CN102985625B - Grid reinforcing rib warming plate - Google Patents

Abstract

A kind of grid reinforcing rib warming plate, is made up of the thermal insulation board protective layer (3) of the external surface of the two-way grid reinforcing rib (2) accompanied in heat preservation core plate (1) and its top layer, reinforcing rib.Two-way grid reinforcing rib (2) is made up of glass fiber mesh, metallic steel silk screen or chemical fiber web, can improve tensile strength and the rupture strength of warming plate.Thermal insulation board protective layer (3) can improve the corrosion resistance of two-way grid reinforcing rib.

Description

Grid reinforcement insulation board

Technical field

The invention relates to a thermal insulation board with two-way grid reinforcing ribs sandwiched in the surface layer, and is especially suitable for an external thermal insulation wall body in which a mechanical fixing device anchors the thermal insulation board.

Background technique

At present, the existing insulation boards are made of insulation materials through production, processing, curing, shaping, cutting and other processes, which are characterized by relatively ideal density, thermal conductivity and combustion performance, but low tensile strength and flexural strength. It is easy to crack, deform, and shrink. When it is used to mechanically anchor the wall of the external insulation board, there are problems and shortcomings that the anchored insulation board has low peel strength, poor integrity, and is easy to break. For example:

Patent document CN2656524Y discloses an improved polyurethane foam composite board, which consists of a polyurethane foam layer 1, a reticular reinforcement layer 2 arranged in the foam layer and/or surface layer, and the surface of the foam layer from the inside to the outside. The flexible surface layer 3 is composed of; the mesh reinforcing layer 2 is an interlaced mesh of plastic mesh, metal mesh, glass fiber mesh, paper mesh, etc., which is arranged in the middle and/or surface of the polyurethane foam layer 1; It can be used as air-conditioning ventilation pipes, other decorations, furniture materials, lightweight wall materials, etc. However, its specific implementation method is only described as "see the accompanying drawings of the specification", without fully disclosing the specific structure, specifications, dimensions and requirements of the structural reticular reinforcement layer 2 .

Patent document CN101864812A discloses a metal mesh reinforced polystyrene board, which is an insulating polystyrene board composed of a polystyrene board and two-way metal grid reinforcement ribs sandwiched in its surface layer. However, the combustion performance of thermoplastic polystyrene board can only reach the B2 level flammable material standard stipulated in GB8624-2006.

Patent document CN2517806Y discloses an external wall insulation board, which consists of insulation board 1, board surface groove 2, polymer cement mortar reinforcement rib 3 in the groove, glass fiber mesh cloth 4 on the board surface, glass fiber mesh The reinforced layer 5, polymer cement mortar protective layer 6 and protective surface layer 7 composed of grid cloth and adhesive; the interval between the grooves 2 can be 5-100 mm, and the width and depth of the grooves 2 can be 1~20mm; the groove 2 is formed at the same time as the insulation board 1, and can also be opened by various methods after the insulation board is formed; during construction, first apply polymer cement mortar or composite resin to the outer wall surface, And paste the insulation board 1 on it; the adhesive will be embedded along the grid-shaped groove 2 on the insulation board 1, and after the adhesive is solidified, a layer of grid-like reinforcement will be formed on the back of the insulation board 1 ribs, so that the insulation board 1 is firmly pasted on the surface of the outer wall. However, because the distance between the grooves on the surface of the insulation board is 5 to 100 mm, it is not only labor-intensive and material-intensive, but also has a great impact on the quality of the foam insulation board material, and it is easy to damage the corners of the board surface, and the cost is greatly increased; Cutting grooves on the surface of the insulation board made of rock wool, mineral wool and other inorganic fibers will also destroy the integrity of the inorganic fibers on the surface and reduce the original tensile strength and flexural strength of the insulation board.

