CN221399436U - High-strength fireproof heat-insulating building outer protective material and heat-insulating wall comprising same - Google Patents

Abstract

The utility model discloses a high-strength fireproof heat-insulating building outer protective material and a heat-insulating wall body comprising the same, wherein the high-strength fireproof heat-insulating building outer protective material is of a three-layer structure and comprises a middle fireproof heat-insulating layer and two fireproof heat-insulating layers, the fireproof heat-insulating layer is composed of heat-insulating materials with the fireproof grade reaching A2 or more, the middle fireproof heat-insulating layer is composed of heat-insulating materials with the fireproof grade reaching A2 or more, the heat-insulating performance of the middle fireproof heat-insulating layer is superior to that of the fireproof heat-insulating layer, two sides of the middle fireproof heat-insulating layer are directly connected with the two fireproof heat-insulating layers, and organic materials and inorganic materials in the middle fireproof heat-insulating layer are of the same type as those in the fireproof heat-insulating layer. Not only meets the fireproof requirement, but also achieves the effect of high-efficiency heat preservation; the three-layer structure has good affinity, effectively prevents the mutual separation, and ensures the use safety of the heat-insulating wall.

Description

High-strength fireproof heat-insulating building outer protective material and heat-insulating wall comprising same

Technical Field

The utility model relates to the field of building materials, in particular to a high-strength fireproof heat-insulation building outer protective material and a heat-insulation wall body comprising the same.

Background

Along with the continuous development and progress of the building industry, the requirements of energy conservation and emission reduction are continuously improved, and the requirements of building heat preservation are also improved year by year, so that energy sources are saved, and the environment is protected. In order to achieve the above purpose, the heat-insulating material achieves better heat-insulating performance to meet the requirements of comfort, energy conservation, safety and the like which are continuously improved, besides the continuous research and development and breakthrough of new heat-insulating material technology, the current common technical means are mainly to use the heat-insulating material with the fire-proof grade reaching the grade A but with the general heat-insulating performance as a surface layer, and the composite heat-insulating material with the composite fire-proof grade being the organic heat-insulating material with the more excellent B-grade heat-insulating performance as a core layer, so as to prepare the composite heat-insulating board composed of multiple layers of different heat-insulating materials.

Although the form is widely used nowadays, as different heat-insulating materials have different shrinkage values and are compounded by using adhesives, under the condition of long-term use, the heat-insulating materials are influenced by temperature change, rain, snow and sunlight, and the heat-insulating materials are extremely easy to unshelling, so that heat-insulating failure is caused, even a heat-insulating layer falls, and safety accidents are caused. Therefore, the development of a composite insulation board which is more firm and reliable, prevents 'unshelling', has excellent flame retardant effect and excellent insulation performance is an urgent problem to be solved in the field.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides a high-strength fireproof heat-insulation building outer protective material and a heat-insulation wall body comprising the same.

The utility model is realized by the following technical scheme:

The high-strength fireproof heat-insulating building outer protective material is of a three-layer structure and comprises a middle fireproof heat-insulating layer and two fireproof heat-insulating layers, the two fireproof heat-insulating layers are made of the same material, the fireproof heat-insulating layer is made of heat-insulating materials with the fireproof grade reaching A (A2) or more, the middle fireproof heat-insulating layer is made of heat-insulating materials with the fireproof grade reaching A (A2) or more, the heat-insulating performance of the middle fireproof heat-insulating layer is superior to that of the fireproof heat-insulating layer, one of the heat-insulating layers is paved in a mold by virtue of a raw material composition of the fireproof heat-insulating layer, the other one of the heat-insulating layers is directly paved above the middle fireproof heat-insulating layer, so that two sides of the middle fireproof heat-insulating layer are directly connected with the two fireproof layers, the organic materials in the middle fireproof heat-insulating layer are made of heat-insulating materials with the heat-insulating materials reaching A (A2) or more, the heat-insulating layers are respectively, the heat-insulating performance of the middle fireproof heat-insulating layers is superior to that of the fireproof heat-insulating layers, the fireproof heat-insulating layers are respectively, the fireproof heat-insulating layers are connected with the two metal net frames, and the same metal net frame, and the two net frame are in the heat-insulating layer, and the heat-insulating layer is made of the fireproof heat insulating layer, and the heat insulating layer.

Further, the fireproof heat-insulating layer is made of a silicon graphene heat-insulating material;

and/or the strength performance of the fireproof heat-insulating layer is superior to that of the middle fireproof heat-insulating layer.

