CN210032158U - Concrete placement external wall insulation system - Google Patents

Abstract

The utility model belongs to the technical field of fire prevention insulation material for the building, a concrete placement external wall insulation system is disclosed. The external wall heat insulation system is formed by splicing all layers of concrete members in a simple and stable connection mode, and all layers of concrete members are tightly connected, so that the phenomena of cracking and hollowing between walls are avoided. The assembly process steps of this heat preservation system are clear, simple and clear, and the work progress is simple and convenient, and is fast, the time is short, can not only satisfy the heat preservation demand of concrete placement building class, has strengthened the fire behavior of heat preservation, has improved heat preservation wall's heat preservation effect, has reached high-efficient heat preservation and energy-conserving purpose, has reduced noise pollution, dust pollution, building rubbish stack and the discharge of dirty waste water in the construction moreover, do benefit to energy saving and consumption reduction and environmental protection, have very big practicality and very high implementation nature.

Description

Concrete placement external wall insulation system

Technical Field

The utility model belongs to the technical field of fire prevention insulation material for the building, concretely relates to concrete placement external wall insulation system.

Background

With the continuous development of the modernization of our country, the construction industry in China mainly adopts a site construction method for a long time, namely, the construction method comprises the steps of erecting a scaffold, erecting a formwork, binding a steel bar structure, pouring concrete and the like, wherein most of work is manually completed by using labor force on a construction site. Such an operation mode causes a huge labor effort and a very strong risk in the construction process, and also causes a very large damage to the environment. In the rapid development of cities, buildings are gradually increased, a large amount of solid construction waste is increased suddenly, the noise of a large amount of construction machinery generated in the building construction process seriously influences the life quality and the mental state of each country, and meanwhile, the phenomena of insufficient engineering quality and precision of field construction and the like are urgently solved.

In the traditional precast concrete members in the building industry, sandwich heat preservation is arranged in the middle of an inner leaf concrete wall and the inner leaf concrete wall is connected with an outer leaf concrete wall to form a composite wall body so as to realize the assembly process of the members. The traditional concrete member wall is thick, has heavy weight, and can not reach corresponding standards for energy conservation and consumption reduction in the building industry, labor loss reduction and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a concrete placement external wall insulation system.

The utility model discloses the technical scheme who adopts does: a concrete pouring external wall heat insulation system comprises a base wall, a bonding layer, a heat insulation layer and an anti-cracking protective layer, wherein the base wall, the bonding layer, the heat insulation layer and the anti-cracking protective layer are sequentially connected; at least one connecting clamp is arranged on the outer side of the heat-insulating layer, and each connecting clamp is fixedly connected with the heat-insulating layer; each connecting clamp comprises a connecting clamp and at least one rod-shaped clamp, one end of each rod-shaped clamp penetrates through the heat insulation layer and the bonding layer respectively and enters the base layer wall, and the other end of each rod-shaped clamp is fixedly connected with the connecting clamp; the anti-cracking protective layer comprises an inner protective layer, a protective piece, an outer protective layer and at least one anchoring piece, wherein the inner protective layer, the protective piece, the outer protective layer and the anchoring piece are sequentially connected; one end of each anchoring piece penetrates through the heat-insulating layer and the bonding layer respectively to enter the base layer wall.

The utility model provides a this concrete placement external wall insulation system assembles through the simple and firm connected mode of utilizing between each layer of concrete component and forms, zonulae occludens between each layer of concrete component to can not produce the phenomenon of fracture and hollowing between the wall body has been guaranteed. The assembly process steps of this heat preservation system are clear, simple and clear, and the work progress is simple and convenient, and is fast, the time is short, can not only satisfy the heat preservation demand of concrete placement building class, has strengthened the fire behavior of heat preservation, has improved heat preservation wall's heat preservation effect, has reached high-efficient heat preservation and energy-conserving purpose, has reduced noise pollution, dust pollution, building rubbish stack and the discharge of dirty waste water in the construction moreover, do benefit to energy saving and consumption reduction and environmental protection, have very big practicality and very high implementation nature.

Preferably, the base layer wall body and the heat insulation layer are fixedly connected through a bonding layer.

The utility model provides an utilize the tie coat to fix between basic unit's wall body and heat preservation among this heat preservation system is used for when guaranteeing that the bonding is firm, reduces the appearance of phenomenons such as gap, hollowing between each layer of concrete member, and the wall body weight who has also guaranteed this heat preservation system moreover is less, shortens the assemble duration, reduces the manpower loss.

