CN113137026B

CN113137026B - MCM heat preservation and decoration integrated system and installation method thereof

Info

Publication number: CN113137026B
Application number: CN202110532384.1A
Authority: CN
Inventors: 林奕; 陈文杰; 张国永
Original assignee: Zhejiang Jianke Energy Conservation And Environmental Protection Technology Co ltd; Zhejiang Academy Of Building Research & Design Ltd
Current assignee: Zhejiang Jianke Energy Conservation And Environmental Protection Technology Co ltd; Zhejiang Academy Of Building Research & Design Ltd
Priority date: 2021-05-17
Filing date: 2021-05-17
Publication date: 2022-06-24
Anticipated expiration: 2041-05-17
Also published as: CN113137026A

Abstract

The invention discloses an MCM heat preservation and decoration integrated system and an installation method thereof, belongs to the technical field of heat preservation and decoration of building external walls, and aims to overcome the defect that the existing MCM heat preservation and decoration integrated plate is not firmly connected with a wall body. The MCM heat-preservation and decoration integrated plate comprises a first MCM finish coat and a heat-preservation layer, the first MCM finish coat and the heat-preservation layer are bonded through a first bonding material, the outer surface of the integrated plate is provided with mounting holes penetrating through the heat-preservation layer, and through holes for the anchoring parts to penetrate through are formed in positions corresponding to the mounting holes. The MCM heat-insulation decoration integrated plate is fixedly connected with the outer wall through front surface anchoring without side surface anchoring, so that the installation process of the MCM heat-insulation decoration integrated plate is greatly simplified, the safety and the durability of the MCM heat-insulation decoration integrated plate are effectively improved, and the application cost of the MCM heat-insulation decoration integrated plate is further reduced.

Description

MCM heat preservation and decoration integrated system and installation method thereof

Technical Field

The invention belongs to the technical field of building external wall insulation and decoration, and relates to an MCM insulation and decoration integrated plate, a production method, an installation method and a system.

Background

The MCM heat preservation and decoration integrated board is a novel building outer wall decoration and heat preservation integrated product researched and developed in recent years, mainly comprises a modified inorganic powder composite building facing sheet, a bonding layer and a heat preservation layer, wherein the modified inorganic powder composite building facing sheet is prepared by taking modified inorganic powder as a main raw material and adding high molecular polymer through molding, crosslinking, heating and compounding, is also called soft porcelain or soft stone, can express the effects of various bricks, woods, stones, leather, ceramics, braided fabrics and reliefs, has the advantages of rich decoration effect, low water absorption, good freeze thawing resistance, good durability and the like, has the defect of insurmountable performance, has the general thickness of being thinner and only 2-3mm in order to save cost and improve production efficiency, is lower in strength due to being softer, the heat preservation decoration board formed by compounding with a heat preservation material cannot be fixedly connected with a wall body like a common heat preservation and decoration integrated board through side anchoring, how to realize the firm connection of the MCM insulation and decoration integrated plate and the wall body is a technical problem which needs to be solved urgently.

In addition, in MCM heat preservation decorates integration board production, prior art adopts mostly to bond MCM finish coat on the heat preservation through adhesive, though convenient operation, to the MCM finish coat that forms by the combination of the compound architectural finish sheet of the less modified inorganic powder of multi-disc area, need lay multi-disc modified inorganic powder compound architectural finish sheet on the heat preservation in proper order, and production is comparatively wasted time and energy, has increased the manufacturing cost of MCM heat preservation decoration integration board.

Disclosure of Invention

The invention provides an MCM heat-preservation and decoration integrated plate, a production method, an installation method and a system aiming at solving the problems in the prior art and aiming at overcoming the defect that the existing MCM heat-preservation and decoration integrated plate is not firmly connected with a wall body.

The invention is realized by the following steps:

the MCM heat-preservation and decoration integrated plate comprises a first MCM finish coat and a heat-preservation layer, wherein the first MCM finish coat and the heat-preservation layer are bonded through a first bonding material, a mounting hole penetrating through the heat-preservation layer is formed in the outer surface of the integrated plate, and a through hole for an anchoring part to penetrate through is formed in the position corresponding to the mounting hole.

The heat preservation layer is arranged at the through hole and provided with a yielding groove for accommodating the head of the anchoring piece.

And anti-cracking mortar layers are arranged on two end surfaces of the heat-insulating layer.

The outer end face of the heat preservation layer is provided with a plurality of trapezoidal grooves, the radial notches of the grooves of the trapezoidal grooves are gradually reduced, and the trapezoidal grooves are filled with first bonding materials.