Further, the organic materials in the fireproof heat-insulating layer and the middle fireproof heat-insulating layer are polystyrene particles.

Further, the connecting ribs are vertically connected with the metal mesh;

and/or the connecting ribs penetrate through the middle fireproof heat-insulating layer.

Further, the connecting ribs and the metal mesh are in an inclined state, and the connecting ribs are obliquely connected to the metal mesh;

And/or a plurality of connecting ribs are mutually crossed and connected.

Further, two ends of the connecting ribs are respectively connected with the two metal meshes;

or one end of the connecting rib is connected with one of the metal meshes, and the other end of the connecting rib is arranged at intervals with the other metal mesh.

The heat-insulating wall comprises a base wall body, the high-strength fireproof heat-insulating building outer protective material and a plurality of anchoring connecting pieces, wherein the high-strength fireproof heat-insulating building outer protective material is arranged on one side or the inner side and the outer side of the base wall body through a cast-in-situ disassembly-free mold technology, a PC (personal computer) prefabrication reverse-beating integration technology or a post-pasting technology, and the anchoring connecting pieces are connected with the base wall body and the high-strength fireproof heat-insulating building outer protective material.

Further, the heat-insulating wall body further comprises an adhesive layer, and the adhesive layer is positioned between the high-strength fireproof heat-insulating building outer protecting material and the base wall body and is connected with the high-strength fireproof heat-insulating building outer protecting material and the base wall body.

Further, the heat-insulating wall body further comprises a protective layer, and the protective layer is connected to one side surface, facing away from the base layer wall body, of the high-strength fireproof heat-insulating building outer protective material.

Further, the protective layer comprises mortar and mesh cloth, the mortar is connected to one side surface of the high-strength fireproof heat-insulation building outer protective material, which is opposite to the base layer wall, and the mesh cloth is arranged in the mortar;

And/or the heat-insulating wall body further comprises a facing layer, wherein the facing layer is connected to one side surface of the protective layer, which is opposite to the high-strength fireproof heat-insulating building outer protective material.

The utility model has the beneficial effects that:

According to the high-strength fireproof heat-insulating building outer protective material and the heat-insulating wall body comprising the same, the fireproof heat-insulating layers on the two sides and the middle fireproof heat-insulating layer are all heat-insulating materials with the fireproof grade reaching A (A2) or more and composed of organic-inorganic mixed materials to form a three-layer structure, so that the fireproof requirement of the high-strength fireproof heat-insulating building outer protective material is met, and the effect of high-efficiency heat insulation is achieved; meanwhile, three layers of raw materials are homologous, so that good affinity is achieved between three layers of structures, the structural connection strength can be effectively enhanced through the metal net frame, the metal net frame is achieved, the three layers of structures form a firm whole, the situation that different heat-insulating materials are separated from each other under long-term use conditions is effectively prevented, and the use safety of a heat-insulating wall body is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a high-strength fireproof insulation building outer protective material according to embodiment 1 of the present utility model.

Fig. 2 is a schematic diagram of the internal structure of the high-strength fireproof insulation building outer protection material of embodiment 1 of the present utility model.

Fig. 3 is a schematic view of the internal structure of the insulation wall according to embodiment 1 of the present utility model.

Fig. 4 is a schematic view showing the internal structure of the high-strength fireproof insulation building outer protective material according to embodiment 2 of the present utility model.

Reference numerals illustrate:

Fireproof heat-insulating layer 1

Intermediate fireproof insulation layer 2

Metal net rack 3

Metal mesh 31

Connecting rib 32

Base course wall 10

Anchor connector 20

Detailed Description

The following description of embodiments refers to the accompanying drawings, which illustrate specific embodiments in which the utility model may be practiced.

Example 1

As shown in fig. 1, 2 and 3, the present embodiment discloses a thermal insulation wall comprising a base wall 10, a high-strength fireproof thermal insulation building outer protective material and a plurality of anchor connectors 20. The high-strength fireproof heat-insulating building outer protective material is of a three-layer structure and comprises a middle fireproof heat-insulating layer 2 and two fireproof heat-insulating layers 1, wherein the two fireproof heat-insulating layers 1 are the same in material, the fireproof heat-insulating layer 1 is composed of heat-insulating materials with the fireproof grade reaching A (A2) or more, the middle fireproof heat-insulating layer 2 is composed of heat-insulating materials with the fireproof grade reaching A (A2) or more, the heat-insulating performance of the middle fireproof heat-insulating layer 2 is superior to that of the fireproof heat-insulating layers 1, the raw material composition of one fireproof heat-insulating layer 1 is paved in a mold, the raw material composition of the middle fireproof heat-insulating layer 2 is directly paved above one fireproof heat-insulating layer 1, the raw material composition of the other fireproof heat-insulating layer 1 is directly paved above the middle fireproof heat-insulating layer 2, so that two sides of the middle fireproof heat-insulating layer 2 are directly connected with the two fireproof heat-insulating layers 1, the organic materials in the middle fireproof heat-insulating layer 2 are the same in type with the organic materials in the fireproof heat-insulating layer 1, and the inorganic materials in the middle fireproof heat-insulating layer 2 are the same in the fireproof heat-insulating layer 1.

