CN215406884U - Heat preservation wall body with stable structure, high strength and light weight - Google Patents

Abstract

The utility model relates to the field of building thermal insulation walls, in particular to a thermal insulation wall with stable structure, high strength and light weight, which consists of an upper fine concrete plate, a lower fine concrete plate, a thermal insulation mortar plate and a reinforcing mesh. The single-layer bidirectional reinforcing mesh sheets are arranged in the upper and lower thin concrete plates and are respectively bound and connected with the front and the bottom of the corrugated mesh plate, the structure improves the supporting performance of the heat-insulating wall body, and the single-layer bidirectional reinforcing mesh sheets ensure that the surfaces of the upper and lower thin concrete plates are not easy to crack; grooves are formed between the upper and lower thin concrete plates and the heat-insulating mortar plates, the left and right sides of the upper and lower thin concrete plates are provided with exhaust holes and grouting holes, the grouting holes are grouted into the grooves, and the mortar is solidified to form a whole with the heat-insulating wall plate, so that the heat-insulating wall bodies are spliced seamlessly, and the waterproof performance of the heat-insulating wall bodies is improved; through holes are formed in the front faces of the upper portions of the upper and lower thin concrete plates and the upper portions of the heat-insulating mortar plates, and reinforced steel sleeves are arranged in the through holes to prevent surface cracking caused by hoisting of the heat-insulating wall; the through hole can be conveniently hoisted and adjusted in construction.

Description

Heat preservation wall body with stable structure, high strength and light weight

Technical Field

The utility model relates to the field of building heat-insulating walls, in particular to a heat-insulating wall with stable structure, high strength and light weight.

Background

The heat-insulating wall is mainly used for walls of houses, industrial and public buildings, roofs of buildings, swimming pools, cold storages, boilers and heat-insulating projects with special waterproof requirements. The heat-insulating wall is formed by compounding polymer mortar, glass fiber gridding cloth or reinforcing mesh, flame-retardant molded polystyrene foam board (EPS) or extruded sheet (XPS) and other materials, meets the energy-saving requirement of the current house building, improves the heat-insulating level of the industrial and civil building wall, is a preferred material for building energy-saving reconstruction, is used for high-rise buildings, markets and industrial factory building walls, and has the advantages of low manufacturing cost, good effect, corrosion resistance, no pollution and the like.

In the prior art, for example, in a heat-insulating wallboard for a building (application number: CN201511009263.X), heat-insulating materials of an outer plate and an intermediate layer of the heat-insulating wallboard are only bonded by mortar of the outer plate, so that the heat-insulating wallboard is poor in supporting performance, low in strength and easy to break, the first connecting piece and the second connecting piece solve the problem of inconvenient connection between the heat-insulating wall and the ground, but when adjacent heat-insulating walling are spliced, the L structures of the first connecting piece and the second connecting piece cause that the spliced part and the inside cannot form a whole, the later stage is easy to crack, and the waterproof performance is not high.