The first MCM veneer layer comprises a plurality of veneer pieces which are independent of each other, and a first splicing seam is arranged between the veneer pieces.

The production method of the MCM heat-preservation and decoration integrated plate is characterized by comprising the following steps:

fabricating an MCM template according to a first MCM finish layer configuration, the MCM template having bumps thereon for forming mounting holes; the MCM template is provided with criss-cross raised lines so that the first MCM finish coat forms a plurality of mutually independent finish sheets;

placing an MCM template, mounting side templates with preset heights on the periphery of the MCM template, uniformly paving a prepared modified inorganic powder composite building facing sheet raw material on the template, and scraping off part of the modified inorganic powder composite building facing sheet raw material higher than the side templates;

uniformly paving bonding mortar on the raw material of the modified inorganic powder composite building facing sheet, and paving a heat-insulating layer provided with through holes on the bonding mortar;

drying and maintaining the MCM template paved with the modified inorganic powder composite building facing sheet raw material, the bonding mortar and the heat insulation layer to solidify the modified inorganic powder composite building facing sheet raw material and the bonding mortar;

and (4) dismantling the side template, and separating the MCM template from the cured modified inorganic powder composite building facing sheet.

The MCM template is provided with criss-cross raised lines, so that the first MCM finish coat forms a plurality of mutually independent finish sheets;

a first splicing seam is arranged between the surface decorating sheets, and a seam filling material is filled in the first splicing seam.

And after the MCM template is processed, a release agent is coated on the surface of the MCM template, which is in contact with the modified inorganic powder composite building facing sheet material.

The MCM heat-insulation and decoration integrated system is characterized by comprising the MCM heat-insulation and decoration integrated plate, a plurality of anchoring pieces, an outer wall and a plurality of second MCM finish layers, wherein the MCM heat-insulation and decoration integrated plate is bonded with the outer wall through a bonding mortar layer, the second MCM finish layers are arranged at the mounting holes, and the second MCM finish layers are fixed on the heat-insulation layer.

And the second MCM decorative layer is bonded with the heat-insulating layer through a second bonding material.

The second MCM finish coat is matched with the mounting hole in shape, a second splicing seam is arranged between the first MCM finish coat and the second MCM finish coat, and the second splicing seam is filled with a second bonding material.

The mounting hole is provided with a cylindrical elastic connecting piece, the elastic connecting piece is provided with a fixing hole corresponding to the through hole, the anchoring piece penetrates through the fixing hole, the head of the anchoring piece is pressed on the elastic connecting piece, the outer side of the elastic connecting piece is provided with a limiting convex ring, the inner side of the second MCM finish coat is provided with a connecting part extending towards the heat insulation layer, the connecting part is provided with a limiting groove, the limiting convex ring is embedded in the limiting groove, and the elastic connecting piece is filled with the second bonding material.

The outer surface of the second MCM finish coat protrudes out of the outer surface of the first MCM finish coat to form finish outer convex portions, and the finish outer convex portions extend to the outer side of the first MCM finish coat and are pressed on the first MCM finish coat.

The installation method of the MCM heat preservation and decoration integrated system is characterized by comprising the following steps:

bonding the MCM heat-preservation and decoration integrated plate on the outer wall;

placing the elastic connecting piece in the mounting hole, and anchoring the elastic connecting piece and the MCM heat-preservation and decoration integrated plate together on the outer wall through the anchoring piece;

filling a second bonding material on the back of the second MCM finish coat, the inner area and the outer area of the elastic connecting piece and in the mounting hole;

and pressing the second MCM finish coat into the mounting hole, aligning a limiting convex ring of the elastic connecting piece with a limiting groove of the second MCM finish coat, and fixedly connecting the second MCM finish coat with the heat insulation layer after the second bonding material is cured.

The MCM insulation and decoration integrated system has the beneficial effects that:

(1) the first MCM finishing coat with the mounting hole for arranging the anchoring part and the second MCM finishing coat arranged on the mounting hole are jointly used for forming the decorative layer of the heat-preservation and decoration integrated board, the second MCM finishing coat is arranged at the mounting hole through a second bonding material after the MCM heat-preservation and decoration integrated board is fixed on the outer wall by the anchoring part, the front surface of the MCM heat-preservation and decoration integrated board is fixedly connected with the outer wall in an anchoring mode without side surface anchoring, the mounting process of the MCM heat-preservation and decoration integrated board is greatly simplified, the safety and the durability of the MCM heat-preservation and decoration integrated board are effectively improved, and the application cost of the MCM heat-preservation and decoration integrated board is further reduced;