In this embodiment, the fireproof heat-insulating layers 1 and 2 on both sides of the middle fireproof heat-insulating layer 2 are made of heat-insulating materials with a fireproof level of above a level a (A2) composed of organic-inorganic mixed materials, that is, the fireproof heat-insulating layers 1 and 2 are organic-inorganic composite heat-insulating materials formed by mixing organic materials and inorganic materials with each other, and the fireproof levels of the fireproof heat-insulating layers 1 and 2 are above a level a (A2). The fireproof heat-insulating layers 1 on two sides are directly connected with two sides of the middle fireproof heat-insulating layer 2 in the middle and form a three-layer structure, so that the fireproof requirement of the outer protective material of the high-strength fireproof heat-insulating building is met, and the effect of high-efficiency heat insulation is achieved; meanwhile, the organic materials in the middle fireproof heat-insulating layer 2 and the organic materials in the fireproof heat-insulating layer 1 are of the same kind, and the inorganic materials in the middle fireproof heat-insulating layer 2 and the inorganic materials in the fireproof heat-insulating layer 1 are of the same kind, and the three layers of raw materials are homologous, so that good affinity is realized between the three layers of structures, the three layers of structures form a firm whole, the situation that different heat-insulating materials are separated from each other under the long-term use condition is effectively prevented, and the use safety of the heat-insulating wall is ensured. Meanwhile, the high-strength fireproof heat-insulating building outer protective material meets the requirements of a plurality of current mainstream building wall heat-insulating construction modes such as post-pasting, PC reverse-beating integration, concrete cast-in-situ form removal-free and the like, has no change with the traditional heat-insulating material construction mode, and is easy to operate.

The high-strength fireproof heat-insulation building outer protection material further comprises a metal net frame 3, wherein the metal net frame 3 comprises two metal net sheets 31 and a plurality of connecting ribs 32, the two metal net sheets 31 are respectively arranged in the two fireproof heat-insulation layers 1, and the plurality of connecting ribs 32 are all positioned between the two metal net sheets 31 and connected with the metal net sheets 31. Two metal meshes 31 set up respectively in two fire prevention heat preservation 1, and a plurality of connecting rib 32 are connected respectively in two metal meshes 31 and are formed metal rack 3, can effectively strengthen the structural strength of high strength fire prevention heat preservation building peripheral protection material through metal rack 3, realize metal rack 3 and make three layer construction form a firm whole, further prevent taking place the circumstances of different heat preservation material mutual separation under long-term use condition, ensure the safety in utilization. Wherein, the middle fireproof heat preservation layer 2 in the middle and the fireproof heat preservation layers 1 on the two sides are completely coated on the metal net frame 3.

In this embodiment, the high-strength fireproof insulation building outer protective material is installed on the base wall 10 to form an insulation wall. The high-strength fireproof heat-insulating building outer protective material is arranged on one side or the inner side and the outer side of the base wall body 10 through a cast-in-situ disassembly-free mold technology, a PC (personal computer) prefabrication reverse-beating integration technology or a post-pasting technology, namely one fireproof heat-insulating layer 1 of the high-strength fireproof heat-insulating building outer protective material is connected to the side face of the base wall body 10. The anchoring connecting pieces 20 are connected to the base wall body 10 and the high-strength fireproof heat-insulation building outer protective material, the high-strength fireproof heat-insulation building outer protective material is connected with the base wall body 10 through the anchoring connecting pieces 20, the structural connection strength of the heat-insulation wall body is effectively enhanced, the situation that different heat-insulation materials are separated from each other under the long-term use working condition is further effectively prevented, and the safety and stability of the heat-insulation wall body are greatly improved. Preferably, the anchor connectors 20 are connected to wall rebars in the base wall 10 to further enhance the strength of the connection.