In order to ensure the safety of the external thermal insulation system of external walls, the "Technical Regulations for External Thermal Insulation Engineering of External Walls" (JGJ144-2004) issued by the Ministry of Construction of the People's Republic of China on January 13, 2005 disclosed: "Article 2.0. External wall thermal insulation system is composed of thermal insulation layer, protective layer and fixing materials (adhesives, anchors, etc.) and is suitable for installation on the outer surface of the external wall. Look, the external thermal insulation system can be divided according to the fixing method as follows: 1. Simple bonding system. The system can be fully pasted (covering the entire surface), strip bonding or point bonding; 2. Additional mechanically fixed bonding system. The load is completely Borrowed by the bonding layer, the mechanical fixation stabilizes the adhesive before it dries and serves as a temporary connection to prevent disengagement. They can also stabilize under fire conditions; 3. Mechanical fixation systems assisted by bonding The load is completely mechanical The fixing device bears, and the bonding is used to ensure the flatness of the system during installation; 4 Pure mechanical fixing system The system is only fixed on the wall with mechanical fixing devices"; "Article 2.0.9 stipulates that the EPS board is made of expandable polystyrene It is a polystyrene foam plastic sheet with a closed-cell structure obtained by heating and pre-foaming ethylene beads in a mold.

According to the "Interim Provisions on Fire Protection of Civil Building External Thermal Insulation System and External Wall Decoration" (Gong Tong Zi [2009] No. 46) jointly issued by the Ministry of Public Security and the Ministry of Housing and Urban-Rural Development on September 25, 2009: "First The combustion performance of the external thermal insulation materials for civil buildings should be Class A"; "Article 4 Non-curtain wall buildings should meet the following requirements, (1)...2. For residential buildings with a height greater than or equal to 60M but less than 100M, the combustion performance of the thermal insulation materials The performance should not be lower than B2 level. When B2 level insulation material is used, a horizontal fire isolation zone should be set up on each floor"; "Article 6 When a fire barrier is required to be set up according to this regulation, a fire barrier with a width of not less than 300mm should be set along the floor. Class A thermal insulation material". That is to say, it is required that non-combustible materials with a combustion performance of Class A are recommended for external wall insulation materials in new construction and renovation projects, and flammable materials are not allowed to be used, and the use of combustible materials is strictly restricted.

In addition, the National Building Standard Design Atlas "External Wall External Insulation Building Structure" (10J121) approved by the Ministry of Housing and Urban-Rural Development of the People's Republic of China on July 16, 2010 disclosed: "Appendix 1 Performance requirements for insulation boards (EPS, XPS, PUR board) tensile strength ≥ 0.10MPa (see: Appendix 2-1 page)"; "Rock wool thin plaster external wall external insulation system, the current domestic engineering practice is still little, and most of the rock wool production enterprises in China The products can not meet the requirements of rock wool thin plastering external wall insulation system, which has affected the development of rock wool external wall insulation system in China. The construction method of rock wool thin plastering external wall insulation system in this appendix is mainly based on the European three More than ten years of practical experience and related standards, combined with a small number of domestic engineering practices and experimental research. When selecting this thermal insulation system in engineering projects, it should be noted that system design, material performance, construction and other aspects should meet the requirements of this atlas , and formulate special technical plans and acceptance methods, and organize special demonstrations"; "Rock wool has the characteristics of non-combustibility (combustibility level A), high melting point, non-toxic and smoke-free in case of fire, low thermal conductivity, and vapor permeability. In Europe, rock wool thin plaster external wall thermal insulation system is widely used in schools, hospitals, high-rise buildings and other buildings with special requirements for fire protection external thermal insulation system"; "Table 5 classification and main performance indicators of rock wool: combustion performance Grade A; compressive strength ≥ 40KPa; tensile strength of rock wool board (fibers parallel to the wall) perpendicular to the surface ≥ 7.5KPa; rock wool tape (fibers perpendicular to the wall) tensile strength perpendicular to the surface ≥ 80KPa (details See: Appendix page 3-1~3)". This shows that the existing inorganic fiber rock wool insulation board has the defect that the tensile strength and compressive strength are much lower than that of the organic foam insulation board, and needs to be improved.

