CN214941854U - A novel material board device for building outer wall or ground - Google Patents
A novel material board device for building outer wall or ground Download PDFInfo
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- CN214941854U CN214941854U CN202120656468.1U CN202120656468U CN214941854U CN 214941854 U CN214941854 U CN 214941854U CN 202120656468 U CN202120656468 U CN 202120656468U CN 214941854 U CN214941854 U CN 214941854U
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Abstract
The utility model discloses a novel material plate device used for the outer wall or the ground of a building; the method comprises the following steps: the structure comprises a plurality of buckle plates, a plurality of groove strips 1, a plurality of groove strips 2, a plurality of groove strips 3 and a plurality of groove strips 4; the buckle includes: the 1 st buckle, the 2 nd buckle, the 3 rd buckle, the 4 th buckle. The utility model discloses a simple structure, fire prevention, waterproof, convenient to use can realize high-efficient, safe work progress, reduces the risk, and lifting efficiency, and the degree of consistency is high after the installation dress of just being under construction, elegant appearance, and the cavity is rarely produced to inside. The utility model discloses antipollution, durability are better, and the material dead weight is little, has wounded's hidden danger after not having the high altitude to take off, and warm and humid shear stress is little, and the adhesion security is better, and the gas permeability is good, and the probability of taking place freeze thawing destruction is less, and warm and humid tensile stress is little, and the maintenance degree of difficulty is less, and the installation is simpler, and the cost is reasonable, suitable extensive popularization.
Description
Technical Field
The utility model relates to a building outer wall board device, especially a novel material board device that is used for building outer wall or ground.
Background
The decoration mode of the outer facade of the building comprises the following steps: paint spraying, glass curtain walls, plain concrete surfaces, plain brick wall surfaces, sticking small-block patches such as ceramic tiles, stone materials, mosaics and the like. The exterior wall adopting the decoration mode of sticking small-block-shaped patches such as ceramic tiles, stone materials, mosaics and the like is easy to hollowly bulge and fall off from the original base materials after being corroded by adverse environments such as solar radiation, wind and rain, severe cold and frost heaving in winter, cold and hot freeze thawing cycles and the like all year round, so that potential safety hazards are brought and even safety accidents are caused. The ceramic tiles falling off from high-rise buildings injure people in China and all over the world.
In the building facade decoration structure, how to avoid the outer wall tile decoration material (certainly, the outer wall tile decoration structure also comprises stone, mosaic and the like, and the substitution of the outer wall tile for falling is a very troubling problem for discussion, because how to judge the outer wall tile which probably falls off is very difficult, the prior art can adopt infrared photographing analysis of the outer wall tile pasting hollowing, find the outer wall tile with hollowing to paste again, also have more careful owners, adopt wooden mallets to knock by pieces by manual mode, clear the insecure tile and paste again, however, the time-consuming and labor-consuming modes can not fundamentally solve the problem of tile falling off, and the adhesive surface of a plurality of fallen tiles is observed and found to have no hollowing, so whether the falling risk of the tiles is judged by pasting the hollowing or not is not rigorous, in addition, because the environment erodes the tile adhesive surface gradually, the tiles in the safe state today cannot be guaranteed to be in the safe state in the next day, and unpredictability and no early warning performance of falling of the building tiles are places causing headaches to later maintenance owners.
In addition, there are two types of reinforcement techniques in the prior art, one type of technical solution, such as that disclosed in CN108071238A, is to set a stainless steel mesh in a tile falling-off dangerous area to fix a tile, which can prevent falling off, and solve the problem of tile falling off in this area, but since tile falling off has unpredictability, the tile currently in a safe state cannot be guaranteed to be still in a safe state in the future under environmental erosion, and therefore, only a certain area is set with a stainless steel mesh, which cannot completely solve the problem of tile falling off, if the whole outer wall is hooped with a stainless steel mesh, on one hand, the cost is high, and on the other hand, after hooping the mesh, the outer vertical surface changes, which not only affects the original building effect, but also the planning and approval department may not necessarily approve. And thirdly, a gap is reserved between the stainless steel mesh and the ceramic tile, and the small falling ceramic tile is still easy to fall to bring hidden troubles. The other kind of technology is the mode that adopts to set up the cornice on the low floor, perhaps sets up the round cornice again through a layer top at high-rise building, catches the ceramic tile that the high altitude dropped, protects cornice below pedestrian and article, but this kind of technology only can protect cornice below people and article, and to very high building, the ceramic tile drops and can not confirm along with wind driftage to where, consequently sets up the problem of also unable fundamental solution of cornice.