Preferably, the heat insulation layer comprises at least two heat insulation plates which are fixedly connected through a connecting clamp; and a plate seam is arranged between any two adjacent heat insulation plates.

Preferably, the plate seam is provided with anchor bolt mounting holes, and the number of the anchor bolt mounting holes in each square meter area of the heat-insulating layer is not less than 5.

Preferably, the thickness of the heat insulation layer formed by splicing the heat insulation plates is 30-80 mm.

The utility model provides a heat preservation among this heat preservation system is spliced by a plurality of heated boards and is constituteed, leaves the board seam at the in-process of concatenation between each heated board, is used for setting up the position for providing of crab-bolt mounting hole, and this crab-bolt mounting hole is used for providing fixed connection for each layer component is fixed to anchor assembly. The number of the anchor bolt mounting holes is set, so that the use of connecting pieces is reduced while the anchoring pieces are stably connected with each layer of component through the anchor bolt mounting holes, the cost is reduced, the change rate of the structure of raw materials is weakened, and the stability of the heat insulation system is further improved. The thickness of the heat-insulating layer is set, so that the weight of the heat-insulating component is reduced, the heat-insulating performance is improved, and the assembly time is shortened. Each heated board utilizes connecting fixture to fix it after the concatenation for further fix heat preservation and basic unit's wall body, strengthen the steadiness.

Preferably, each rod-shaped clamping piece is respectively arranged perpendicular to the connecting clamping piece; the connecting clamping piece is fixedly connected with the heat-insulating layer.

The utility model provides an in this heat preservation system divide into connecting fixture and connect fastener and shaft-like fastener, connect the hookup location that sets up between fastener and the shaft-like fastener for will connect the position between fixture and the heat preservation and fix, guaranteed in the heat preservation between each heated board rigidity and the heat preservation and the basic unit's wall body between stable.

Preferably, connecting fasteners are embedded in the inner protective layer in the anti-cracking protective layer; the protection piece comprises an alkali-resistant fiberglass mesh cloth and/or a steel wire mesh.

The utility model provides an interior inoxidizing coating in the anti inoxidizing coating that splits of this heat preservation system will connect the fastener embedding when laying in inside, is not only used for fixing connecting fixture once more, is used for guaranteeing connecting fixture's position not to take place the displacement moreover to do well fixedly in the basic unit department of inoxidizing coating. And then a protection part is arranged on the upper layer of the inner protection layer, and is used for improving the impact strength and the crack resistance of the outer side of the heat insulation system and protecting the heat insulation system.

Preferably, the other end of each anchor is arranged outside the protection piece, and the protection piece is fixedly connected with the substrate wall through the anchor.

Preferably, one end of each anchoring part penetrates through the heat-insulating layer and the bonding layer through the anchor bolt mounting hole and enters the base layer wall body; the outer side of each anchor is coated with rubber.

The utility model provides an one end of this anchor assembly that provides among this heat preservation system carries out fixed connection with the crab-bolt mounting hole, and its other end sets up in the outside of protection piece, is used for carrying out the rigidity between protection piece and the basic unit's wall body, has guaranteed that the protection piece can effectively protect the stability of basic unit's wall body. Meanwhile, the rubber is coated on the outer side of the anchoring piece, so that damage to each layer of concrete member is reduced in the anchoring piece installation process, and the buffering capacity of the connecting piece is improved.

Preferably, the anchor member includes a barb or thread type at an end thereof extending through the insulation layer and the bonding layer into the substrate wall.

The utility model provides a barb type or screw thread type are set for to the position of anchor assembly and basic unit's wall connection among this heat preservation system, are used for strengthening the friction dynamics between anchor assembly and the basic unit's wall body to strengthen the fixed connection relation between each layer component.

The utility model has the advantages that:

the utility model provides a concrete placement external wall insulation system, this external wall insulation system assemble through utilizing simple and direct and firm connected mode between each layer of concrete component and form, zonulae occludens between each layer of concrete component to can not produce the phenomenon of fracture and hollowing between the wall body has been guaranteed. The assembly process steps of this heat preservation system are clear, simple and clear, and the work progress is simple and convenient, and is fast, the time is short, can not only satisfy the heat preservation demand of concrete placement building class, has strengthened the fire behavior of heat preservation, has improved heat preservation wall's heat preservation effect, has reached high-efficient heat preservation and energy-conserving purpose, has reduced noise pollution, dust pollution, building rubbish stack and the discharge of dirty waste water in the construction moreover, do benefit to energy saving and consumption reduction and environmental protection, have very big practicality and very high implementation nature.