Therefore, it is necessary to improve the structure and fixing method of the external wall insulation board.

Contents of the invention

In order to overcome the defect of poor stability of existing thermal insulation boards anchored by mechanical fixing devices, the present invention provides a grid reinforced rib thermal insulation board, which can improve the tensile strength and flexural strength of the board, thereby Enhance the mechanical properties and overall stability of the insulation board external insulation system.

The technical scheme adopted by the present invention to solve the technical problem is: in the surface layer of the insulation board, a layer of two-way grid reinforcement is arranged, and the grid reinforcement is glass fiber grid reinforcement, metal grid reinforcement or chemical The fiber grid reinforcement is characterized in that: the outer surface of the grid reinforcement is attached with a protective layer of insulation board, so that the grid reinforcement is isolated from the environment thin plastering layer mortar outside the board surface, and the corrosion resistance and durability are improved. . Grid stiffeners can be set on both sides of the slab or on one side of the slab as required.

The above-mentioned thermal insulation board is a rock wool thermal insulation board, a polyurethane thermal insulation board, a phenolic thermal insulation board, a glass wool thermal insulation board, a slag wool thermal insulation board or a modified expanded perlite thermal insulation board.

The above-mentioned glass fiber grid reinforcing rib is formed by weaving glass fiber warp threads and weft threads crosswise. Rock wool insulation board, polyurethane insulation board, glass wool insulation board or slag wool insulation board grid reinforcement rib spacing is 5~25×5~25mm, the best spacing is 7~15×7~15mm; grid reinforcement rib The thickness of the protective layer of the thermal insulation board, that is, the distance from the outer edge of the board surface is 5-25mm, and the optimal thickness is 8-12mm. The aperture spacing of the grid reinforcement ribs of the phenolic insulation board or modified expanded perlite insulation board is 5-30×5-30mm, and the optimal spacing is 7-20×7-20mm; the thickness of the insulation board protective layer of the grid reinforcement ribs is The distance from the outer edge of the board is 7-40mm, and the optimum thickness is 10-30mm.

The above-mentioned metal grid reinforcing rib is formed by electric welding connection of longitudinal steel wires and transverse steel wires crossing each other. The reinforcing ribs are hot-dip galvanized steel wires, cold-drawn low-carbon steel wires, stainless steel wires or alloy steel wires. The diameter of the steel wires is 0.5-4.0mm, and the optimum diameter is 0.9-2.5mm; the aperture spacing of the grid reinforcing ribs is 5-60×5 ~60mm, the best spacing is 10~30×10~30mm. Rock wool insulation boards, polyurethane insulation boards, glass wool insulation boards or slag wool insulation boards. The thickness of the insulation board protective layer of the phenolic insulation board or the modified expanded perlite insulation board grid reinforcement rib is 7-50mm, and the optimum thickness is 10-40mm.

The above-mentioned chemical fiber grid reinforcing rib is made of chemical fiber warp and weft cross-knitted, and the chemical fiber is polyester fiber, polyamide fiber, polyacrylonitrile fiber, polyvinyl alcohol fiber or polyolefin fiber. Rock wool insulation board, glass wool insulation board or slag wool insulation board grid reinforcement rib spacing is 5~20×5~20mm, the best spacing is 7~15×7~15mm; grid reinforcement rib insulation board protection The layer thickness is 5-25mm, and the optimum thickness is 8-12mm. The aperture spacing of the grid reinforcement ribs of the polyurethane insulation board is 5-25×5-25mm, and the optimal spacing is 7-15×7-15mm; the thickness of the insulation board protective layer of the grid reinforcement ribs is 5-25mm, and the optimal thickness is 8 ~ 12mm. The aperture spacing of the grid reinforcement ribs of the phenolic insulation board or modified expanded perlite insulation board is 5-30×5-30mm, and the optimal spacing is 7-20×7-20mm; the thickness of the insulation board protective layer of the grid reinforcement ribs is 7-40mm, the best thickness is 10-30mm.