At present, when exterior wall tiles are mounted, the traditional method is that constructors manually paint concrete materials to be mounted on the exterior wall of a building one by one, the building height is high, high-altitude operation is needed for mounting the exterior wall, the danger degree is extremely high, pressing forces of the exterior wall tiles are different during mounting of the exterior wall tiles, the inside of the exterior wall tiles and a wall body can have a hollow condition, and the uniformity is poor. Therefore, the traditional mounting mode and the loss time and cost of the traditional mounting mode are very dangerous in the construction process, and the efficiency is extremely low.
Ceramic tiles are increasingly used in architectural decoration, wherein the exterior wall tiles of a building not only can beautify the appearance, but also have a certain waterproof function, the area of the exterior wall of the building is large, and the manual paving efficiency is low.
The invention patent with Chinese patent application number CN201810034511.3 discloses a tile paving method, which comprises the following steps: cleaning the surface of a base layer, and detecting the verticality and the flatness of the surface of the base layer; planning according to an area where the ceramic tiles need to be laid, and popping up a vertical datum line and a transverse datum line for positioning the ceramic tiles; cleaning the ceramic tile, and determining that the corners and two surfaces of the ceramic tile are free of oil stains; paving and pasting ceramic tiles, positioning the ceramic tiles by adopting a leveling device, leveling the ceramic tiles by adopting the leveling device, and enabling the width of a ceramic tile seam formed by adjacent ceramic tiles to be 1.5-3 mm; after the mortar is solidified, the flattening cover is removed, and pointing operation is carried out; and after finishing pointing, attaching a film on the surface of the laid ceramic tile and curing for 5 to 10 days. By adopting the tile paving method provided by the technical scheme of the invention, the phenomenon of dislocation of tiles during leveling can be avoided, the gap between the tiles is controlled to be reasonable, and the attractiveness and practicability of the laid tiles are improved.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a novel material board device for building outer wall or ground.
In order to solve the technical problem, the technical scheme of the utility model is that:
the novel material plate device for the building outer wall or the ground comprises: the structure comprises a plurality of buckle plates, a plurality of groove strips 1, a plurality of groove strips 2, a plurality of groove strips 3 and a plurality of groove strips 4; the buckle includes: the 1 st buckle, the 2 nd buckle, the 3 rd buckle, the 4 th buckle.
The upper end fixed mounting of buckle has the 1 st buckle, and the lower extreme fixed mounting of buckle has the 2 nd buckle, and the left end fixed mounting of buckle has the 3 rd buckle, and the right-hand member fixed mounting of buckle has the 4 th buckle.
The 1 st buckle and 1 st recess strip swing joint, the 2 nd buckle and 2 nd recess strip swing joint, the 3 rd buckle and 3 rd recess strip swing joint, the 4 th buckle and 4 th recess strip swing joint.
The pinch plate 1 is made of metal materials.
The 1 st groove strip, the 2 nd groove strip, the 3 rd groove strip and the 4 th groove strip are made of metal materials.
The 1 st buckle, the 2 nd buckle, the 3 rd buckle and the 4 th buckle are respectively clamped on left and right groove side plates arranged in the 1 st groove strip, the 2 nd groove strip, the 3 rd groove strip and the 4 th groove strip.
The included angle between the straight plate on the buckle plate and the 1 st buckle, the 2 nd buckle, the 3 rd buckle and the 4 th buckle is 80-85 degrees.
And left and right groove side plates arranged in the 1 st groove strip, the 2 nd groove strip, the 3 rd groove strip and the 4 th groove strip are vertical to the bottom plate.
The thickness of the buckle plate is 0.3-1.0 mm.
The thickness of the 1 st groove strip, the 2 nd groove strip, the 3 rd groove strip and the 4 th groove strip is 0.5-1.5 mm respectively, the width is 1.0-3.0 cm respectively, and the depth is 0.4-1 cm respectively.