In addition, although the corrugated composite material rib is added in the heat-insulating wall (application number: CN201320114257.0) in the prior art to improve the connectivity between the outer layer and the middle layer, the outer layer plate still bears huge stress when being hoisted, the outer layer plate is easy to crack, and meanwhile, when the heat-insulating wall plates in the prior art are butted, through seams exist between the heat-insulating wall plates, the heat-insulating wall plates are easy to crack due to the influence of outside air temperature and weather for a long time, the waterproof performance is poor, and meanwhile, the structure is inconvenient for hoisting, installing and adjusting on a construction site.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: in order to solve the problems existing in the background art, the heat insulation wall with stable structure, high strength and light weight is provided, and the problems that in the prior art, for example, in a heat insulation wallboard for a building (application number: CN201511009263.X), the outer layer board and the heat insulation material of the middle layer of the heat insulation wallboard are only bonded by the mortar of the outer layer board, so that the support performance of the heat insulation wallboard is poor, the strength is low, and the heat insulation wallboard is easy to break are solved; it adopts steel construction connection form installation inefficiency to be unfavorable for the popularization of present building industrialization. In addition, although the corrugated composite material rib is added in the heat-insulating wall (application number: CN201320114257.0) in the prior art to improve the connectivity between the outer layer and the middle layer, the outer layer plate still bears huge stress when being hoisted, the outer layer plate is easy to crack, the middle heat-insulating plate has too many gaps when being cut, concrete on two sides cannot be filled when being poured, once the wall body is seeped, a water leakage point cannot be found, meanwhile, when the heat-insulating wall plates in the prior art are butted, through seams exist among the heat-insulating wall plates, the heat-insulating wall plates are easy to crack after being influenced by the external temperature and weather for a long time, and the waterproof performance is poor; the middle heat-insulating layer has poor adhesion with concrete layers on two sides, and the wavy composite material only has tensile resistance and no shearing resistance, so that the finished product is easy to delaminate in the transportation and hoisting processes, and the overall structural strength is low; meanwhile, the structure is inconvenient for hoisting and installation adjustment on a construction site.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a heat-insulating wall body with stable structure, high strength and light weight comprises a heat-insulating wall body, wherein the heat-insulating wall body comprises an upper fine concrete slab, a lower fine concrete slab, heat-insulating mortar slabs and a corrugated net plate, single-layer bidirectional reinforcing mesh sheets are respectively arranged inside the upper fine concrete slab and the lower fine concrete slab and are respectively bound and connected with the front surface and the bottom surface of the corrugated net plate, the upper fine concrete slab and the lower fine concrete slab are fixedly connected with the corrugated net plate through the single-layer bidirectional reinforcing mesh sheets, the heat-insulating mortar slabs are positioned in the middle of the corrugated net plate, the heat-insulating mortar slabs are respectively fixedly connected with the bottom surface of the upper fine concrete slab and the front surface of the lower fine concrete slab, four sides of the upper fine concrete slab and the lower fine concrete slab are respectively longer than grooves formed between the heat-insulating mortar slabs and the heat-insulating mortar slabs, and semicircular exhaust holes are respectively formed inwards on the left and right sides of the upper portions of the upper fine concrete slab and the lower fine concrete slab, the left and right sides of the lower parts of the upper fine concrete plate and the lower fine concrete plate are both inwards provided with semicircular grouting holes, the positions of the same positions of the upper front surfaces of the upper fine concrete plate, the lower fine concrete plate and the heat preservation mortar plate are all provided with through holes, and reinforced steel sleeves are arranged inside the through holes.

The corrugated net plate is a corrugated plate formed by folding and pressing the whole net piece, the included angle between the bent bevel edge of the corrugated plate and the horizontal direction is 45 degrees, the surface of the corrugated plate is of an inclined net structure, and the inclined net structure is formed by arranging rhombic grids.

The single-layer bidirectional reinforcing mesh is of a net structure, the net structure is composed of a plurality of square grids, and the square grids are made by binding reinforcing steel bars or steel wires.

The diameter of the exhaust hole is the same as that of the grouting hole, and the structure of the upper thin concrete plate is the same as that of the lower thin concrete plate.

The through hole divide into hole for hoist and mount and fixed adjustment hole, the hole for hoist be located the upper portion of last thin concrete slabs, thin concrete slabs and heat preservation mortar board down, fixed adjustment hole be located the hole for hoist below.

The reinforced steel sleeve comprises a steel pipe and a threaded steel bar, the threaded steel bar is positioned on the outer annular surface of the upper end and the lower end of the steel pipe, and the threaded steel bar is welded with the steel pipe.

The utility model has the beneficial effects that:

(1) the heat-insulating wall body with stable structure, high strength and light weight of the utility model is composed of an upper thin concrete slab and a lower thin concrete slab, the corrugated net plate enhances the structural strength among the upper fine concrete plate, the lower fine concrete plate and the heat preservation mortar plate, the corrugated structure of the corrugated net plate enhances the supporting performance of the heat preservation wall body, the single-layer bidirectional reinforcing net plate enhances the tensile strength of the upper fine concrete plate and the lower fine concrete plate, and the surfaces of the upper fine concrete plate and the lower fine concrete plate are not easy to crack;