The present invention can use the grid reinforcing rib and the heat preservation board to complete the process of processing, pressing, and curing molding in the factory production line at one time, and the grid reinforcing rib is attached to the surface layer of the heat preservation board to ensure that the inside and outside of the grid reinforcing rib The integrity and airtightness of the insulation board.

Beneficial effects of the invention: compared with the existing heat preservation board, the heat preservation board with grid reinforcement ribs has the advantages of significantly improved tensile strength and flexural strength. It is suitable for mechanical fixing devices to anchor the external insulation wall of the insulation board, which can solve the inherent disadvantages of poor integrity and easy breakage of the insulation board.

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Fig. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is a longitudinal sectional view of Fig. 1 .

In the figure: 1. Insulation core board, 2. Mesh reinforcement ribs, 3. Insulation board protective layer of reinforcement ribs.

Detailed ways

In Fig. 1 and Fig. 2, the thermal insulation board with grid ribs of the present invention is composed of a thermal insulation core board 1, a grid rib 2 and a thermal insulation board protection layer 3 of the ribs from the inside to the outside. The insulation core board 1 is a rock wool insulation board, a polyurethane insulation board, a phenolic insulation board, a glass wool insulation board, a slag wool insulation board or a modified expanded perlite insulation board. Rock wool insulation board can be pendulum method rock wool board or three-dimensional method rock wool board; polyurethane insulation board can be hard foam polyurethane board or modified polyurethane board; phenolic insulation board can be phenolic foam board or modified phenolic board; glass wool The thermal insulation board can be a glass wool board without an outer coating or a glass wool board with an outer coating; the slag wool insulation board can be a granular slag wool board or a semi-hard slag wool board; the modified expanded perlite board is made of XR vegetable protein glue, etc. Expanded perlite slabs with high hardness and low water absorption are made by modifying expanded perlite with additives. The grid reinforcing rib 2 is formed by weaving the warp and weft of glass fiber or chemical fiber fabric in a cross, or by welding the longitudinal steel wire and the transverse steel wire in a cross cross. The insulation board protection layer 3 of the ribs is made of the same material as the insulation core board 1, and the insulation board protection layer 3 of the reinforcement ribs and the insulation core board 1 are synchronously prefabricated and formed into an integral board, so that the grid reinforcement ribs 2 and the board surface The thin plaster layer and other external environments are isolated to prevent the reinforcement from being alkalized and corroded.

Claims (12)

1. a gridding strengthening rib rock wool warming plate, the gridding strengthening rib rock wool warming plate be made up of the two-way grid reinforcing rib accompanied in rock-wool heat insulation plate and its top layer, grid reinforcing rib is fiberglass gridding reinforcing rib, metal grill reinforcing rib or chemical fibre grid reinforcing rib, it is characterized in that: the external surface of described grid reinforcing rib is with one deck rock-wool heat insulation plate topping, environment thin-coat plaster layer mortar outside grid reinforcing rib and plate face is isolated, prevents reinforcing rib from being alkalized, corroding; With grid reinforcing rib and rock-wool heat insulation plate suppressing, one step completed method in curing molding process, grid reinforcing rib folder is attached in the top layer of rock-wool heat insulation plate, rock-wool heat insulation plate topping and heat preservation core plate are combined into an overall sheet material, improve tensile strength and the rupture strength of warming plate, grid reinforcing rib is that two-sided setting or one side are arranged; For the external heat insulating wall of mechanical fastening system anchoring warming plate, solve that the intrinsic globality of warming plate is poor, the shortcoming of easy fracture; Metal grill reinforcing rib is formed by connecting by longitudinal steel wire and transverse steel wire right-angled intersection electric welding; grid reinforcing rib is hot-dip galvanizing steel wire, cold-drawn low-carbon wire, stainless steel wire or alloy-steel wire; gauge of wire is 0.5 ~ 4.0mm; the aperture spacing of grid reinforcing rib is 5 ~ 60 × 5 ~ 60mm, the rock-wool heat insulation plate protective layer thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 5 ~ 50mm.