Spraying required textures and colors on the outer surface of a straight plate of the pinch plate, then placing the straight plate in an oven, adjusting the temperature to 90-230 ℃, baking for 15-30 minutes, and then cutting the straight plate into required models; the 1 st groove strip, the 2 nd groove strip, the 3 rd groove strip and the 4 th groove strip are internally provided with a seam beautifying agent.
The multiple buckle plates, the multiple 1 st groove strips, the multiple 2 nd groove strips, the multiple 3 rd groove strips and the multiple 4 th groove strips are adhered to the outer wall of the building or the ground through chloroprene rubber composition or acrylate structural adhesive or polyurethane structural adhesive or epoxy resin adhesive.
The utility model has the advantages that:
the utility model discloses a simple structure, fire prevention, waterproof, convenient to use can realize high-efficient, safe work progress, reduces the risk, and lifting efficiency, and the degree of consistency is high after the installation dress of just being under construction, elegant appearance, and the cavity is rarely produced to inside.
Not only solved current wall face ornamental material intensity not enough and the wall that leads to is damaged, weather resistant not good, discolour, salt and alkali appear, tympanic bulla, phenomenon such as the problem of droing, the process is simple, thereby has shortened the engineering time greatly and has practiced thrift the cost of labor, as a novel material board, has played fine decorative effect to wall packing, making level, protective material.
The utility model discloses antipollution, durability are better, and the material dead weight is little, has wounded's hidden danger after not having the high altitude to take off, and warm and humid shear stress is little, and the adhesion security is better, and the gas permeability is good, and the probability of taking place freeze thawing destruction is less, and warm and humid tensile stress is little, and the maintenance degree of difficulty is less, and the installation is simpler, and the cost is reasonable, suitable extensive popularization.
Drawings
The present invention will be further described with reference to the accompanying drawings and the detailed description.
Fig. 1 is a schematic view of the structure of the buckle plate and the groove strip of the present invention.
Fig. 2 is a schematic view of the structure of the utility model showing the rear view of the combination of the buckle plate and the groove strip.
Fig. 3 is a schematic view of the three-dimensional structure of the buckle on the outer wall or the ground.
Detailed Description
As shown in fig. 1-3, the present invention comprises: buckle 1, the 1 st buckle 2, the 2 nd buckle 3, the 3 rd buckle 4, the 4 th buckle 5, the 1 st recess strip 6, the 2 nd recess strip 7, the 3 rd recess strip 8, the 4 th recess strip 9, recess curb plate 10, straight board 11, contained angle 12, bottom plate 13.
The novel material plate device for the building outer wall or the ground comprises: the structure comprises a plurality of buckle plates 1, a plurality of groove strips 2, a plurality of groove strips 3, a plurality of groove strips 8 and a plurality of groove strips 4, wherein the buckle plates are arranged in a groove shape; the buckle 1 comprises: the 1 st buckle 2, the 2 nd buckle 3, the 3 rd buckle 4 and the 4 th buckle 5.
The upper end fixed mounting of buckle 1 has the 1 st buckle 2, and the lower extreme fixed mounting of buckle 1 has the 2 nd buckle 3, and the left end fixed mounting of buckle 1 has the 3 rd buckle 4, and the right-hand member fixed mounting of buckle 1 has the 4 th buckle 5.
The 1 st buckle 2 and the 6 swing joint of 1 st recess strip, the 2 nd buckle 3 and the 7 swing joint of the 2 nd recess strip, the 3 rd buckle 4 and the 8 swing joint of the 3 rd recess strip, the 4 th buckle 5 and the 9 swing joint of the 4 th recess strip.
The pinch plate 1 is made of metal materials.
The 1 st groove strip 6, the 2 nd groove strip 7, the 3 rd groove strip 8 and the 4 th groove strip 9 are made of metal materials.
The 1 st buckle 2, the 2 nd buckle 3, the 3 rd buckle 4, the 4 th buckle 5 block respectively on the left and right groove side plate 10 that is equipped with in the 1 st recess strip 6, the 2 nd recess strip 7, the 3 rd recess strip 8, the 4 th recess strip 9.
The included angle 12 between the straight plate 11 on the buckle plate 1 and the 1 st buckle 2, the 2 nd buckle 3, the 3 rd buckle 4 and the 4 th buckle 5 is 80-85 degrees.