Of course, in other embodiments, the high-strength fireproof heat-insulation building outer protective material in the embodiment can be directly used as the outer protective material independently without being arranged on the base wall; the energy-saving wall body can also be formed by combining a cast-in-situ process or a PC reverse-beating process with concrete; or forms an energy-saving wall together with the autoclaved aerated concrete block and the AAL slat.

In this embodiment, as shown in fig. 3, the anchoring connector 20 includes an anchor plate and an anchor rod, the anchor plate is abutted against one side of the high-strength fireproof heat-insulation building outer enclosure material facing away from the base layer wall 10, one end of the anchor rod is connected to the anchor plate, and the other end of the anchor rod passes through the high-strength fireproof heat-insulation building outer enclosure material and is connected with the base layer wall 10. The outer surface of the anchor rod is provided with a plurality of outwards extending protruding parts, and the protruding parts can tightly lean against the inner part of the high-strength fireproof heat-insulation building outer protective material and/or the base layer wall body 10, so that the connection strength of the heat-insulation wall body is increased, and the structural stability is effectively enhanced. Preferably, the anchor disc, the anchor rod and the plurality of protruding portions are integrally formed. The processing and the manufacturing are very convenient, the assembly is not needed, the use is very convenient, and the structural strength is high.

The fireproof heat-insulating layer 1 and the middle fireproof heat-insulating layer 2 are organic-inorganic composite heat-insulating materials formed by mixing organic materials and inorganic materials, and the organic-inorganic composite heat-insulating materials are known in the prior art. Because the heat insulation performance of the middle fireproof heat insulation layer 2 is required to be better than that of the fireproof heat insulation layer 1, the proportion of organic materials in the middle fireproof heat insulation layer 2 is higher than that of the fireproof heat insulation layer 1, namely the proportion of inorganic materials in the middle fireproof heat insulation layer 2 is lower than that of the inorganic materials in the fireproof heat insulation layer 1, so that the heat insulation performance of the middle fireproof heat insulation layer 2 is better than that of the fireproof heat insulation layer 1, namely the heat conductivity of the middle fireproof heat insulation layer 2 is smaller than that of the fireproof heat insulation layer 1, the fireproof performance of the fireproof heat insulation layer 1 is better than that of the middle fireproof heat insulation layer 2, and the compression strength, the tensile strength vertical to the plate surface, the bending fracture load and other strength properties of the fireproof heat insulation layer 1 are better than those of the middle fireproof heat insulation layer 2, the tensile strength vertical to the plate surface, the bending fracture load and other strength properties. Wherein, the organic materials in fireproof heat preservation 1 and middle fireproof heat preservation 2 are polystyrene particles, realizing better heat preservation performance. The fireproof grade of the fireproof heat preservation layer 1 and the intermediate fireproof heat preservation layer 2 reaches A2.

In this embodiment, the material of the fireproof thermal insulation layer 1 may be a silaalkene thermal insulation material, and the silaalkene thermal insulation material is a material known in the prior art, so that the thermal insulation performance and the fireproof performance of the high-strength fireproof thermal insulation building outer protection material can be effectively ensured by the silaalkene thermal insulation material, and the safety and stability of the high-strength fireproof thermal insulation building outer protection material are greatly improved.

As shown in fig. 1 and 2, the connection ribs 32 may be vertically connected to the metal mesh 31. The connecting ribs 32 are perpendicular to the two metal meshes 31 and are connected with the two metal meshes 31, and the connecting ribs 32 arranged horizontally provide horizontal overhanging force, so that the distance between the two metal meshes 31 is the length of the connecting ribs 32, the distance between the two metal meshes 31 is effectively controlled, the two metal meshes 31 are respectively positioned in the two fireproof heat preservation layers 1, the integral firmness of the high-strength fireproof heat preservation building outer protective material is further ensured, and the use safety is ensured.

The connection ribs 32 and the metal mesh 31 may be inclined, and the connection ribs 32 are connected to the metal mesh 31 in an inclined manner. Through setting up the connecting rib 32 slope between two metal mesh pieces 31, the connecting rib 32 provides the pulling force of slant to two metal mesh pieces 31, ensures that high strength fire prevention heat preservation building outer protective material takes place to break away from the back with basic unit's wall body 10 under extreme condition has sufficient reaction restoration time to can not directly fall, further promote the security under the use condition. The connecting ribs 32 are mutually intersected and connected, so that the structural connection strength of the metal net rack 3 is further enhanced, and the safety and stability of the heat-insulating wall are greatly improved.