(2) the four sides of the upper thin concrete plate and the lower thin concrete plate are both longer than the space between the heat-preservation mortar plate and the heat-preservation mortar plate to form a groove, the left side and the right side of the upper end of the upper thin concrete plate and the lower end of the lower thin concrete plate are both inwards provided with semicircular exhaust holes, the left side and the right side of the lower end of the upper thin concrete plate and the lower thin concrete plate are both inwards provided with semicircular grouting holes, when the heat-preservation wall body is spliced, grouting is performed into the groove through the grouting holes, air in the groove is discharged through the exhaust holes, the density of mortar in the groove is higher, so that the strength of the mortar at the splicing part is improved, the mortar in the groove is solidified to form a whole with the heat-preservation wall plate, the heat-preservation wall body is spliced seamlessly, the waterproof performance of the heat-preservation wall body is improved, grouting is convenient for construction and fixation, and the bonding strength of the wall body and the periphery is improved;

(3) the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate are all provided with through holes at the same positions of the front surfaces of the upper parts of the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate, reinforced steel sleeves are arranged in the through holes and comprise steel pipes and deformed bars, the deformed bars are positioned on the outer annular surfaces of the upper end and the lower end of each steel pipe and are welded with the steel pipes, the deformed bars are positioned in the upper thin concrete plate and the lower thin concrete plate, the steel pipes are positioned in the through holes, and the steel pipes are embedded into the through holes to prevent the surface of the heat-preservation wall from cracking caused by the pulling force generated when the heat-preservation wall is hoisted;

(4) the through hole is divided into a hoisting hole and a fixed adjusting hole, the hoisting hole is positioned at the upper parts of the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate, the fixed adjusting hole is positioned below the hoisting hole, and the hoisting hole is matched with the fixed adjusting hole, so that hoisting and construction adjustment are facilitated;

(5) the intermediate layer heat-insulating mortar board is integrally cast, the foaming particles of the main material of the intermediate layer heat-insulating mortar board are wrapped by cement mortar, and the heat-insulating mortar board can be well bonded with the fine stone concrete board, so that the overall structural strength and the waterproof performance of the heat-insulating wall body are improved;

(6) the single-layer bidirectional reinforcing mesh can protrude out of the plate edge for a certain length during construction, and after the heat-insulating wall is installed in place, the heat-insulating wall can be anchored into beam concrete and column concrete during pouring of the beam concrete or the column concrete for improving the bonding effect of the heat-insulating wall and a main structure, so that the pulling strength is improved, and further, the overall structural strength of a building is improved.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic structural diagram of the splicing of the thermal insulation wall body.

FIG. 3 is a schematic view of the structure of the wave-shaped net plate of the present invention.

FIG. 4 is a schematic illustration of the construction of a reinforced steel casing according to the present invention.

In the figure, 1, an upper fine concrete plate, 2, a lower fine concrete plate, 3, a heat-insulating mortar plate, 4, a corrugated mesh plate, 5, a single-layer bidirectional reinforcing mesh sheet, 6, a groove, 7, an exhaust hole, 8, a grouting hole, 9, a through hole, 10, a reinforced steel sleeve, 11, a hoisting hole, 12, a fixed adjusting hole, 13, a steel pipe and 14, a twisted steel bar.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

The heat preservation wall body with stable structure, high strength and light weight shown in figures 1, 2, 3 and 4 is composed of an upper fine concrete plate 1, a lower fine concrete plate 2, a heat preservation mortar plate 3 and a wave-shaped net plate 4, wherein a single-layer bidirectional reinforcing mesh 5 is arranged inside the upper fine concrete plate 1 and the lower fine concrete plate 2, the single-layer bidirectional reinforcing mesh 5 is respectively bound and connected with the front surface and the bottom surface of the wave-shaped net plate 4, the upper fine concrete plate 1 and the lower fine concrete plate 2 are fixedly connected with the wave-shaped net plate 4 through the single-layer bidirectional reinforcing mesh 5, the heat preservation mortar plate 3 is positioned in the middle of the wave-shaped net plate 4, the heat preservation mortar plate 3 is respectively fixedly connected with the bottom surface of the upper fine concrete plate 1 and the front surface of the lower fine concrete plate 2, the wave-shaped net plate 4 enhances the connectivity among the upper fine concrete plate 1, the lower fine concrete plate 2 and the heat preservation mortar plate 3, the wave-shaped structure of the wave-shaped net plate 4 enhances the support performance of the heat preservation wall body, the single-layer bidirectional reinforcing mesh 5 enhances the tensile strength of the upper fine concrete plate 1 and the lower fine concrete plate 2, the surfaces of the upper thin concrete plate 1 and the lower thin concrete plate 2 are not easy to crack.