Drawings

FIG. 1 is a side view of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating the splicing of the insulation boards of the insulation layer according to an embodiment of the present invention;

FIG. 4 is a schematic view of a crack resistant armor layer according to an embodiment of the present invention;

FIG. 5 is a schematic view of an anchor according to an embodiment of the present invention;

FIG. 6 is a schematic view of an anchor according to an embodiment of the present invention;

FIG. 7 is a schematic view of an anchor according to an embodiment of the present invention;

fig. 8 is a schematic structural view of embodiment 1 of the present invention;

fig. 9 is a schematic structural view of embodiment 2 of the present invention.

In the figure: 1-a base layer wall body; 2-a tie layer; 3, insulating layer; 4-anti-crack protective layer; 5-connecting the fixture; 6-connecting the clamping piece; 7-rod-shaped clamping piece; 8-an inner protective layer; 9-a guard; 10-an outer protective layer; 11-an anchor member; 12-a heat-insulating board; 13-plate seam; 14-anchor bolt mounting holes; 15-U-shaped fixtures; 16-inner mortar layer; 17-alkali-resistant glass fiber mesh cloth; 18-outer mortar layer; 19-wire netting.

Detailed Description

The present invention will be further explained with reference to the following specific examples. It will be understood by those skilled in the art that the following described embodiments are merely illustrative of the present invention and should not be taken as limiting the scope of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 and 2, the utility model provides a concrete placement external wall insulation system, this heat preservation system include basic unit's wall body 1, tie coat 2, heat preservation 3 and anti inoxidizing coating 4 that splits, and basic unit's wall body 1, tie coat 2, heat preservation 3 and anti inoxidizing coating 4 that splits are connected in order. The base wall 1 is fixedly connected with the heat-insulating layer 3 through the bonding layer 2, and the heat-insulating layer 3 is fixedly connected with the anti-cracking protective layer 4 through the anchoring part 11. And an adhesive is laid or an adhesive is poured between the base wall 1 and the heat-insulating layer 3 to form the bonding layer 2. The bonding layer 2 is used for ensuring bonding stability and reducing the occurrence of gaps, hollows and the like among concrete members of each layer. The heat preservation 3 is located the outside of tie coat 2, and heat preservation 3 is formed by the concatenation of a plurality of heated boards 12, leaves board seam 13 between each heated board 12 at the in-process of concatenation, is provided with crab-bolt mounting hole 14 among the board seam 13, and this crab-bolt mounting hole 14 is used for providing fixed connection spare for anchor assembly 11 fixed each layer component. The anchor bolt mounting holes 14 with the number of 5 or more are arranged in the area of each square meter on the heat preservation layer 3, so that the use of connecting pieces is reduced while the anchoring pieces are stably connected with each layer of member through the anchor bolt mounting holes, the cost is reduced, the change rate of the structure of raw materials is weakened, and the stability of the heat preservation system is further improved.

At least one connecting clamp 5 is arranged on the outer side of the heat-insulating layer 3, and each connecting clamp 5 is fixedly connected with the heat-insulating layer 3 respectively; each connecting clamp 5 comprises a connecting clamp 6 and at least one rod-shaped clamp 7, one end of each rod-shaped clamp 7 penetrates through the heat-insulating layer 3 and the bonding layer 2 respectively to enter the base layer wall 1, and the other end of each rod-shaped clamp 7 is fixedly connected with the connecting clamp 6 respectively. Because heat preservation 3 is formed by the concatenation of heated board 12, set up connection fixture 5 in the outside of heat preservation 3, connect fixture 5's 6 parts of connection fastener and heat preservation 3 keep parallel arrangement, fastener 6 is connected to the perpendicular to and the shaft-like fastener 7 of connecting fastener 6 fixed connection runs through heat preservation 3 and enters into basic unit's wall body 1 through board seam 13, then utilize and connect fixture 5 with between the heated board 12 and carry out fixed connection between heat preservation 3 and the basic unit's wall body 1, stability between with the stability of guaranteeing heat preservation 3 and the basic unit's wall body 1.

