JP3711307B2 - Heat insulation layer forming sheet and method for constructing the sheet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat insulating layer forming sheet for forming a heat insulating layer made of urethane foam resin on a construction surface such as a wall surface, a roof, or a floor in a building, and a method for constructing the sheet.
[0002]
[Prior art]
Conventionally, when a heat insulating layer is formed on a wall surface of a building, condominium, low-temperature warehouse, etc., as shown in FIG. 9, the foamed urethane resin 3 is sprayed to a predetermined thickness using a spray gun 2 on the construction surface 1. The heat insulating layer 4 is formed.
[0003]
[Problems to be solved by the invention]
In the foaming urethane resin spraying work in this conventional example, the foamed urethane resin is scattered and adhered to positions other than the construction surface, so a curing work such as covering the position where spraying is not necessary with a vinyl sheet is required. However, it has a problem that it is troublesome and workability is poor.
[0004]
In addition, after the spraying operation is completed, the vinyl sheet used for curing must be discarded, resulting in an increase in industrial waste.
[0005]
Moreover, since the opening part of the building which performs a spraying operation | work is plugged up with curing materials, such as a vinyl sheet | seat, in order to prevent scattering of foaming urethane resin, the entrance of another contractor in a building is restrict | limited. Therefore, there is a disadvantage that adjustment of work processes with other contractors is troublesome and work efficiency is poor.
[0006]
During the work, the foamed urethane resin floats, so it is necessary to provide ventilation equipment. In addition, the worker must wear a mask, protective equipment, etc. It also had the disadvantage of getting worse.
[0007]
Furthermore, the work place requires various equipment such as a spraying machine such as a compressor and a spray gun, and the management of these mechanical equipment is troublesome and troublesome.
[0008]
Therefore, in the conventional urethane foam resin spraying operation, there is a problem that the urethane foam resin is prevented from scattering and floating, and that the operation must be solved simply and efficiently.
[0009]
[Means for Solving the Problems]
As a specific means for solving the problems of the conventional example, the present invention is a heat insulating layer forming sheet for forming a heat insulating layer of urethane foam resin by affixing to a construction surface of a building, the heat insulating layer forming The sheet is formed from a plurality of tube-shaped parts that are adjacent to each other and melted by an external factor, and the tube-shaped part generates heat by mixing to form a foamed urethane resin and a polyisocyanate-based sheet. The present invention provides a sheet for forming a heat insulating layer, characterized by alternately enclosing a stock solution.
[0010]
The heat insulating layer forming sheet is formed of a water-soluble gelatin single film or a water-soluble polymer.
[0011]
Moreover, it is a heat insulating layer forming sheet for affixing to a construction surface of a building to form a heat insulating layer of foamed urethane resin, and the heat insulating layer forming sheet is in an adjacent state and melts due to external factors It is formed from a plurality of tube-shaped portions, and in the tube-shaped portion, a polyol-based stock solution or a polyisocyanate-based stock solution is sealed and a thermally destructible microcapsule is sealed. The present invention provides a sheet for forming a heat insulating layer, characterized in that a polyisocyanate-based undiluted solution is enclosed.
[0012]
Further, a heat insulating layer forming sheet comprising a plurality of tubular portions in which a polyol-based undiluted solution and a polyisocyanate-based undiluted solution that generate heat by mixing to form a foamed urethane resin are alternately enclosed and melted by an external factor is predetermined. A part of the heat insulation layer forming sheet is broken or melted to mix and heat the polyol-based stock solution and the polyisocyanate-based stock solution. Thus, a method for constructing a heat insulation layer forming sheet is provided, in which a heat insulation layer of a foamed urethane resin is formed on a construction surface by sequentially mixing a polyol stock solution and a polyisocyanate stock solution.
[0013]
The heat insulation layer forming sheet is formed of a water-soluble gelatin single film or a water-soluble polymer.
[0014]
Furthermore, it is formed from a plurality of tube-shaped parts that are adjacent to each other and melted by an external factor. The tube-shaped part encloses a polyol-based stock solution or a polyisocyanate-based stock solution and a heat-destructible microcapsule. In the microcapsule, a heat insulating layer forming sheet in which a polyol-based stock solution or a polyisocyanate-based stock solution is sealed is attached to a predetermined construction surface, and a part of the heat-insulating layer forming sheet is heated. By destroying the microcapsules, the polyol-based stock solution and the polyisocyanate-based stock solution are mixed to generate heat, and by the heat generation, the microcapsules are chain-melted to sequentially mix the polyol-based stock solution and the polyisocyanate-based stock solution. Insulation layer shape characterized by forming a heat insulation layer of urethane foam resin on the construction surface Construction method of use sheet is intended to provide.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Next, an example for carrying out the present invention will be described with reference to the drawings. First, in the first embodiment shown in FIGS. 1 and 2, reference numeral 11 denotes a heat insulating layer forming sheet, and the heat insulating layer forming sheet 11 is formed from a synthetic resin material having heat melting properties such as vinyl. The
[0016]
And the sheet | seat 11 for heat insulation layer formation is formed from many tube-shaped parts 12 juxtaposed in the adjacent state, This tube-shaped part 12 is divided | segmented into plurality, and is formed in the grid | lattice form as a whole.