And left and right groove side plates 10 arranged in the 1 st groove strip 6, the 2 nd groove strip 7, the 3 rd groove strip 8 and the 4 th groove strip 9 are vertical to the bottom plate 13.
The thickness of the pinch plate 1 is 0.3-1.0 mm.
The thickness of the 1 st groove strip 6, the 2 nd groove strip 7, the 3 rd groove strip 8 and the 4 th groove strip 9 is 0.5-1.5 mm respectively, the width is 1.0-3.0 cm respectively, and the depth is 0.4-1 cm respectively.
Spraying required textures and colors on the outer surface of a straight plate 11 of the pinch plate 1, then placing the pinch plate in an oven, adjusting the temperature to 90-230 ℃, baking for 15-30 minutes, and then cutting the pinch plate into required models; the 1 st groove strip 6, the 2 nd groove strip 7, the 3 rd groove strip 8 and the 4 th groove strip 9 are internally provided with a seam beautifying agent.
The structure is characterized in that the plurality of buckle plates 1, the plurality of groove strips 2, the plurality of groove strips 3, the plurality of groove strips 4 and the plurality of groove strips 7 are adhered to the outer wall or the ground of the building through chloroprene rubber synthetic products or acrylate structural adhesives or polyurethane structural adhesives or epoxy resin adhesives.
The working principle is as follows:
the invention comprises the following materials:
1. the metal plate and the metal groove strip are formed by dissolving and mixing three metals of aluminum, magnesium and manganese at a high temperature of 425 ℃ according to a certain proportion, and are divided into a flat buckle plate and a groove strip, wherein the thickness of the flat buckle plate is 0.3-1.0 mm; the groove strips have a thickness of 0.5-1.5 mm, a width of 1.0-3.0 cm and a depth of 0.4-1 cm.
2. Chloroprene rubber CH2=C(Cl)-CH=CH2And (4) synthesizing the product. The product name is as follows: neoprene, common name: nail-free glue CONSTRUCTION ADHESIVE, Baishi German nail-free glue, Guangdong Tianjian New Material science and technology Co., Ltd (south Industrial area of Sanshui, Guangdong Buddha mountain); the product name is as follows: neoprene, Guangzhou Shishishishishihike Kogyo (Kongming street in Tianhe area, Guangzhou city).
3. Acrylate CH2=CHCO2H,C3H4O2Structural adhesives. The product name is as follows: acrylate structural adhesive, multipurpose structural adhesive (FREE NAIL GLUE), Guangdong Tianjian New Material science and technology Co., Ltd (south Industrial area of Sanshui of Guangdong Foshan).
4. Polyurethane (C)10H8N2O2C6H14O3) An n-structure type adhesive.
5. Epoxy resin (C)11H12O3) And n, adhesive.
6. Basic layer processing bottom material: no. 325-425 cement (3 CaO. SiO)2、2CaO·SiO2、3CaO·Al2O3 (such as Huarun brand cement, Tai mud brand cement) 25-50%, methylcellulose 5-15 ten thousand or hydroxypropyl methylcellulose (CH)2OR, hydroxypropylmethyl cellulose 10-20 ten thousand OR hydroxyethyl cellulose ((C)2H6O2) n) 3 to 10 ten thousand or carboxymethyl cellulose (RnOCH)2COONa 5-20 ten thousand 0.25% -0.5%, latex powder 0.8% -2.2%, river sand or stone powder (20-80 mesh) 75% -50%, polypropylene cellulose ((C)3H6)x)0.25%~0.5%。
7. Treating the base layer with fabric: 325-425 cement (3 CaO. SiO)2、2CaO·SiO2、3CaO·Al2O3(such as Huarun brand cement, Tai mud brand cement) 30-40%, calcium carbonate (CaCO)3,CCaO3) 10-20% of coarse whiting (CaCO)3)Or calcium superphosphate (Ca (H)2PO4)2、CaSO4) 10-20 percent of (60-120 meshes), 1-5 percent of latex powder and methyl cellulose ((C)6H10O5) n) 5 to 15 ten thousand or hydroxypropyl methyl fiberVitamin (CH)2OR, hydroxypropylmethyl cellulose 10-20 ten thousand OR hydroxyethyl cellulose ((C)2H6O2) n) 3 to 10 ten thousand or carboxymethyl cellulose (RnOCH)25-20 ten thousand 1% -5% of COONa, 0.3-0.6% of wood fiber (lignocelluose), and (C)3H6)x)0.1%~0.5%。
Secondly, a manufacturing procedure: the required texture and color are sprayed on the flat buckle plate, then the flat buckle plate is placed in an oven, the temperature is adjusted to 90-230 ℃, the flat buckle plate is baked for 15-30 minutes, and the flat buckle plate is cut into the required model. The flat buckle plate can be cut by two cutting methods, one method is to cut according to the model required by a customer, then to fold four edges, and the width of the folded edge is 0.4-1 cm. The cutting method is convenient for reserving beautiful seams in the wall construction, and the finished product effect is better. One method is to cut out the required model according to the requirements of customers, and then directly stick the model to the wall surface without folding the edge. The cutting method is more convenient for construction, but has no beautiful seam and has slightly poor finished product effect.
