of an animal such as a dog, cat, horse), a plant shape (flower, grass). , A shape imitating a part or the whole of a plant such as a tree). Moreover, it is not limited to forming the shape of the opening part 3 only by these 1 type of shapes, For example, a heart shape and a round shape can also be mixed.

The arrangement form of the cells 5 is not particularly limited, and for example, in FIG. 1A, FIG. 2A, and FIG. 4A and FIG. The arrangement form of the cells 5 is not limited to the lattice shape, and may be arranged in a staggered manner as shown in FIG. 5 or may be arranged randomly.
Area of the opening 3 per unit cell 5 is not particularly limited, is preferably from about ² 0.01～100Cm, more preferably 0.05～50Cm ^2, 0.1 cm More preferably, it is ^{2 to} 10 cm ² . 0.01cm less than ^2, and since the sucker effect of the cells 5 exceeds 100 cm ² is not sufficiently exhibited, even over time peeling cases, there is a possibility of such turn-up.
The number of cells 5 arranged is appropriately set according to the area of the opening 3 per cell unit, but the ratio between the total opening area of the opening 3 of the cell 5 and the total area of the attachment surface of the dew condensation prevention sheet 1 However, it is preferable to arrange | position so that it may become 50: 50-95: 5, It is more preferable that it will be 60: 40-90: 10, It is more preferable that it is 70: 30-90: 10. If the ratio of the total opening area of the openings 3 exceeds 95: 5, the area of the adhesive surface 2 is too narrow. If the ratio is less than 50:50, the area of the adhesive surface 2 is too large, so that the suction effect by the cell 5 is sufficiently obtained. This is because it cannot be exhibited, and in any case, there is a possibility of peeling or dripping over time.

Volume per unit of cells 5 is not particularly ^limited, but is preferably a 0.001cm ³ ~200cm 3 ^mm, more preferably 0.01cm ³ ~100cm ^3, 0.1cm 3 ~50cm ³ is more preferable. In the case of less than 0.001 cm ^{3, the} inside of the cell 5 is not sufficiently depressurized, so that the sucker effect of the cell 5 is not sufficiently exhibited, and the heat insulating effect is not sufficiently exhibited because the volume is too small. Although the heat insulating effect is exerted exceeds 200 cm ^3, the form stability of the anti-condensation sheet 1 when adhering the anti-condensation sheet 1 the glass 6 such as window glass by the volume of the cell 5 is too large, This is because, in any case, there is a possibility of peeling or dripping over time.

  When the hardness of the resin plate 9 is softened within the scope of the present invention, a sufficient suction cup effect can be obtained by reducing the volume of one cell and increasing the number of cells. When the resin plate 9 is hardened, a sufficient suction cup effect can be obtained by increasing the volume of each cell, reducing the number of cells, and reducing the cell wall formed between the cells. .

The cells 5 are preferably arranged such that the total volume of the cells 5 is 50 to 95% of the total volume of the anti-condensation sheet 1, more preferably 60 to 90%, and 70 to 90%. More preferably. If the total volume of the cell 5 is less than 50% of the total volume of the anti-condensation sheet 1, the volume of the cell 5 is too small, so that the heat insulating effect and the suction cup effect are not sufficiently exhibited. This is because the form stability of the dew condensation prevention sheet 1 is impaired when the resin molding portion of the prevention sheet 1 is too small, and in any case, there is a possibility of peeling or twisting over time.
For example, when the dew condensation prevention sheet 1 has a rectangular parallelepiped shape, the entire volume of the dew condensation prevention sheet 1 is obtained by multiplying the outer diameter of the dew condensation prevention sheet 1 in the lateral direction, the length in the longitudinal direction, and the thickness. The total volume of the cells described above is obtained by multiplying the cell volume per cell determined from the area of the cell opening and the cell depth by the number of all cells. When providing cells having different shapes, individual volumes are obtained and added.

The depth of the cell 5 can be appropriately set depending on the thickness of the resin plate 9. About the thickness of the cell bottom part 8, it can set suitably with the thickness of the cover sheet 10, and is about 1 mm normally. About the thickness of the resin board 9 and the cover sheet 10, it sets suitably by the material selected. For example, when the cover sheet 10 having a high hardness is selected, the thickness of the cover sheet 10 can be reduced and the thickness of the resin plate 9 can be increased. it can.
The cross-sectional shape of the cell 5 is a rectangular shape in which the opening 3 and the cell bottom 8 have the same length in FIG. 1B, but as shown in FIG. 6A, the opening 3 side is long and the cell bottom 8 side is A short trapezoidal shape may be used. Further, by forming the cell 5 itself in a hemispherical shape, the cross-sectional shape of the cell 5 may be a semicircular shape as shown in FIG. On the other hand, when the cross-sectional shape of the cell 5 is a trapezoidal shape opposite to that shown in FIG. 6A, the opening 3 side is short, and the cell bottom 8 side is long, the sucker effect by the cell 5 is inferior.

  The dew condensation prevention sheet 1 of the present invention is adhered to a part or the whole of the glass surface. When the glass surface is larger than the dew condensation prevention sheet 1 of the present invention, a plurality of dew condensation prevention sheets 1 may be abutted and pasted. Conversely, when the glass surface is smaller than the dew condensation prevention sheet 1 of the present invention. May be appropriately cut.

  Hereinafter, the present invention will be described in more detail with reference to examples. The present invention is not limited to these examples.