[0017]
In the tubular portion 12, a polyol-based stock solution 13 and a polyisocyanate-based stock solution 14 that generate heat and generate a foamed urethane resin by mixing are alternately and adjacently sealed.
[0018]
Next, the construction method which forms the heat insulation layer of foaming urethane resin on a construction surface using the said sheet | seat 11 for heat insulation layer formation is demonstrated. First, as shown in FIG. 3, the heat insulating layer forming sheet 11 is temporarily fixed to the construction surface 15 with an adhesive 16.
[0019]
Thereafter, as shown in FIG. 4, the polyol-based stock solution 13 and the polyisocyanate-based stock solution 14 are mixed by breaking a part of the heat-insulating layer forming sheet 11 using a tool such as a roller 17 with a needle. Heat.
[0020]
Then, the tubular portion 12 is chain-melted by the heat generation, and the polyol-based stock solution 13 and the polyisocyanate-based stock solution 14 are sequentially mixed (see FIG. 5) to form a foamed urethane resin, and the construction surface 15 is thermally insulated. The layer 15a is formed (see FIG. 6).
[0021]
Next, the 2nd Example and construction method of the sheet | seat for heat insulation layer formation are demonstrated. The heat insulation layer forming sheet 18 of the second embodiment is formed of a large number of tube-shaped portions arranged in parallel to each other, and the tube-shaped portions are divided into a plurality of portions and formed in a lattice shape as a whole. Yes. In addition, a polyol-based stock solution and a polyisocyanate-based stock solution are alternately and adjacently enclosed in this tubular portion.
[0022]
The heat insulating layer forming sheet 18 is entirely formed of a water-soluble gelatin single film or a water-soluble polymer, and a water-soluble adhesive is applied to the back surface.
[0023]
When forming a heat insulation layer of foamed urethane resin on the construction surface using this heat insulation layer forming sheet 18, as shown in FIG. 7, a sprayer 19 or the like is used on the back surface 18 a of the heat insulation layer formation sheet 18. Affixing to the construction surface 15 while spraying water 20.
[0024]
The heat insulating layer forming sheet 18 formed of a water-soluble gelatin single film or a water-soluble polymer is melted by water 20, and a polyol-based stock solution and a polyisocyanate-based stock solution are sequentially mixed to generate heat and further melt in a chain. Then, a heat insulating layer of urethane foam resin can be formed on the construction surface 15.
[0025]
Of course, the heat insulating layer forming sheet 18 may be temporarily fixed to the construction surface 15 with an adhesive and then sprayed with water on the entire sheet.
[0026]
Next, 3rd Example and the construction method of the sheet | seat for heat insulation layer formation are demonstrated. As shown in FIG. 8, the heat insulation layer forming sheet 21 of the third embodiment is formed of a large number of tube-shaped portions 22 arranged in parallel to each other, and the tube-shaped portion 22 is divided into a plurality of portions. It is formed in a lattice shape as a whole. In addition, a polyol-based stock solution 13 or a polyisocyanate-based stock solution 14 is enclosed in the tubular portion 22.
[0027]
Further, the tube-shaped portion 22 is sealed with a heat destructible microcapsule 23, and the polyisocyanate-based stock solution 14 or the polyol-based stock solution 13 is sealed inside the microcapsule 23.
[0028]
The microcapsule 23 has a particle size of about 10 to 30 μm in which isobutane, pentane, petroleum ether, hexane, a low-boiling halogenated hydrocarbon, or the like is encapsulated with a thermoplastic resin such as vinylidene chloride, acrylonitrile, or an acrylate ester. It has the property of expanding and breaking when heated to a predetermined temperature. Specifically, for example, “Matsumoto Microsphere F (trade name)” (manufactured by Matsumoto Yushi Seiyaku Co., Ltd.) may be used.
[0029]
In the case where a heat insulation layer of urethane foam resin is formed on the construction surface using the heat insulation layer forming sheet 21, the heat insulation layer forming sheet 21 is temporarily fixed to the construction surface with an adhesive or the like, and then a predetermined heating device. Alternatively, a part of the heat insulating layer forming sheet 21 is heated using a microwave to destroy the microcapsule 23.