The outer layer of the heat preservation layer 3 is laminated with an anti-cracking protection layer 4, the anti-cracking protection layer 4 comprises an inner protection layer 8, a protection piece 9, an outer protection layer 10 and at least one anchoring piece 11, and the inner protection layer 8, the protection piece 9, the outer protection layer 10 and the anchoring piece 11 are connected in sequence. An inner protection layer 8 is firstly paved on the outer side of the heat preservation layer 3, the connecting clamp 5 is buried when the inner protection layer 8 is paved, then a protection piece 9 is paved on the inner protection layer 8, and the protection piece 9 and the base layer wall body 1 are fixed by an anchoring piece 11. The anchor 11 is inserted into the substrate wall 1 through an anchor bolt installation hole 14 provided in a plate slit 13 of the insulation layer 3 at one end and is located outside the protection member 9 at the other end. And continuously laying an outer protective layer 10 on the basis, thereby forming the anti-cracking protective layer 4.

The utility model discloses basic unit's wall body is concrete placement outer wall body in concrete implementation process. The bonding layer 2 is composed of a cement-based cementing material, a high polymer material, a filler, an additive and the like, and the thickness of the bonding layer obtained by laying is 3-10 mm. The heat-insulating layer 3 is prepared from an inorganic material heat-insulating plate formed by combining components such as aluminum silicate fibers, vitrified micro bubbles, perlite and aerogel, the heat-insulating coefficient of the heat-insulating plate is not more than 0.012W/(m.K), and the fire-proof rating is A. The thickness of the heat-insulating layer 3 spliced by the heat-insulating plates 12 is 30-80 mm. The heat preservation layer 3 is formed by splicing a plurality of heat preservation plates 12, and the diameter of plate seams 13 arranged among the heat preservation plates 12 is not more than 3 mm. The panel slot 13 is provided to provide a location setting for the anchor bolt mounting hole 14. The anchor bolt mounting hole 14 is bored from the upper layer of the insulation board 12 through the plate slit 13, and has an inner diameter not smaller than the diameter of the plate slit. The utility model discloses select U type fixture for use as connecting fixture at concrete implementation process, above-mentioned connecting fixture still includes L type fixture, J type fixture, semi-trapezoidal fixture etc. all are used for all belonging to fixed connection's mode between the heated board and between heat preservation and the basic unit's wall body the utility model discloses a protection scope.

The inner protective layer 8 and the outer protective layer 10 of the anti-crack protective layer 4 are laid by polymer mortar, and the polymer mortar is reinforced cement-based polymer mortar which is composed of high molecular polymers, additives and fillers, and portland cement or other inorganic cementing materials and has certain rigidity and flexibility. The alkali-resistant glass fiber gridding cloth in the protection part 9 is woven by alkali-resistant glass cellulose, and the utility model discloses the surface of alkali-resistant glass fiber gridding cloth is processed through the macromolecular material coating when concrete implementation, makes alkali-resistant glass fiber gridding cloth have the guard action more. The anchoring member 11 is made of iron, the outer side of the anchoring member is completely coated with rubber, and the part of the anchoring member extending into the base wall is of a barb type or a thread type. The length of the anchoring piece extending into the basic wall body in the concrete implementation process of the utility model is 35-60mm, and the outer diameter of the anchoring piece is 6-15 mm. Choose for use between above-mentioned each layer wall body component to bond, modes such as connecting piece fixed connection fix, and above-mentioned fixed connection's mode is not limited only the utility model discloses the connected mode that provides at concrete implementation process all belongs to that all is used for carrying out position fixing with each layer component the utility model discloses the scope of protection.

The number and the diameter that the diameter, the crab-bolt mounting hole that set up to the board seam that above-mentioned provided set up, the number and the diameter of anchor assembly, the thickness of heat preservation etc. all can carry out corresponding settlement according to demand and operation mode etc. actual in the concrete implementation process, nevertheless all belong to the utility model discloses the scope of protection.

The utility model discloses at the 4 outside stack one deck finish coats of anti-protective layer of splitting of concrete implementation process, this layer of component is used for protecting and fixing other components. The facing layer is prepared from flexible waterproof putty or facing bricks. The use of the finishing layer and the actual requirements of the applied materials in the concrete implementation process, the operation mode and the like are correspondingly set.

As shown in fig. 3, in the implementation process of the present invention, the heat insulation layer 3 is obtained by splicing a plurality of heat insulation boards 12. Under the condition that the area of the base layer wall body 1 is fixed, the insulation boards 12 with the suitable areas are selected for splicing. In the process of splicing the heat-insulating layer 3, the diameter of the plate seam 13 arranged between the heat-insulating plates 12 is not more than 3 mm. The panel slot 13 is provided to provide a location setting for the anchor bolt mounting hole 14. The anchor bolt mounting hole 14 is bored from the upper layer of the insulation board 12 through the plate slit 13, and the inner diameter of the anchor bolt mounting hole 14 is not smaller than the diameter of the plate slit 13. The utility model discloses the basic unit's wall width of specifically choosing for use is 600mm, and 600 x 400 is chooseed for use to the heated board.