Thirdly, the construction operation is divided into two types (the following percentages are weight percentages):
the first method comprises the following steps:
fixing groove strips, forming vertical lines at large angles of buildings and at the edges of doors and windows by using a theodolite, taking the vertical lines as vertical reference lines of the fixing groove strips, and leading floor horizontal lines to an outer wall to serve as transverse reference lines of the fixing groove strips. The distance between the transverse groove strips and the distance between the vertical groove strips are determined by the length and the width of the flat buckle plate.
2, wall surface leveling, namely adding water into a mixture of 25-50% of No. 325-425 cement, 5-15 ten thousand of methylcellulose, 10-20 ten thousand of hydroxypropyl methylcellulose, 3-10 ten thousand of hydroxyethyl cellulose, 5-20 ten thousand of carboxymethyl cellulose, 0.25-0.5% of latex powder, 0.8-2.2% of river sand or stone powder (20-80 meshes) and 0.25-0.5% of polypropylene fiber, and stirring, wherein the ratio of the mixture to the water is 4: 1, scraping on a wall, wherein the top surface of the leveling layer is 0.2-0.3mm lower than the top end of the groove strip.
3, re-leveling the wall surface: after the operation 2 is dried completely, adding water into a mixture of 30-40% of No. 325-425 cement, 10-20% of calcium carbonate, or 10-20% of ordinary superphosphate (60-120 meshes), 1-5% of latex powder, 5-15 ten thousand of methyl cellulose, or 10-20 ten thousand of hydroxypropyl methyl cellulose, or 10-10 ten thousand of hydroxyethyl cellulose (C2H6O2) n3, or 5-20 ten thousand of 1-5% of carboxymethyl cellulose, 0.3-0.6% of wood fiber, and 0.1-0.5% of polypropylene fiber, stirring, and scraping and leveling, wherein the ratio of the mixture to the water is 3.5: 1.
And 4, watering for maintenance, polishing the knife mark on the wall surface by using sand paper after the operation 3 is dried completely, then pouring enough water on the wall surface to wash off the polished dust, and standing for 5-7 days for maintenance.
5, adhering a flat buckle plate, coating an acrylate structural adhesive, a polyurethane structural adhesive or an epoxy resin structural adhesive on the wall surface and the folded flat buckle plate, and buckling the plate type AL on the groove strips of the divided grids.
6, beautifying the seams of the wall surface: and filling an acrylate structural adhesive, a polyurethane structural adhesive or an epoxy resin structural adhesive in the groove strips to form a beautiful seam, wherein the color of the beautiful seam is determined according to the preference of a client.
The second method comprises the following steps:
1, leveling a wall surface, namely adding water into a mixture of 30-40% of No. 325-425 cement, 10-20% of calcium carbonate, or 10-20% of triple superphosphate or common calcium (60-120 meshes), 1-5% of emulsion powder, 5-15 ten thousand of methyl cellulose, or 10-20 ten thousand of hydroxypropyl methyl cellulose, or 3-10 ten thousand of hydroxyethyl cellulose, or 5-20 ten thousand of carboxymethyl cellulose, 1-5% of lignocellulose, 0.3-0.6% of lignocellulose and 0.1-0.5% of polypropylene fiber on a blank wall surface, and stirring, wherein the ratio of the mixture to the water is 3.5:1, scraping and leveling twice.