2. gridding strengthening rib rock wool warming plate according to claim 1, it is characterized in that: described fiberglass gridding reinforcing rib is knitted by glass end and parallel right-angled intersection to form, the aperture spacing of grid reinforcing rib is 5 ~ 25 × 5 ~ 25mm, the rock-wool heat insulation plate protective layer thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 5 ~ 25mm; Chemical fibre grid reinforcing rib is knitted by chemical fibre warp and parallel right-angled intersection to form; chemical fibre is polyester fiber, Fypro, polyacrylonitrile fibre, vinal or polyolefine fiber; the aperture spacing of grid reinforcing rib is 5 ~ 20 × 5 ~ 20mm, and the rock-wool heat insulation plate protective layer thickness of grid reinforcing rib is 5 ~ 25mm.

3. gridding strengthening rib rock wool warming plate according to claim 1, it is characterized in that: the steel wire optimum diameter of described metal grill reinforcing rib is 0.9 ~ 2.5mm, the aperture optimal spacing of grid reinforcing rib is 10 ~ 30 × 10 ~ 30mm, and the rock-wool heat insulation plate topping optimum thickness of grid reinforcing rib is 8 ~ 30mm; The aperture optimal spacing of fiberglass gridding reinforcing rib or chemical fibre grid reinforcing rib is 7 ~ 15 × 7 ~ 15mm, and the rock-wool heat insulation plate topping optimum thickness of grid reinforcing rib is 8 ~ 12mm.

4. a grid reinforcing rib phenolic-aldehyde heat-insulation board, the grid reinforcing rib phenolic-aldehyde heat-insulation board be made up of the two-way grid reinforcing rib accompanied in phenolic-aldehyde heat-insulation board and its top layer, grid reinforcing rib is fiberglass gridding reinforcing rib, metal grill reinforcing rib or chemical fibre grid reinforcing rib, it is characterized in that: the external surface of described grid reinforcing rib is with one deck phenolic-aldehyde heat-insulation board topping, environment thin-coat plaster layer mortar outside grid reinforcing rib and plate face is isolated, prevents reinforcing rib from being alkalized, corroding; With grid reinforcing rib and phenolic-aldehyde heat-insulation board suppressing, one step completed method in curing molding process, grid reinforcing rib folder is attached in the top layer of phenolic-aldehyde heat-insulation board, phenolic-aldehyde heat-insulation board topping and heat preservation core plate are combined into an overall sheet material, improve tensile strength and the rupture strength of warming plate, grid reinforcing rib is that two-sided setting or one side are arranged; For the external heat insulating wall of mechanical fastening system anchoring warming plate, solve that the intrinsic globality of warming plate is poor, the shortcoming of easy fracture; Fiberglass gridding reinforcing rib is knitted by glass end and parallel right-angled intersection to form, and the aperture spacing of grid reinforcing rib is 5 ~ 30 × 5 ~ 30mm, the phenolic-aldehyde heat-insulation board protective layer thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 7 ~ 40mm.