As shown in fig. 4, the crack-resistant armor layer 4 includes an inner armor layer 8, a shield 9, an anchor 11, and an outer armor layer 10. The inner protective layer 8 and the outer protective layer 10 are laid by polymer mortar, and the polymer mortar is reinforced cement-based polymer mortar which is composed of high molecular polymers, additives, fillers, portland cement or other inorganic cementing materials and has certain rigidity and flexibility. The alkali-resistant glass fiber gridding cloth in the protection part 9 is woven by alkali-resistant glass cellulose, and the utility model discloses the surface of alkali-resistant glass fiber gridding cloth is processed through the macromolecular material coating when concrete implementation, makes alkali-resistant glass fiber gridding cloth have the guard action more. The anchoring piece is made of iron, rubber is completely coated on the outer side of the anchoring piece, and the part of the anchoring piece extending into the base layer wall body is of a barb type or a thread type.

As shown in fig. 5, one end of the anchoring member 11 inserted into the base wall is in a barb shape, and the other end is embedded inside the outer protective layer and outside the protective member, so as to fix the protective member, fix the positions between the anti-crack protective layer, the insulating layer and the base wall, ensure the integral performance of the insulating wall system, and effectively prevent other components outside the base wall from being separated from the base wall.

As shown in fig. 6 and 7, the end of the anchor 11 inserted into the substrate wall is threaded.

As shown in fig. 8, in this embodiment 1, the external wall insulation system is composed of a base wall 1, an adhesive layer 2, an insulation layer 3, a U-shaped fixture 15, an anti-cracking protection layer 4, and a finishing layer, which are fixedly connected to each other. An adhesive layer 2 is formed between the base wall 1 and the heat-insulating layer 3 by laying an adhesive for bonding and fixing. A plurality of insulation boards 12 are spliced to form an insulation layer 3, a board seam 13 is arranged between the insulation layers 3, and rod-shaped clamping pieces at two ends of a U-shaped clamping tool 15 enter the board seams 13 to fix the insulation boards 12 and the base layer wall 1. The anti-cracking protective layer 4 is arranged on the outer side of the heat preservation layer 3 and is composed of an inner mortar layer 16, an alkali-resistant glass fiber mesh cloth 17, an anchoring piece 11 and an outer mortar layer 18, the U-shaped clamping piece 15 is covered and embedded in the inner portion in the laying process of the inner mortar layer 16, then the alkali-resistant glass fiber mesh cloth 17 is laid on the outer layer, the anchoring piece 11 is arranged on the outer portion of the alkali-resistant glass fiber mesh cloth 17, one end of the anchoring piece 11 with a thread shape is inserted into the base layer wall body 1, the other end of the anchoring piece 11 is arranged on the outer side of the alkali-resistant glass fiber mesh cloth 17, the outer mortar layer 18 is laid on the upper layer of the alkali-resistant glass fiber mesh cloth 17, and the components are covered and. And arranging a facing layer outside the anti-cracking protective layer, wherein the facing layer is prepared by facing bricks.

As shown in fig. 9, in the present embodiment 2, the external wall insulation system is composed of a base wall 1, an adhesive layer 2, an insulation layer 3, an anti-cracking protection layer 4 and a finishing layer, and the above layers are fixedly connected. An adhesive layer 2 is formed between the base wall 1 and the heat-insulating layer 3 by laying an adhesive for bonding and fixing. The anti-cracking protective layer 4 is arranged on the outer side of the heat preservation layer 3 and consists of an inner mortar layer 16, an iron wire 19, an anchoring piece 11 and an outer mortar layer 18.

Wherein bury a layer of wire netting in advance in heat preservation 3 inboard before laying anti-crack inoxidizing coating 1, later the interior mortar bed is laid the in-process and is covered U type fixture and with its embedding in inside, continue to lay a layer of wire netting in the skin, set up anchor assembly 11 in the wire netting outside, anchor assembly 11 has the one end of screw thread type and inserts in basic unit's wall body 1, and the other end sets up in the wire netting outside, lay outer mortar bed on the upper strata of wire netting, this outer mortar bed covers and fixes above-mentioned component. And arranging a facing layer outside the anti-cracking protective layer, wherein the facing layer is prepared by facing bricks.

