CN202194262U - Fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board - Google Patents
Fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board Download PDFInfo
- Publication number
- CN202194262U CN202194262U CN2011202315563U CN201120231556U CN202194262U CN 202194262 U CN202194262 U CN 202194262U CN 2011202315563 U CN2011202315563 U CN 2011202315563U CN 201120231556 U CN201120231556 U CN 201120231556U CN 202194262 U CN202194262 U CN 202194262U
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- China
- Prior art keywords
- expanded perlite
- glass fiber
- gridding cloth
- fiberglass gridding
- insulating board
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Abstract
A fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board is formed through the following steps of: with fiberglass gridding cloth, expanded perlite, polymer adhesive cement and water glass as main raw materials, firstly forming adhesive cement-impregnated fiberglass gridding cloth and semi-dry expanded perlite material; secondly, laying a layer of adhesive cement-impregnated fiberglass gridding cloth on the bottom of a mold, placing the semi-dry expanded perlite material in the mold for prepressing setting and then laying a layer of adhesive cement-impregnated fiberglass gridding cloth on the prepress-set expanded perlite plate for pressure molding; and then performing demolding and drying, thereby forming the fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board. The fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board provided in the utility model has a sandwich structure, wherein each of the upper and lower surfaces of the expanded perlite thermal-insulating board is provided with a layer of adhesive cement-impregnated fiberglass gridding cloth so that the strength and integrity of the thermal insulating board can be improved; therefore, the composite thermal insulating board is advantageous for building construction and installation.
Description
Technical field
The utility model relates to a kind of building unit, relates in particular to a kind of glass fiber reticular cloth for building and strengthens the expanded perlite composite insulation boards.
Background technology
The enforcement with the building energy conservation policy of coming of energy crisis has promoted the fast development of wall heat insulation material.At present; It is the Outwall thermal insulation board system of heat insulating material that the skin space enclosing structure adopts with organic foam plastics such as polystyrene foam plastics, rigid polyurethane fat vacuole foam plastics more, and still, such heat insulating material very easily burns; Fire spreading is rapid during burning; And, bring exceptional hardship to rescue work of extinguishing fire with a large amount of poison gases and flue gas generation, be prone to cause casualties and property loss.Simultaneously such heat insulating material also exist be prone to aging, poor dimensional stability, with shortcomings such as the surface material adhesion strength is low.Recently; Building fire frequently takes place; People are had higher requirement to the fireproof performance of heat insulating material, fireproof performance is good, ageing-resistant, coefficient of deformation is little because of having for inorganic heat insulation material, with surface material adhesion strength advantages of higher, caused people's extensive concern; Inorganic heat insulation material is applied in the wall heat insulation material, has popularizing application prospect widely.
The expanded perlite light thermal insulation board is to be main raw material(s) with expanded perlite granule and cementitious matter, after compression molding, makes.The expanded perlite light thermal insulation board has fire-proof function, and the material combustion grade reaches the A level, also has the characteristics of light weight, insulation simultaneously, but the intensity of expanded perlite light thermal insulation board is low, be prone to dry linting, globality is poor, has limited its large-scale promotion application.
Summary of the invention
The purpose of the utility model is that a kind of glass fiber reticular cloth of design strengthens the expanded perlite composite insulation boards.The glass fiber reticular cloth made from the utility model strengthens the expanded perlite composite insulation boards; Structure is a sandwich sandwich structure; The upper and lower surface of expanded perlite thermal-nsulation plate respectively is provided with the glass fiber reticular cloth of one deck dipping rubber cement; Can improve the intensity and the globality of warming plate, each item performance all can satisfy warming plate requirement for building.
For realizing above-mentioned purpose; The utility model adopts following technical scheme: with glass fiber reticular cloth, expanded perlite, polymer cement, water glass is primary raw material; Earlier with glass fiber reticular cloth under automatic winding machine ground draws; Through filling the dipping tank and the drying box of polymer cement, make the glass fiber reticular cloth of dipping rubber cement continuously successively; Expanded perlite inserted in the mixer stir, utilize spray gun that water glass is sprayed onto the surface of expanded perlite in the whipping process, make the half-dried material of expanded perlite; Lay the glass fiber reticular cloth of one deck dipping rubber cement then at mold bottom; With the half-dried material of expanded perlite insert carry out precompressed typing in the mould after; The glass fiber reticular cloth of establishing one deck dipping rubber cement on the expanded pearlite rock beam upper berth of precompressed typing again carries out extrusion forming, after demoulding oven dry, forms glass fiber reticular cloth and strengthens the expanded perlite composite insulation boards.The glass fiber reticular cloth that the utility model is made strengthens the expanded perlite composite insulation boards, length 600-1200mm, and width 300-600mm, thickness 40-120mm wherein floods the glass fiber reticular cloth thickness 0.3-1.5mm of rubber cement.Glass fiber reticular cloth strengthens the expanded perlite composite insulation boards; Structure is a sandwich sandwich structure; Respectively be provided with the glass fiber reticular cloth of one deck dipping rubber cement on the upper and lower surface of expanded perlite thermal-nsulation plate, can improve the intensity and the globality of warming plate, help building operations and install.