[0030]
The polyol-based stock solution 13 and the polyisocyanate-based stock solution 14 are mixed to generate heat, and the microcapsules 23 are chain-melted by this heat generation, so that the polyol-based stock solution 13 and the polyisocyanate-based stock solution are sequentially mixed to foam. A urethane resin is formed, and a heat insulating layer is formed on the construction surface.
[0031]
If a heat insulating layer is formed on the construction surface by the method as described above, the urethane foam resin can be prevented from scattering and floating, and the operation can be performed easily and efficiently.
[0032]
【The invention's effect】
As described above, the sheet for forming a heat insulating layer according to the present invention is a sheet for forming a heat insulating layer for forming a heat insulating layer of foamed urethane resin by being attached to a construction surface of a building, and for forming the heat insulating layer. The sheet is formed from a plurality of tube-shaped parts that are adjacent to each other and melted by an external factor, and the tube-shaped part generates heat by mixing to form a foamed urethane resin and a polyisocyanate-based sheet. By alternately enclosing the undiluted solution, the heat insulating layer forming sheet is affixed to a predetermined construction surface, and a part of the heat insulating layer forming sheet is broken to mix the polyol undiluted solution and the polyisocyanate undiluted solution. Heat, and the tube-like portion is melted in a chain by the heat generation, and the polyol stock solution and the polyisocyanate stock solution are sequentially mixed, so that the foam surface is expanded. It is possible to form a heat insulating layer of down resin. Therefore, the foamed urethane resin can be prevented from being scattered and floated, and the work can be performed easily and efficiently.
[0033]
The heat insulating layer forming sheet is formed of a water-soluble gelatin single film or a water-soluble polymer, so that if the heat insulating layer forming sheet is affixed to a predetermined construction surface and water is sprayed, a tube Thus, the polyol melt and the polyisocyanate concentrate are sequentially mixed to form a heat insulating layer of the urethane foam resin on the construction surface. Therefore, the foamed urethane resin can be prevented from scattering and floating, and the work can be performed easily and efficiently.
[0034]
Further, the heat insulating layer forming sheet according to the present invention is a heat insulating layer forming sheet for forming a heat insulating layer of urethane foam resin by sticking to a construction surface of a building, the heat insulating layer forming sheet, It is formed from a plurality of tube-shaped parts that are adjacent to each other and melted by an external factor, and the tube-shaped part encloses a polyol-based stock solution or a polyisocyanate-based stock solution and a thermally destructible microcapsule. In the microcapsule, a polyol-based undiluted solution or a polyisocyanate-based undiluted solution is sealed, so that a heat insulating layer forming sheet is attached to a predetermined construction surface, and a part of the heat insulating layer forming sheet is heated. By destroying the microcapsules, the polyol-based stock solution and the polyisocyanate-based stock solution are mixed to generate heat. By chained manner and melted to sequentially mixing the polyol stock solution and polyisocyanate stock, it is possible to form a heat insulating layer of foamed urethane resin construction surface. Therefore, it is possible to easily perform the operation using a heating device or the like, and to produce an excellent effect that the urethane foam resin can be prevented from scattering and floating.
[0035]
Furthermore, the construction method of the heat insulation layer forming sheet according to the present invention is such that a polyol-based stock solution and a polyisocyanate-based stock solution that generate heat by mixing to form a foamed urethane resin are alternately enclosed and melted by an external factor. A heat insulating layer forming sheet composed of a plurality of tube-shaped parts is affixed to a predetermined construction surface, a part of the heat insulating layer forming sheet is broken or melted, and the polyol-based stock solution and the polyisocyanate-based stock solution are mixed. A foamed urethane resin is formed by forming a heat-insulating layer of a foamed urethane resin on a construction surface by causing heat generation, melting the tube-like portion in a chain by the heat generation, and sequentially mixing the polyol-based stock solution and the polyisocyanate-based stock solution. As a result, it is possible to prevent scattering and floating of the water and to perform the work easily and efficiently.
[0036]
Moreover, the construction method of the heat insulation layer forming sheet according to the present invention is formed from a plurality of tube-shaped portions that are adjacent to each other and melt by an external factor, and the tube-shaped portion includes a polyol-based stock solution or a polyisocyanate-based solution. A heat-destructible microcapsule is enclosed with the stock solution, and a heat-insulating layer forming sheet in which a polyol-based stock solution or a polyisocyanate-based stock solution is sealed is attached to the microcapsule on a predetermined construction surface, The polyol-type stock solution and the polyisocyanate-type stock solution are mixed and heated by destroying the microcapsules by heating a part of the heat insulation layer forming sheet, and the microcapsules are melted in a chain by the heat generation. By mixing the polyol stock solution and the polyisocyanate stock solution in order, By forming the heat layer, you can work easily using a heating device or the like, and exhibits an excellent effect that it is possible to prevent the urethane foam resin scattering, stray.