(2) the elastic connecting piece is arranged between the heat preservation layer and the anchoring piece and is matched with the second MCM finish coat to realize the fixed connection between the second MCM finish coat and the anchoring piece, so that the safety performance of the second MCM finish coat bonded on the heat preservation layer on site is greatly improved;

(3) on one hand, the elastic connecting piece is arranged between the heat preservation layer and the anchoring piece and is matched with the veneer outer convex part to realize the fixed connection between the veneer outer convex part and the anchoring piece, on the other hand, the first MCM finish coat is pressed by the peripheral edge of the veneer outer convex part to indirectly realize the connection between the first MCM finish coat and the anchoring piece, so that the fixed stability of the first MCM finish coat is further improved;

(4) through set up a plurality of dovetail grooves on the heat preservation layer, improve the fastness that first bonding material and heat preservation cover bonded.

The production method of the MCM insulation and decoration integrated board has the advantages that:

(1) during production, the modified inorganic powder composite building facing sheet material raw material, the bonding mortar and the heat-insulating layer are respectively laid on an MCM template which is designed and processed in advance, and the MCM heat-insulating and decorating integrated plate is produced by adopting a one-step forming method, so that the production process of the MCM heat-insulating and decorating integrated plate is greatly simplified, and the production cost is reduced;

(2) the modified inorganic powder composite building facing sheet material raw material, the bonding mortar and the heat insulation layer are respectively paved from bottom to top, so that the connection between the MCM facing layer and the heat insulation layer is firmer, and the safety performance is further improved;

(3) for the first MCM decorative layer formed by combining a plurality of decorative sheets with smaller areas, the one-step forming method can greatly reduce the production time of the first MCM decorative layer, and the decorative sheets with smaller areas do not need to be laid on the heat insulation layer in sequence.

Drawings

FIG. 1 is a schematic structural view of an MCM insulation and decoration integrated system according to an embodiment;

FIG. 2 is a schematic sectional view showing an integrated MCM heat-insulating and decorating system according to an embodiment;

FIG. 3 is a schematic structural view of an MCM insulation and decoration integrated board of the embodiment;

FIG. 4 is a schematic structural view of an MCM insulation and decoration integrated system of an embodiment before a second MCM finish layer is assembled;

FIG. 5 is a schematic cross-sectional view of the MCM insulation and decoration integration system of the embodiment before being assembled with a second MCM finish layer;

FIG. 6 is a schematic view of a MCM mold according to an embodiment;

FIG. 7 is a schematic structural view of a MCM insulation and decoration integration system of the second embodiment;

FIG. 8 is a schematic structural view of the second MCM heat-insulating and decorative integration system of the embodiment before being assembled with a second MCM finish layer;

FIG. 9 is a schematic sectional view showing the structure of the second MCM finishing layer before being assembled to the second MCM finishing layer;

FIG. 10 is a schematic sectional view showing the structure of the third MCM insulation and decoration integrated system of the embodiment before being assembled with a second MCM finishing layer;

FIG. 11 is an enlarged view of portion A of FIG. 10;

FIG. 12 is a schematic illustration of the structure of a third MCM finish layer of an embodiment;

FIG. 13 is a schematic structural view of an elastic connection member according to a third embodiment;

FIG. 14 is a schematic structural view of a MCM mold according to the second embodiment and the third embodiment;

FIG. 15 is a schematic cross-sectional view of the integrated system for thermal insulation and decoration of four MCM of an embodiment before assembling a second MCM finish layer;

FIG. 16 is an enlarged view of detail B of FIG. 15;

FIG. 17 is a schematic diagram illustrating a fourth MCM finish layer of an embodiment.

Reference is made to the accompanying drawings in which: 100. an outer wall; 200. an anchoring member; 300. MCM heat preservation and decoration integrated plate; 310. a first MCM finish layer; 311. mounting holes; 312. a first splice seam; 320. a heat-insulating layer; 321. a through hole; 322. a yielding groove; 323. a trapezoidal groove; 330. a first adhesive material; 400. a second MCM finish layer; 410. a second adhesive material; 420. a connecting portion; 421. a limiting groove; 430. an outer protrusion; 440. a second splice seam; 500. MCM template; 510. a bump; 520. a convex strip; 600. an elastic connecting member; 610. a limit convex ring.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in connection with the accompanying drawings for the purpose of facilitating understanding and understanding of the technical solutions of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

The embodiment provides an MCM heat preservation and decoration integrated system, which comprises an MCM heat preservation and decoration integrated plate 300, a plurality of anchoring pieces 200, an outer wall 100 and a plurality of second MCM decorative layers 400, wherein the MCM heat preservation and decoration integrated plate 300 is bonded with the outer wall 100 through a bonding mortar layer, the MCM heat preservation and decoration integrated plate 300 is provided with a mounting hole 311, the second MCM decorative layer is arranged at the mounting hole 311, and the second MCM decorative layer is fixed on a heat preservation layer 320.