5. grid reinforcing rib phenolic-aldehyde heat-insulation board according to claim 4, it is characterized in that: described metal grill reinforcing rib is formed by connecting by longitudinal steel wire and transverse steel wire right-angled intersection electric welding, grid reinforcing rib is hot-dip galvanizing steel wire, cold-drawn low-carbon wire, stainless steel wire or alloy-steel wire, gauge of wire is 0.5 ~ 4.0mm, the aperture spacing of grid reinforcing rib is 5 ~ 60 × 5 ~ 60mm, and the phenolic-aldehyde heat-insulation board protective layer thickness of grid reinforcing rib is 7 ~ 50mm; Chemical fibre grid reinforcing rib is knitted by chemical fibre warp and parallel right-angled intersection to form; chemical fibre is polyester fiber, Fypro, polyacrylonitrile fibre, vinal or polyolefine fiber; the aperture spacing of grid reinforcing rib is 5 ~ 30 × 5 ~ 30mm, and the phenolic-aldehyde heat-insulation board protective layer thickness of grid reinforcing rib is 7 ~ 40mm.

6. grid reinforcing rib phenolic-aldehyde heat-insulation board according to claim 4, it is characterized in that: the aperture optimal spacing of described fiberglass gridding reinforcing rib or chemical fibre grid reinforcing rib is 7 ~ 20 × 7 ~ 20mm, the phenolic-aldehyde heat-insulation board topping optimum thickness of grid reinforcing rib is 10 ~ 30mm; Metal grill reinforcing rib is formed by connecting by longitudinal steel wire and transverse steel wire right-angled intersection electric welding; the steel wire optimum diameter of grid reinforcing rib is 0.9 ~ 2.5mm; the aperture optimal spacing of grid reinforcing rib is 10 ~ 30 × 10 ~ 30mm, and the phenolic-aldehyde heat-insulation board topping optimum thickness of grid reinforcing rib is 10 ~ 40mm.

7. a grid reinforcing rib modified expanded perlite insulation board, the grid reinforcing rib modified expanded perlite insulation board be made up of the two-way grid reinforcing rib accompanied in modified expanded perlite insulation board and its top layer, grid reinforcing rib is fiberglass gridding reinforcing rib, metal grill reinforcing rib or chemical fibre grid reinforcing rib, it is characterized in that: the external surface of described grid reinforcing rib is with one deck modified expanded perlite insulation board topping, environment thin-coat plaster layer mortar outside grid reinforcing rib and plate face is isolated, prevents reinforcing rib from being alkalized, corroding; With grid reinforcing rib and modified expanded perlite insulation board suppressing, one step completed method in curing molding process, grid reinforcing rib folder is attached in the top layer of modified expanded perlite insulation board, modified expanded perlite insulation board topping and heat preservation core plate are combined into an overall sheet material, improve tensile strength and the rupture strength of warming plate, grid reinforcing rib is that two-sided setting or one side are arranged; For the external heat insulating wall of mechanical fastening system anchoring warming plate, solve that the intrinsic globality of warming plate is poor, the shortcoming of easy fracture; Fiberglass gridding reinforcing rib is knitted by glass end and parallel right-angled intersection to form; the aperture spacing of grid reinforcing rib is 5 ~ 30 × 5 ~ 30mm, the modified expanded perlite insulation board protective layer thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 7 ~ 40mm.

8. grid reinforcing rib modified expanded perlite insulation board according to claim 7, it is characterized in that: described metal grill reinforcing rib is formed by connecting by longitudinal steel wire and transverse steel wire right-angled intersection electric welding, grid reinforcing rib is hot-dip galvanizing steel wire, cold-drawn low-carbon wire, stainless steel wire or alloy-steel wire, steel wire diameter is 0.5 ~ 4.0mm, the aperture spacing of grid reinforcing rib is 5 ~ 60 × 5 ~ 60mm, and the modified expanded perlite insulation board protective layer thickness of grid reinforcing rib is 7 ~ 50mm; Chemical fibre grid reinforcing rib is knitted by chemical fibre warp and parallel right-angled intersection to form; chemical fibre is polyester fiber, Fypro, polyacrylonitrile fibre, vinal or polyolefine fiber; the aperture spacing of grid reinforcing rib is 5 ~ 30 × 5 ~ 30mm, and the modified expanded perlite insulation board protective layer thickness of grid reinforcing rib is 7 ~ 40mm.