In this embodiment, the both ends of connecting rib 32 are connected in two metal mesh pieces 31 respectively, and the both ends of a plurality of connecting rib 32 are all connected in two metal mesh pieces 31 and form metal rack 3 for the self structural strength of metal rack 3 is high, has further guaranteed the whole firmness of high strength fire prevention heat preservation building periphery protection material, ensures the safety in utilization. Wherein, the connecting rib 32 runs through the middle fireproof heat preservation layer 2, so that the connection strength between the metal net rack 3 and the middle fireproof heat preservation layer 2 is high. Of course, in other embodiments, the connection of the connection ribs 32 includes, but is not limited to, perpendicular or oblique to the two-sided metal mesh 31; the positional relationship between two adjacent connecting ribs 32 includes, but is not limited to, parallel or intersecting.

The high-strength fireproof heat-insulating building outer protective material is arranged on one side or the inner side and the outer side of the base layer wall body 10 through a cast-in-situ disassembly-free mold technology, a PC (personal computer) prefabrication reverse-beating integration technology or a post-pasting technology, if a post-pasting installation mode is adopted, the heat-insulating wall body further comprises an adhesive layer, and the adhesive layer is positioned between the high-strength fireproof heat-insulating building outer protective material and the base layer wall body 10 and connected with the high-strength fireproof heat-insulating building outer protective material and the base layer wall body 10. By adopting the back-attaching installation form, an adhesive layer formed by adhesive mortar is additionally arranged between the base layer wall body 10 and the high-strength fireproof heat-insulating building outer protective material, and the high-strength fireproof heat-insulating building outer protective material is connected to the base layer wall body 10 through the adhesive layer so as to facilitate the subsequent working procedures, and meanwhile, the connection strength between the base layer wall body 10 and the high-strength fireproof heat-insulating building outer protective material is further enhanced, the separation condition under the long-term use condition is effectively avoided, and the use safety is ensured.

The thermal insulation wall body also comprises a protective layer which is connected to one side surface of the high-strength fireproof thermal insulation building outer protective material, which is back to the base layer wall body 10. The protective layer is connected to the outer side surface of the fireproof heat-insulating layer 1, which is opposite to the base layer wall body 10, and plays a role in reinforcing and protecting the high-strength fireproof heat-insulating building outer protective material, so that the good use function of the heat-insulating wall body is ensured.

Wherein, the inoxidizing coating includes mortar and screen cloth, and the mortar is connected in the peripheral protective material of high strength fire prevention heat preservation building and is facing away from basic unit's wall body 10 a side, and the screen cloth sets up in the mortar. The screen cloth is arranged in the mortar, so that the structural integrity firmness of the protective layer can be enhanced, and the protective layer is flattened and protected through the mortar. Preferably, the mortar is polymer anti-cracking mortar, so that the safety and stability of the heat-insulating wall are improved.

The heat-insulating wall body also comprises a facing layer, and the facing layer is connected to one side surface of the protective layer, which is opposite to the high-strength fireproof heat-insulating building outer protective material. The decorative layer is added to the outer side of the protective layer, so that the heat-insulating wall body is used for protecting the wall body, beautifying the building and meeting the use requirements through the decorative layer. Wherein, the material of the facing layer comprises paint, ceramic tile, stone, metal plate and the like.

The high-strength fireproof heat-preservation building outer protective material comprises the following steps when in processing and preparation:

Step 1, premixing an organic material and an inorganic material according to a certain proportion to form a raw material composition A of a fireproof heat-insulating layer 1 on two sides and a raw material composition B of a middle fireproof heat-insulating layer 2 respectively;

Step 2, paving a raw material composition A with a certain thickness in a die, and then placing a metal net frame 3 formed by connecting the raw material composition A with a metal net sheet 31 through connecting ribs 32;

Step 3, paving a raw material composition B with a certain thickness on the paved raw material composition A, and continuously paving the raw material composition A with a certain thickness;

Step 4, pressurizing the raw materials in the die to compress the raw materials in the die in the thickness direction, respectively positioning two metal meshes 31 in the metal net frame 3 in the raw material composition A of the two fireproof heat preservation layers 1, and maintaining the pressure;

step 5, heating the raw materials in the die to enable the organic materials in the raw material composition to react and the organic materials (polystyrene particles) to expand in a limited space; shaping and demoulding after curing.