[Brief description of the drawings]
FIG. 1 is a perspective view of a heat insulation layer forming sheet according to a first embodiment of the present invention.
FIG. 2 is an enlarged cross-sectional view of a part of the heat insulation layer forming sheet according to the first embodiment of the present invention.
FIG. 3 is an explanatory view showing a state in which the heat insulation layer forming sheet of the first embodiment is temporarily fixed to a construction surface.
FIG. 4 is an explanatory view showing a state in which the heat insulation layer forming sheet of the first embodiment is broken.
FIG. 5 is a cross-sectional view of a construction surface that theoretically enlarges and shows a state in which a heat insulating layer forming sheet is chain-melted.
FIG. 6 is a cross-sectional view illustrating a state where a heat insulating layer is formed on a construction surface.
FIG. 7 is an explanatory view showing a state in which the heat insulation layer forming sheet of the second embodiment is stuck on a construction surface.
FIG. 8 is a sectional view theoretically enlarged showing a part of a heat insulation layer forming sheet of a third embodiment according to the present invention.
FIG. 9 is an explanatory view showing a blowing operation of a urethane foam resin according to a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Construction surface 2 Spray gun 3 Foamed urethane resin 4 Thermal insulation layer 11 Thermal insulation layer forming sheet 12 Tubular part 13 Polyol-based stock solution 14 Polyisocyanate-based stock solution 15 Construction surface 15a thermal insulation layer 16 Adhesive 17 Needle roller 18 For thermal insulation layer formation Sheet 18a Back surface 19 Sprayer 20 Water 21 Heat insulation layer forming sheet 22 Tubular portion 23 Microcapsule

Claims (6)

A heat insulating layer forming sheet for affixing to a construction surface of a building to form a heat insulating layer of urethane foam resin, wherein the heat insulating layer forming sheet is in an adjacent state and is melted by an external factor. For forming a heat insulating layer, characterized in that it is formed from a tube-shaped portion, and a polyol-based undiluted solution and a polyisocyanate-based undiluted solution that are heated to form a foamed urethane resin are alternately enclosed in the tube-shaped portion. Sheet. The heat insulating layer forming sheet according to claim 1, wherein the heat insulating layer forming sheet is formed of a water-soluble gelatin single film or a water-soluble polymer. A heat insulation layer forming sheet for affixing to a construction surface of a building to form a heat insulation layer of urethane foam resin, wherein the heat insulation layer formation sheet is in an adjacent state and melts due to external factors It is formed from a tube-shaped part, and a polyol-based stock solution or a polyisocyanate-based stock solution is sealed in the tube-shaped part, and a heat-breakable microcapsule is sealed, and the micro-capsule is filled with a polyol-based stock solution or a polyisocyanate. A sheet for forming a heat insulating layer, characterized in that a system stock solution is enclosed. Predetermined construction of a heat insulation layer forming sheet consisting of a plurality of tube-shaped parts in which a polyol-based stock solution and a polyisocyanate-based stock solution that generate heat by mixing to form a foamed urethane resin are alternately enclosed and melted by external factors Affixed to the surface, a part of the heat insulation layer forming sheet is broken or melted to mix and heat the polyol-based stock solution and the polyisocyanate-based stock solution. A construction method for a heat insulation layer forming sheet, wherein a heat insulation layer of urethane foam resin is formed on a construction surface by sequentially mixing a polyol stock solution and a polyisocyanate stock solution. The construction method for a heat insulating layer forming sheet according to claim 4, wherein the heat insulating layer forming sheet is formed of a water-soluble gelatin single film or a water-soluble polymer. It is formed from a plurality of tube-shaped parts that are adjacent to each other and melted by an external factor, and the tube-shaped part encloses a polyol-based stock solution or a polyisocyanate-based stock solution and a thermally destructible microcapsule. In the microcapsule, a heat insulating layer forming sheet in which a polyol-based stock solution or a polyisocyanate-based stock solution is sealed is attached to a predetermined construction surface, and a part of the heat-insulating layer forming sheet is heated to form the microcapsule. By mixing the polyol-based stock solution and the polyisocyanate-based stock solution to generate heat, and by sequentially melting the microcapsules by the heat generation and mixing the polyol-based stock solution and the polyisocyanate-based stock solution sequentially, A heat insulation layer forming sheet, characterized in that a heat insulation layer of urethane foam resin is formed on the construction surface. Construction methods.

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