Description of drawings
Fig. 1 is the structural representation that the glass fiber reticular cloth of the utility model strengthens the expanded perlite composite insulation boards.
Fig. 2 is the drawing in side sectional elevation that the glass fiber reticular cloth of the utility model strengthens the expanded perlite composite insulation boards.
Among the figure, 1 for glass fiber reticular cloth strengthens the expanded perlite composite insulation boards, 2 glass fiber reticular cloths for the dipping rubber cement, and 3 is the expanded perlite thermal-nsulation plate.
The specific embodiment
Embodiment one
Glass fiber reticular cloth strengthens the expanded perlite composite insulation boards; With glass fiber reticular cloth, expanded perlite, polymer cement, water glass is primary raw material; Earlier with glass fiber reticular cloth under automatic winding machine ground draws; Through filling the dipping tank and the drying box of polymer cement, make the glass fiber reticular cloth of dipping rubber cement continuously successively; Expanded perlite inserted in the mixer stir, utilize spray gun that water glass is sprayed onto the surface of expanded perlite in the whipping process, make the half-dried material of expanded perlite; Lay the glass fiber reticular cloth of one deck dipping rubber cement then at mold bottom; With the half-dried material of expanded perlite insert carry out precompressed typing in the mould after; The glass fiber reticular cloth of establishing one deck dipping rubber cement on the expanded pearlite rock beam upper berth of precompressed typing again carries out extrusion forming, after demoulding oven dry, forms glass fiber reticular cloth and strengthens the expanded perlite composite insulation boards.(length x width mm) is 600mm * 300mm to the plate face size of glass fiber reticular cloth enhancing expanded perlite composite insulation boards, and thickness is 40mm, and dipping rubber cement glass fiber reticular cloth thickness is 0.3mm, like Fig. 1.
Embodiment two
Glass fiber reticular cloth strengthens the expanded perlite composite insulation boards; With glass fiber reticular cloth, expanded perlite, polymer cement, water glass is primary raw material; Earlier with glass fiber reticular cloth under automatic winding machine ground draws; Through filling the dipping tank and the drying box of polymer cement, make the glass fiber reticular cloth of dipping rubber cement continuously successively; Expanded perlite inserted in the mixer stir, utilize spray gun that water glass is sprayed onto the surface of expanded perlite in the whipping process, make the half-dried material of expanded perlite; Lay the glass fiber reticular cloth of one deck dipping rubber cement then at mold bottom; With the half-dried material of expanded perlite insert carry out precompressed typing in the mould after; The glass fiber reticular cloth of establishing one deck dipping rubber cement on the expanded pearlite rock beam upper berth of precompressed typing again carries out extrusion forming, after demoulding oven dry, forms glass fiber reticular cloth and strengthens the expanded perlite composite insulation boards.(length x width mm) is 800mm * 400mm to the plate face size of glass fiber reticular cloth enhancing expanded perlite composite insulation boards, and thickness is 60mm, and dipping rubber cement glass fiber reticular cloth thickness is 0.8mm, like Fig. 1.
Embodiment three
Glass fiber reticular cloth strengthens the expanded perlite composite insulation boards; With glass fiber reticular cloth, expanded perlite, polymer cement, water glass is primary raw material; Earlier with glass fiber reticular cloth under automatic winding machine ground draws; Through filling the dipping tank and the drying box of polymer cement, make the glass fiber reticular cloth of dipping rubber cement continuously successively; Expanded perlite inserted in the mixer stir, utilize spray gun that water glass is sprayed onto the surface of expanded perlite in the whipping process, make the half-dried material of expanded perlite; Lay the glass fiber reticular cloth of one deck dipping rubber cement then at mold bottom; With the half-dried material of expanded perlite insert carry out precompressed typing in the mould after; The glass fiber reticular cloth of establishing one deck dipping rubber cement on the expanded pearlite rock beam upper berth of precompressed typing again carries out extrusion forming, after demoulding oven dry, forms glass fiber reticular cloth and strengthens the expanded perlite composite insulation boards.(length x width mm) is 1000mm * 500mm to the plate face size of glass fiber reticular cloth enhancing expanded perlite composite insulation boards, and thickness is 80mm, and dipping rubber cement glass fiber reticular cloth thickness is 1.2mm, like Fig. 1.