The utility model provides a concrete placement external wall insulation system, this external wall insulation system assemble through utilizing simple and direct and firm connected mode between each layer of concrete component and form, zonulae occludens between each layer of concrete component to can not produce the phenomenon of fracture and hollowing between the wall body has been guaranteed. The assembly process steps of this heat preservation system are clear, simple and clear, and the work progress is simple and convenient, and is fast, the time is short, can not only satisfy the heat preservation demand of concrete placement building class, has strengthened the fire behavior of heat preservation, has improved heat preservation wall's heat preservation effect, has reached high-efficient heat preservation and energy-conserving purpose, has reduced noise pollution, dust pollution, building rubbish stack and the discharge of dirty waste water in the construction moreover, do benefit to energy saving and consumption reduction and environmental protection, have very big practicality and very high implementation nature.

The present invention is not limited to the above-mentioned optional embodiments, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art and anyone can obtain various other products under the teaching of the present invention, and any modifications or equivalent replacements can be made to the technical solution of the present invention, and any changes in the shape or structure can be made without departing from the technical solution falling within the scope of the present invention.

Claims (10)

1. The concrete pouring external wall heat insulation system is characterized by comprising a base wall body (1), a bonding layer (2), a heat insulation layer (3) and an anti-cracking protective layer (4), wherein the base wall body (1), the bonding layer (2), the heat insulation layer (3) and the anti-cracking protective layer (4) are sequentially connected; at least one connecting clamp (5) is arranged on the outer side of the heat-insulating layer (3), and each connecting clamp (5) is fixedly connected with the heat-insulating layer (3) respectively; each connecting clamp (5) comprises a connecting clamp (6) and at least one rod-shaped clamp (7), one end of each rod-shaped clamp (7) penetrates through the heat-insulating layer (3) and the bonding layer (2) respectively and enters the base layer wall (1), and the other end of each rod-shaped clamp (7) is fixedly connected with the connecting clamp (6) respectively; the anti-cracking protective layer (4) comprises an inner protective layer (8), a protection piece (9), an outer protective layer (10) and at least one anchoring piece (11), wherein the inner protective layer (8), the protection piece (9), the outer protective layer (10) and the anchoring piece (11) are connected in sequence; one end of each anchoring piece (11) penetrates through the heat-insulating layer (3) and the bonding layer (2) respectively and enters the base layer wall body (1).

2. The concrete-poured exterior wall insulation system according to claim 1, wherein the base wall (1) and the insulation layer (3) are fixedly connected through the bonding layer (2).

3. The concrete-poured exterior wall insulation system according to claim 2, wherein the insulation layer (3) comprises at least two insulation boards (12), and the insulation boards (12) are fixedly connected with each other through connecting clamps (5); a plate seam (13) is arranged between any two adjacent heat-insulating plates (12).

4. The concrete-poured exterior wall thermal insulation system according to claim 3, wherein anchor bolt mounting holes (14) are formed in the plate joints (13), and not less than 5 anchor bolt mounting holes (14) are formed in each square meter area of the thermal insulation layer (3).

5. The concrete-poured exterior wall insulation system according to claim 3, wherein the insulation layer (3) formed by splicing the insulation boards (12) has a thickness of 30-80 mm.

6. The concrete-poured exterior wall insulation system according to claim 1, wherein each rod-shaped fastener (7) is arranged perpendicular to the connecting fastener (6); the connecting clamping piece (6) is fixedly connected with the heat-insulating layer (3).

7. The concrete-poured exterior wall insulation system according to claim 1, wherein the connecting fastener (6) is embedded in an inner protective layer (8) of the anti-crack protective layer (4); the protection piece (9) comprises alkali-resistant glass fiber mesh cloth and/or steel wire mesh.

8. A concrete placement exterior wall insulation system according to claim 1, characterized in that the other end of each anchor member (11) is disposed outside a shielding member (9), respectively, said shielding member (9) being fixedly connected to said foundation wall (1) via said anchor member (11).

9. The concrete-poured exterior wall insulation system according to claim 8, wherein one end of each anchor (11) penetrates through the insulation layer (3) and the adhesive layer (2) into the base wall (1) through an anchor bolt mounting hole (14), respectively; the outer side of each anchor (11) is respectively coated with rubber.

10. The concrete poured exterior wall insulation system according to claim 1, wherein the end of the anchor (11) penetrating through the insulation layer (3) and the adhesive layer (2) into the base wall (1) comprises a barb type or a screw type.

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