Example (b): firstly placing steel bar cushion blocks, sequentially placing single-layer bidirectional steel bar net pieces 5, reinforced steel sleeves 10 and corrugated net plates 4, then pouring fine stone concrete to finish the manufacture of a lower fine concrete plate 2, pouring a heat-preservation mortar plate 3 on a next production line, placing single-layer bidirectional steel bar net pieces 5 again, pouring fine stone concrete to manufacture an upper fine concrete plate 1, and finally vibrating a surface layer to finish.

The heat-insulating wall board is formed by layered pouring, the middle heat-insulating mortar is solidified to form relatively closed cavities, although the heat conductivity coefficient is slightly reduced and can be compensated by the thickness, the good adhesion between the heat-insulating mortar and the fine stone concrete is good, the overall strength and the waterproofness are greatly improved, the heat-insulating wall board is manufactured in a factory, the two surfaces of the heat-insulating wall board are free from being painted after installation, only the joint positions are required to be treated, the engineering cost is favorably reduced, the overall performance of the heat-insulating board is good, and the thickness of the fine stone concrete board can be reduced so as to reduce the weight and save energy.

Further, in order to improve the waterproof performance of thermal insulation wall, especially the waterproof performance of thermal insulation wall concatenation department, go up thin concrete slabs 1 and thin concrete slabs 2 four sides down and all be longer than between thermal insulation mortar board 3 and the thermal insulation mortar board 3 and form recess 6, go up thin concrete slabs 1 and thin concrete slabs 2's upper portion left and right sides all inwards seted up semicircular exhaust hole 7, go up thin concrete slabs 1 and thin concrete slabs 2's lower part left and right sides all inwards seted up semicircular grout hole 8.

Example (b): when thermal insulation wall splices, go up thermal insulation wall lower part recess 6 and sit the mortar of thick liquid in thermal insulation wall top recess 6 down, control thermal insulation wall and pass through grout hole 8 and grout in to recess 6, exhaust hole 7 gets rid of the air in the recess 6, thereby makes the higher intensity that promotes concatenation department mortar of mortar density in the recess 6, forms wholly between the mortar solidification back in the recess 6 and the thermal insulation wall for seamless concatenation between all thermal insulation wall.

Further, in order to prevent the surface of the upper fine concrete plate 1 and the surface of the lower fine concrete plate 2 from cracking due to stress when the heat-insulating wall body is hoisted, through holes 9 are formed in the same positions of the upper front surfaces of the upper fine concrete plate 1, the lower fine concrete plate 2 and the heat-insulating mortar board 3, and reinforcing steel sleeves 10 are arranged inside the through holes 9.

Furthermore, in order to improve the supporting performance and the applicability of the heat-insulating wall body, the corrugated net plate 4 is a corrugated plate formed by folding and pressing the whole net piece, the included angle between the bent inclined edge of the corrugated plate and the horizontal plane is 45 degrees, the surface of the corrugated plate is of an inclined net structure, the inclined net structure is formed by arranging rhombic grids, and the load value of the heat-insulating wall body can be changed by adjusting the distance between the rhombic grids and the thickness of the net piece.

Example (b): the corrugated net plate 4 is adjusted according to the construction strength and requirements, if a high-strength heat-insulating wall is required, the thickness of the corrugated net plate 4 can be increased, and the grid distance can be reduced, and if the heat-insulating wall is required to have higher heat-insulating performance, a high-strength engineering plastic grid can be adopted to replace a metal net.

Further, in order to improve the tensile strength of the upper concrete slab 1 and the lower concrete slab 2, the single-layer bidirectional reinforcing mesh 5 is of a net structure, the net structure is composed of a plurality of square meshes, and the square meshes are made of galvanized meshes or reinforcing steel bars through welding or weaving.

Example (b): according to the structural strength requirement of the wall body, the space between the square grids of the single-layer bidirectional reinforcing mesh 5 and the diameter of the galvanized wire or the reinforcing steel bar are changed simultaneously, and the stress performance of the heat-insulating wall body is adjusted.