Example 2

As shown in fig. 4, the same parts of the high-strength fire-proof heat-insulating building exterior sheathing material of this example 2 as those of example 1 will not be repeated, and only the differences will be described. In embodiment 2, one end of the connecting rib 32 is connected to one of the metal meshes 31, and the other end of the connecting rib 32 is spaced from the other metal mesh 31. Among the plurality of connecting ribs 32, part of the connecting ribs 32 are only connected with one of the metal meshes 31, are not connected with the other metal mesh 31 and are arranged at intervals, so that the metal net frame 3 is simple in structure and convenient to process and manufacture.

The foregoing disclosure is illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides a high strength fire prevention heat preservation building periphery protects material, its characterized in that, high strength fire prevention heat preservation building periphery protects the material and is three layer construction and including middle fire prevention heat preservation and two fire prevention heat preservation, two the material of fire prevention heat preservation is the same, just the fire prevention heat preservation comprises the heat preservation that the fire prevention grade that organic-inorganic hybrid material constitutes reaches A (A2) level or more, middle fire prevention heat preservation comprises the heat preservation that the fire prevention grade that organic-inorganic hybrid material constitutes reaches A (A2) level or more, just the heat preservation performance of middle fire prevention heat preservation is superior to the heat preservation performance of fire prevention heat preservation, one of them the raw materials composition of fire prevention heat preservation is laid in the mould, the raw materials composition of middle fire prevention heat preservation is directly laid in one of them the top of fire prevention heat preservation, another the raw materials composition of fire prevention heat preservation is directly laid in the top of middle fire prevention heat preservation, so that the both sides of middle fire prevention heat preservation are directly connected in two the fire prevention heat preservation, the organic material in the middle fire prevention heat preservation reaches A (A2) level or more heat preservation, just the heat preservation is the heat preservation of the same kind of organic material in the fire prevention heat preservation with the inorganic material in the fire prevention heat preservation, the same kind of metal mesh, two fire prevention heat preservation is placed in the same heat preservation, and is the heat preservation of the same kind of metal mesh, and is placed in a plurality of fire prevention mesh, and is connected with the fire prevention mesh, and is the heat preservation, and is the fire prevention protection has a fire prevention protection bar and is connected.

2. The high-strength fireproof heat-insulating building outer protective material according to claim 1, wherein the fireproof heat-insulating layer is made of a silicon graphene heat-insulating material;

and/or the strength performance of the fireproof heat-insulating layer is superior to that of the middle fireproof heat-insulating layer.

3. The high strength fire resistant insulation building envelope material of claim 1, wherein the organic material in the fire resistant insulation layer and the intermediate fire resistant insulation layer are polystyrene particles.

4. The high strength fire resistant insulation construction outer protective material of claim 1, wherein the connecting ribs are vertically connected to the metal mesh;

and/or the connecting ribs penetrate through the middle fireproof heat-insulating layer.

5. The high-strength fireproof heat-insulating building outer protection material according to claim 1, wherein the connecting ribs and the metal mesh are in an inclined state, and the connecting ribs are connected with the metal mesh in an inclined mode;

And/or a plurality of connecting ribs are mutually crossed and connected.

6. The high-strength fireproof heat-preservation building outer protection material according to claim 1, wherein two ends of the connecting ribs are respectively connected with two metal meshes;

or one end of the connecting rib is connected with one of the metal meshes, and the other end of the connecting rib is arranged at intervals with the other metal mesh.

7. The heat-insulating wall body is characterized by comprising a base wall body, the high-strength fireproof heat-insulating building outer protective material and a plurality of anchoring connectors, wherein the high-strength fireproof heat-insulating building outer protective material is arranged on one side or the inner side and the outer side of the base wall body through a cast-in-situ demolding-free technology, a PC (personal computer) prefabrication reverse-beating integration technology or a post-pasting technology, and the anchoring connectors are connected with the base wall body and the high-strength fireproof heat-insulating building outer protective material.

8. The thermal wall of claim 7, further comprising an adhesive layer between and connected to the high strength fire resistant thermal insulation building outer covering material and the base wall.

9. The insulated wall of claim 7, further comprising a protective layer attached to a side of the high strength fire-resistant insulation building envelope material facing away from the base wall.

10. The insulation wall of claim 9, wherein said protective layer comprises mortar and mesh, said mortar being attached to a side of said high strength fire-resistant insulation building outer protective material facing away from said base wall, said mesh being disposed within said mortar;

And/or the heat-insulating wall body further comprises a facing layer, wherein the facing layer is connected to one side surface of the protective layer, which is opposite to the high-strength fireproof heat-insulating building outer protective material.