9. grid reinforcing rib modified expanded perlite insulation board according to claim 7, it is characterized in that: the aperture optimal spacing of described fiberglass gridding reinforcing rib or chemical fibre grid reinforcing rib is 7 ~ 20 × 7 ~ 20mm, the modified expanded perlite insulation board topping optimum thickness of grid reinforcing rib is 10 ~ 30mm; The steel wire optimum diameter of metal grill reinforcing rib is 0.9 ~ 2.5mm, and the aperture optimal spacing of grid reinforcing rib is 10 ~ 30 × 10 ~ 30mm, and the modified expanded perlite insulation board topping optimum thickness of grid reinforcing rib is 10 ~ 40mm.

10. a grid reinforcing rib polyurethane thermal insulation board, the grid reinforcing rib polyurethane thermal insulation board be made up of the two-way grid reinforcing rib accompanied in polyurethane thermal insulation board and its top layer, grid reinforcing rib is fiberglass gridding reinforcing rib, metal grill reinforcing rib or chemical fibre grid reinforcing rib, it is characterized in that: the external surface of described grid reinforcing rib is with one deck polyurethane thermal insulation board topping, environment thin-coat plaster layer mortar outside grid reinforcing rib and plate face is isolated, prevents reinforcing rib from being alkalized, corroding; With grid reinforcing rib and polyurethane thermal insulation board suppressing, one step completed method in curing molding process, grid reinforcing rib folder is attached in the top layer of polyurethane thermal insulation board, polyurethane thermal insulation board topping and heat preservation core plate are combined into an overall sheet material, improve tensile strength and the rupture strength of warming plate, grid reinforcing rib is that two-sided setting or one side are arranged; For the external heat insulating wall of mechanical fastening system anchoring warming plate, solve that the intrinsic globality of warming plate is poor, the shortcoming of easy fracture; Metal grill reinforcing rib is formed by connecting by longitudinal steel wire and transverse steel wire right-angled intersection electric welding; grid reinforcing rib is hot-dip galvanizing steel wire, cold-drawn low-carbon wire, stainless steel wire or alloy-steel wire; the optimum diameter of steel wire is 0.9 ~ 2.5mm; the aperture optimal spacing of grid reinforcing rib is 10 ~ 30 × 10 ~ 30mm, the polyurethane thermal insulation board topping optimum thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 8 ~ 30mm.

11. grid reinforcing rib polyurethane thermal insulation boards according to claim 10, it is characterized in that: described fiberglass gridding reinforcing rib is knitted by glass end and parallel right-angled intersection to form, the aperture spacing of grid reinforcing rib is 5 ~ 25 × 5 ~ 25mm, the polyurethane thermal insulation board protective layer thickness of grid reinforcing rib namely from the outer peripheral distance in plate face be 5 ~ 25mm; Described chemical fibre grid reinforcing rib is knitted by chemical fibre warp and parallel right-angled intersection to form, chemical fibre is polyester fiber, Fypro, polyacrylonitrile fibre, vinal or polyolefine fiber, the aperture spacing of grid reinforcing rib is 5 ~ 25 × 5 ~ 25mm, and the polyurethane thermal insulation board protective layer thickness of grid reinforcing rib is 5 ~ 25mm; The steel wire diameter of metal grill reinforcing rib is 0.5 ~ 4.0mm, and the aperture spacing of grid reinforcing rib is 5 ~ 60 × 5 ~ 60mm, and the polyurethane thermal insulation board protective layer thickness of grid reinforcing rib is 5 ~ 50mm.

12. grid reinforcing rib polyurethane thermal insulation boards according to claim 10; it is characterized in that: the aperture optimal spacing of described fiberglass gridding reinforcing rib or chemical fibre grid reinforcing rib is 7 ~ 15 × 7 ~ 15mm, the polyurethane thermal insulation board topping optimum thickness of grid reinforcing rib is 8 ~ 12mm.