Embodiment four
Glass fiber reticular cloth strengthens the expanded perlite composite insulation boards; With glass fiber reticular cloth, expanded perlite, polymer cement, water glass is primary raw material; Earlier with glass fiber reticular cloth under automatic winding machine ground draws; Through filling the dipping tank and the drying box of polymer cement, make the glass fiber reticular cloth of dipping rubber cement continuously successively; Expanded perlite inserted in the mixer stir, utilize spray gun that water glass is sprayed onto the surface of expanded perlite in the whipping process, make the half-dried material of expanded perlite; Lay the glass fiber reticular cloth of one deck dipping rubber cement then at mold bottom; With the half-dried material of expanded perlite insert carry out precompressed typing in the mould after; The glass fiber reticular cloth of establishing one deck dipping rubber cement on the expanded pearlite rock beam upper berth of precompressed typing again carries out extrusion forming, after demoulding oven dry, forms glass fiber reticular cloth and strengthens the expanded perlite composite insulation boards.(length x width mm) is 1200mm * 600mm to the plate face size of glass fiber reticular cloth enhancing expanded perlite composite insulation boards, and thickness is 120mm, and dipping rubber cement glass fiber reticular cloth thickness is 1.5mm, like Fig. 1.
The glass fiber reticular cloth made from the utility model strengthens the expanded perlite composite insulation boards, and light weight, intensity are high, insulation, fire prevention, reaches the performance requirement of national regulation; The complex heat-preservation plated construction is a sandwich sandwich structure, and the upper and lower surface of expanded perlite thermal-nsulation plate respectively is provided with the glass fiber reticular cloth of one deck dipping rubber cement, can improve the intensity and the globality of warming plate, helps building operations and installs.
Claims (1)
1. glass fiber reticular cloth strengthens the expanded perlite composite insulation boards, and the structure that it is characterized in that composite insulation boards is a sandwich sandwich structure, respectively is provided with the glass fiber reticular cloth of one deck dipping rubber cement on the upper and lower surface of expanded perlite thermal-nsulation plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011202315563U CN202194262U (en) | 2011-07-04 | 2011-07-04 | Fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board |
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CN2011202315563U CN202194262U (en) | 2011-07-04 | 2011-07-04 | Fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board |
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CN202194262U true CN202194262U (en) | 2012-04-18 |
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CN2011202315563U Expired - Fee Related CN202194262U (en) | 2011-07-04 | 2011-07-04 | Fiberglass gridding cloth enhanced expanded perlite composite thermal insulating board |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102304947A (en) * | 2011-07-04 | 2012-01-04 | 济南大学 | Fiberglass mesh fabric coated expanded perlite composite heat insulation plate and manufacturing method thereof |
CN104060707A (en) * | 2014-06-27 | 2014-09-24 | 南京化工职业技术学院 | Preparation technology of insulation board with sandwich structure |
WO2017184945A1 (en) * | 2016-04-22 | 2017-10-26 | Sproule Iii Charles G | Reinforced rigid insulation |
CN112392162A (en) * | 2020-12-08 | 2021-02-23 | 安徽泰莱保温科技有限公司 | Method for insulating external wall |
-
2011
- 2011-07-04 CN CN2011202315563U patent/CN202194262U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102304947A (en) * | 2011-07-04 | 2012-01-04 | 济南大学 | Fiberglass mesh fabric coated expanded perlite composite heat insulation plate and manufacturing method thereof |
CN104060707A (en) * | 2014-06-27 | 2014-09-24 | 南京化工职业技术学院 | Preparation technology of insulation board with sandwich structure |
WO2017184945A1 (en) * | 2016-04-22 | 2017-10-26 | Sproule Iii Charles G | Reinforced rigid insulation |
US11123956B2 (en) * | 2016-04-22 | 2021-09-21 | Charles G. Sproule, III | Reinforced rigid insulation |
US20220001648A1 (en) * | 2016-04-22 | 2022-01-06 | Charles G. Sproule, III | Reinforced rigid insulation |
US11787155B2 (en) * | 2016-04-22 | 2023-10-17 | Charles G. Sproule, III | Reinforced rigid insulation |
CN112392162A (en) * | 2020-12-08 | 2021-02-23 | 安徽泰莱保温科技有限公司 | Method for insulating external wall |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120418 Termination date: 20120704 |