(Preparation of condensation prevention sheet)
A 5 mm thick polyvinyl chloride sheet having a durometer hardness test type A hardness of 70 as defined in JIS K 7312 was used as the resin body. The polyvinyl chloride is made so that the total volume of the cell is about 60% of the total volume of the sheet and the ratio of the total area of the cell opening to the total area of the attachment surface of the anti-condensation sheet is 60:40. The sheet was punched with an electric drill having a diameter of 10 mm. A dew condensation prevention sheet prepared by sticking a 0.1 mm thick polyester sheet as a cover sheet after removing burrs and the like generated when the holes were opened was designated as Example 1.

(Condensation prevention test)
Using the dew condensation prevention sheet of the present invention (Example 1), a dew condensation prevention comparative test was conducted. As Comparative Example 1, a commercially available bubble cushioning material (air cap) -like dew condensation prevention sheet was used. As Comparative Example 2, as described in JP-A-2004-92145, polyethylene terephthalate is formed by vacuum molding, a side wall portion, a plate-like body having a flat portion, and an acrylic resin adhesive is applied to the flat portion. A coating tool was prepared. The height of the side wall portion was set to 7 mm, and the width of the flat portion was set to about 5 mm to 10 mm.
Example 1, Comparative Example 1 and Comparative Example 2 were attached to a glass plate previously set at the boundary between the door of the thermostat and the inside of the cabinet, and the temperature inside the cabinet was 0 ° C. with the thermostat opened. The temperature was adjusted to 27 ° C., and the presence or absence of condensation on the sheet surface at that time was evaluated. In addition, about the comparative example 1, in accordance with the normal usage method described in the commercial item, water was sprayed on the glass surface, and then it affixed. In addition, the paste marks when the above-mentioned sheet was peeled were also evaluated. The evaluation results are shown in Table 1.

From Table 1, it was confirmed that the condensation prevention sheet of the present invention (Example 1) had an effect of preventing condensation because no condensation occurred. Moreover, even if it was a case where the dew condensation prevention sheet | seat (Example 1) of this invention peeled from the glass surface, it has confirmed that the paste mark was not seen.
On the other hand, about the comparative example 1, when sticking a bubble cushioning material (air cap) -like sheet | seat on glass, since it adhere | attaches with an adhesive agent, it is necessary to spray water on a glass surface, and it is easy to produce dew condensation. all right. Moreover, since it adhered by the adhesive agent about the comparative example 1, when the sheet | seat was peeled from the glass surface, it has confirmed that the paste mark produced on the whole.
In Comparative Example 2, no condensation occurred on the plate-like body, but condensation on the flat portion was observed. Moreover, it turned out that a paste mark is seen in a flat part, when peeling from a glass surface.
From this, the anti-condensation sheet of the present invention has a sucker effect and a heat insulating effect, and is easy to stick to a window glass and the like, and has a high anti-condensation effect compared to a conventional dew condensation prevention sheet. It was found that no adhesive marks were observed even when peeling was performed.

  The present invention can be suitably used to prevent condensation that adheres to glass such as window glass, particularly in severe cold seasons.

It is a figure of the dew condensation prevention sheet | seat which concerns on this invention, Comprising: (a) is a perspective view, (b) is sectional drawing of the state stuck on glass. It is a figure of other embodiment of the dew condensation prevention sheet | seat which concerns on this invention, Comprising: (a) is a perspective view, (b) is sectional drawing of the state stuck on glass. In the dew condensation preventing sheet according to the present invention, it is a view using a weak adhesive pressure sensitive adhesive on the sticking surface. In the dew condensation prevention sheet according to the present invention, the shape of the opening of the cell is a quadrangular shape, where (a) is a diagram of the first embodiment and (b) is a diagram of the second embodiment. In the dew condensation prevention sheet according to the present invention, the cells are arranged in a staggered manner. It is sectional drawing in the other modified example of the dew condensation prevention sheet | seat which concerns on this invention, (a) is the figure in which the cross section of the cell was formed in trapezoid shape, (b) is the figure in which the cross section of the cell was formed in semicircle shape.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Condensation prevention sheet 2 Adhesion surface 3 Opening part 4 The other surface 5 Cell 6 Glass 7 Weak adhesive 8 Cell bottom 9 Resin board 10 Cover sheet

Claims (7)

  A dew condensation prevention sheet that is adhered to a surface to be adhered, and has a plurality of cells that are provided with openings on the surface to be adhered and hermetically sealed on the other surface side, and a suction cup by the plurality of cells. An anti-condensation sheet that adheres to the adherend surface by action. It consists of a resin plate and a cover sheet.
The plurality of cells are formed by detachably attaching a cover sheet covering the through holes to one surface of a resin plate provided with a plurality of through holes. Dew condensation prevention sheet of description.   The condensation prevention sheet according to claim 1, wherein the condensation prevention sheet is integrally molded with a resin.   The resin has a hardness in a durometer hardness test type A specified in JIS K 7312 of 20 or more and 90 or less, or a hardness in a durometer hardness test type C specified in JIS K 7312 of 20 or more and 90 or less. The dew condensation prevention sheet according to claim 2 or 3, wherein the dew condensation prevention sheet is provided.   5. The dew condensation prevention sheet according to claim 1, wherein the total volume of the plurality of cells is 50 to 95% of the total volume of the dew condensation prevention sheet.   The ratio of the total opening area of the opening part of a cell and the total area of the adhesion surface of a dew condensation prevention sheet is 50: 50-95: 5 in the said adhesion surface side, Any one of Claims 1-5 characterized by the above-mentioned. Condensation prevention sheet according to crab.   The anti-condensation sheet according to any one of claims 1 to 6, wherein a weak adhesive is applied to the sticking surface.

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