Further, in order to facilitate production, the diameter of the exhaust hole 7 is the same as that of the grouting hole 8, the upper thin concrete plate 1 and the lower thin concrete plate 2 are the same in structure, and the strength of the thermal insulation wall body can be enhanced by changing the concrete ratio of the upper thin concrete plate 1 and the lower thin concrete plate 2 and adjusting the concrete marks, so that the applicability of the thermal insulation wall body is improved.

Further, in order to facilitate hoisting and installation adjustment of the thermal insulation wall body, the through hole 9 is divided into a hoisting hole 11 and a fixing and adjusting hole 12, the hoisting hole 11 is located at the upper parts of the upper fine concrete plate 1, the lower fine concrete plate 2 and the thermal insulation mortar plate 3, the fixing and adjusting hole 12 is located below the hoisting hole 11, the hoisting hole 11 is used for hoisting, and the thermal insulation wall body is adjusted left, right and up by using the fixing and adjusting hole 12 after being hoisted.

Further, in order to improve the strength of the thermal insulation wall body and disperse the stress of the upper concrete slabs 1 and the lower concrete slabs 2 during hoisting, the reinforced steel sleeve 10 comprises a steel pipe 13 and a twisted steel 14, the twisted steel 14 is positioned on the outer annular surfaces of the upper end and the lower end of the steel pipe 13, and the twisted steel 14 is welded with the steel pipe 13.

Example (b): the steel pipe 13 is arranged in the hoisting hole 11 and the fixing and adjusting hole 12, the upper end surface and the lower end surface of the steel pipe 13 are both lower than the surfaces of the upper fine concrete plate 1 and the lower fine concrete plate 2 by 5mm, and the twisted steel bars 14 are respectively arranged inside the upper fine concrete plate 1 and the lower fine concrete plate 2.