2, wall surface maintenance: and after the operation 1 is completely dried, polishing the wall surface to be flat by using abrasive paper, watering to clean the polished dust, and standing for 5-7 days.
Sticking a plate type AL, coating an acrylate structural adhesive, a polyurethane structural adhesive or an epoxy resin structural adhesive on the wall and the flat buckling plate without the folded edge after the wall surface is dried completely, and sticking the flat buckling plate on the wall surface. (Note: this operation is a practice of leaving no seam).
The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles of the invention, and still fall within the scope of the invention.
Claims (10)
1. A novel material board device for building outer wall or ground, its characterized in that: the novel material plate device for the outer wall or the ground of the building comprises: the buckle plates (1) are multiple, the 1 st groove strips (6) are multiple, the 2 nd groove strips (7) are multiple, the 3 rd groove strips (8) are multiple, and the 4 th groove strips (9) are multiple; the buckle (1) comprises: a 1 st buckle (2), a 2 nd buckle (3), a 3 rd buckle (4) and a 4 th buckle (5);
the upper end of the buckle plate (1) is fixedly provided with a 1 st buckle (2), the lower end of the buckle plate (1) is fixedly provided with a 2 nd buckle (3), the left end of the buckle plate (1) is fixedly provided with a 3 rd buckle (4), and the right end of the buckle plate (1) is fixedly provided with a 4 th buckle (5);
the 1 st buckle (2) and the 1 st groove strip (6) swing joint, the 2 nd buckle (3) and the 2 nd groove strip (7) swing joint, the 3 rd buckle (4) and the 3 rd groove strip (8) swing joint, the 4 th buckle (5) and the 4 th groove strip (9) swing joint.
2. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the pinch plate (1) is made of metal materials.
3. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the groove strip (6) at the 1 st position, the groove strip (7) at the 2 nd position, the groove strip (8) at the 3 rd position and the groove strip (9) at the 4 th position are made of metal materials.
4. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the groove structure is characterized in that a 1 st buckle (2), a 2 nd buckle (3), a 3 rd buckle (4) and a 4 th buckle (5) are respectively clamped on left and right groove side plates (10) arranged in a 1 st groove strip (6), a 2 nd groove strip (7), a 3 rd groove strip (8) and a 4 th groove strip (9).
5. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the angle (12) between the straight plate (11) on the buckle plate (1) and the 1 st buckle (2), the 2 nd buckle (3), the 3 rd buckle (4) and the 4 th buckle (5) is 80-85 degrees.
6. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the left and right groove side plates (10) arranged in the 1 st groove strip (6), the 2 nd groove strip (7), the 3 rd groove strip (8) and the 4 th groove strip (9) are vertical to the bottom plate (13).
7. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the thickness of the buckle plate (1) is 0.3-1.0 mm.
8. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the thickness of the 1 st groove strip (6), the 2 nd groove strip (7), the 3 rd groove strip (8) and the 4 th groove strip (9) is 0.5-1.5 mm respectively, the width is 1.0-3.0 cm respectively, and the depth is 0.4-1 cm respectively.
9. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: spraying required textures and colors on the outer surface of a straight plate (11) of the buckle plate (1), then placing the buckle plate in an oven, adjusting the temperature to 90-230 ℃, baking for 15-30 minutes, and then cutting the buckle plate into required models; the 1 st groove strip (6), the 2 nd groove strip (7), the 3 rd groove strip (8) and the 4 th groove strip (9) are internally provided with a seam beautifying agent.
10. The novel material plate device for the outer wall or the ground of the building as claimed in claim 1, wherein: the multi-block buckle plates (1), the multi-block 1 st groove strips (6), the multi-block 2 nd groove strips (7), the multi-block 3 rd groove strips (8) and the multi-block 4 th groove strips (9) are adhered to the outer wall of a building or the ground through chloroprene rubber synthetic products or acrylate structural adhesives or polyurethane structural adhesives or epoxy resin adhesives.
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| Application Number | Priority Date | Filing Date | Title |
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| CN202120656468.1U CN214941854U (en) | 2021-03-31 | 2021-03-31 | A novel material board device for building outer wall or ground |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202120656468.1U CN214941854U (en) | 2021-03-31 | 2021-03-31 | A novel material board device for building outer wall or ground |
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