The heat-insulating wall body with stable structure, high strength and light weight of the utility model is composed of an upper thin concrete slab and a lower thin concrete slab, the corrugated net plate enhances the structural strength among the upper fine concrete plate, the lower fine concrete plate and the heat preservation mortar plate, the corrugated structure of the corrugated net plate enhances the supporting performance of the heat preservation wall body, the single-layer bidirectional reinforcing net plate enhances the tensile strength of the upper fine concrete plate and the lower fine concrete plate, and the surfaces of the upper fine concrete plate and the lower fine concrete plate are not easy to crack; the four sides of the upper thin concrete plate and the lower thin concrete plate are both longer than the space between the heat-preservation mortar plate and the heat-preservation mortar plate to form a groove, the left side and the right side of the upper end of the upper thin concrete plate and the lower end of the lower thin concrete plate are both inwards provided with semicircular exhaust holes, the left side and the right side of the lower end of the upper thin concrete plate and the lower thin concrete plate are both inwards provided with semicircular grouting holes, when the heat-preservation wall body is spliced, grouting is performed into the groove through the grouting holes, air in the groove is discharged through the exhaust holes, the density of mortar in the groove is higher, so that the strength of the mortar at the splicing part is improved, the mortar in the groove is solidified to form a whole with the heat-preservation wall plate, the heat-preservation wall body is spliced seamlessly, the waterproof performance of the heat-preservation wall body is improved, grouting is convenient for construction and fixation, and the bonding strength of the wall body and the periphery is improved; the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate are all provided with through holes at the same positions of the front surfaces of the upper parts of the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate, reinforced steel sleeves are arranged in the through holes and comprise steel pipes and deformed bars, the deformed bars are positioned on the outer annular surfaces of the upper end and the lower end of each steel pipe and are welded with the steel pipes, the deformed bars are positioned in the upper thin concrete plate and the lower thin concrete plate, the steel pipes are positioned in the through holes, and the steel pipes are embedded into the through holes to prevent the surface of the heat-preservation wall from cracking caused by the pulling force generated when the heat-preservation wall is hoisted; the through hole is divided into a hoisting hole and a fixed adjusting hole, the hoisting hole is positioned at the upper parts of the upper thin concrete plate, the lower thin concrete plate and the heat-preservation mortar plate, the fixed adjusting hole is positioned below the hoisting hole, and the hoisting hole is matched with the fixed adjusting hole, so that hoisting and construction adjustment are facilitated; the intermediate layer heat-insulating mortar board is integrally cast, the foaming particles of the main material of the intermediate layer heat-insulating mortar board are wrapped by cement mortar, and the heat-insulating mortar board can be well bonded with the fine stone concrete board, so that the overall structural strength and the waterproof performance of the heat-insulating wall body are improved; the single-layer bidirectional reinforcing mesh can protrude out of the plate edge for a certain length during construction, and after the heat-insulating wall is installed in place, the heat-insulating wall can be anchored into beam concrete and column concrete during pouring of the beam concrete or the column concrete for improving the bonding effect of the heat-insulating wall and a main structure, so that the pulling strength is improved, and further, the overall structural strength of a building is improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a stable in structure high strength light in weight's thermal insulation wall, includes the thermal insulation wall body, characterized by: the heat-insulating wall body comprises an upper fine concrete plate (1), a lower fine concrete plate (2), heat-insulating mortar plates (3) and a corrugated mesh plate (4), wherein single-layer bidirectional reinforcing mesh sheets (5) are arranged inside the upper fine concrete plate (1) and the lower fine concrete plate (2), the single-layer bidirectional reinforcing mesh sheets (5) are respectively bound and connected with the front surface and the bottom surface of the corrugated mesh plate (4), the upper fine concrete plate (1) and the lower fine concrete plate (2) are fixedly connected with the corrugated mesh plate (4) through the single-layer bidirectional reinforcing mesh sheets (5), the heat-insulating mortar plates (3) are positioned in the middle of the corrugated mesh plate (4), the heat-insulating mortar plates (3) are respectively fixedly connected with the bottom surface of the upper fine concrete plate (1) and the front surface of the lower fine concrete plate (2), four sides of the upper fine concrete plate (1) and the lower fine concrete plate (2) are respectively longer than the heat-insulating mortar plates (3) and the heat-insulating mortar plates (3) to form grooves (6), go up the upper portion left and right sides of thin concrete slabs (1) and thin concrete slabs (2) down and all inwards seted up semicircular exhaust hole (7), go up the lower part left and right sides of thin concrete slabs (1) and thin concrete slabs (2) down and all inwards seted up semicircular grout hole (8), last thin concrete slabs (1), thin concrete slabs (2) down and heat preservation mortar board (3) upper portion positive same position department all seted up through-hole (9), through-hole (9) inside be provided with reinforced steel casing pipe (10).

2. The insulated wall of claim 1, wherein the insulation wall has a stable structure, high strength and light weight, and is characterized in that: the corrugated net plate (4) is a corrugated plate formed by folding and pressing the whole net piece, the included angle between the bent bevel edge of the corrugated plate and the horizontal plane is 45 degrees, the surface of the corrugated plate is of an inclined net structure, and the inclined net structure is formed by arranging rhombic grids.

3. The insulated wall of claim 1, wherein the insulation wall has a stable structure, high strength and light weight, and is characterized in that: the single-layer bidirectional reinforcing mesh (5) is of a net structure, the net structure is composed of a plurality of square grids, and the square grids are made by binding reinforcing steel bars or steel wires.

4. The insulated wall of claim 1, wherein the insulation wall has a stable structure, high strength and light weight, and is characterized in that: the diameter of the exhaust hole (7) is the same as that of the grouting hole (8), and the upper thin concrete plate (1) and the lower thin concrete plate (2) have the same structure.

5. The insulated wall of claim 1, wherein the insulation wall has a stable structure, high strength and light weight, and is characterized in that: through-hole (9) divide into hole for hoist (11) and fixed adjustment hole (12), hole for hoist (11) be located the upper portion of thin concrete slabs (1), thin concrete slabs (2) and heat preservation mortar board (3) down, fixed adjustment hole (12) be located hole for hoist (11) below.

6. The insulated wall of claim 1, wherein the insulation wall has a stable structure, high strength and light weight, and is characterized in that: the reinforced steel sleeve (10) comprises a steel pipe (13) and threaded steel bars (14), the threaded steel bars (14) are located on outer annular surfaces of the upper end and the lower end of the steel pipe (13), and the threaded steel bars (14) are connected with the steel pipe (13) in a welded mode.

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