MCM heat preservation decoration integration board 300 includes first MCM finish coat 310 and heat preservation 320, and first MCM finish coat 310 and heat preservation 320 bond through first adhesive 330, and the surface of integration board has the mounting hole 311 that runs through to heat preservation 320, is equipped with the through-hole 321 that is used for anchor assembly 200 to pass corresponding to mounting hole 311 department. The mounting hole 311 is a rectangular hole. In other alternative embodiments, the mounting holes 311 may be round holes, square holes, diamond holes, etc. The two end surfaces of the heat preservation layer 320 are provided with anti-crack mortar layers, grid cloth is arranged in each anti-crack mortar layer, the head of each anchoring part 200 is located on the outer side of each anti-crack mortar layer, so that the heat preservation layer 320 is connected with a wall body more firmly, the heat preservation layer 320 is made of heat preservation materials such as extruded polystyrene boards, polyurethane boards, rock wool boards, aerogel felts and inorganic light aggregate heat preservation boards, the thickness of each heat preservation layer is 5-20 mm, and the thickness of a bonding layer formed by the first bonding materials 330 is 1-3 mm.

The heat preservation layer 320 is provided with the abdicating groove 322 at the through hole 321 for accommodating the head of the anchoring member 200, so that the thickness of the first bonding material 330 does not need to be increased in a large area, the consumption of the first bonding material 330 is reduced, and the thickness of the abdicating groove 322 is 2-5 mm.

The outer end face of the heat preservation layer 320 is provided with a plurality of trapezoidal grooves 323, the radial notches of the trapezoidal grooves 323 are gradually reduced, and the trapezoidal grooves 323 are filled with a first bonding material 330. This improves the bonding strength between the first adhesive 330 and the heat-retaining cover.

As shown in fig. 1-5, the first MCM finishing layer 310 includes a plurality of independent facing sheets having first joints 312 therebetween, the first joints 312 being filled with a second adhesive material 410. The second MCM finishing layer 400 is bonded to the insulating layer 320 by a second bonding material 410. The second binding material is special binding agent or binding mortar for the modified inorganic powder composite building facing sheet. The first MCM finish coat 310 and the second MCM finish coat 400 are the same in shape and size, the first splicing seams 312 and the second splicing seams 440 are the same in width and filled with the same materials for the same modification treatment, and the second splicing seams 440 can also be modified in a differentiated mode so that the position of the second MCM is clear and the MCM heat-preservation and decoration integrated plate 300 can be detached and replaced conveniently when necessary.

The second MCM finishing layer 400 is matched with the mounting hole 311 in shape, a second splicing seam 440 is formed between the first MCM finishing layer 310 and the second MCM finishing layer 400, and the second splicing seam 440 is filled with a second adhesive material 410. The second splice seam 440 may be filled and may be modified, such as by applying a cosmetic seam sealer.

During construction, the MCM insulation and decoration integrated plate 300 is firstly bonded and anchored on the outer wall 100, then a second bonding material is filled in the back face of the second MCM facing layer 400 and the mounting hole 311, the second MCM facing layer 400 is bonded to the mounting hole 311, and then the second splicing seam 440 is filled and modified.

As shown in fig. 3 and 6, the method for producing the MCM thermal insulation and decoration integrated board 300 includes the following steps:

step 1, constructing and processing an MCM template 500 according to a first MCM finish layer 310, wherein the MCM template 500 is provided with bumps 510 for forming mounting holes 311, and the MCM template 500 is provided with convex strips 520 which are crisscrossed so as to form a first splicing seam 312, so that the first MCM finish layer 310 forms a plurality of mutually independent finish sheets. The first MCM finishing layer 310, which is a combination of a plurality of independent finishing sheets, may be formed at a time without a plurality of laying of finishing sheets. After the MCM template 500 is processed, a release agent is coated on the surface of the MCM template 500, which is in contact with the modified inorganic powder composite building facing sheet material.

Step 2, placing the MCM template 500, installing side templates with preset heights on the periphery of the MCM template 500, uniformly paving the prepared modified inorganic powder composite building finish sheet raw material on the template, and scraping off part of the modified inorganic powder composite building finish sheet raw material higher than the side templates. The modified inorganic powder composite architectural facing sheet material is cured to form a first MCM facing layer 310.

And 3, uniformly paving a first bonding material 330 on the raw material of the modified inorganic powder composite building facing sheet, wherein the first bonding material 330 is bonding mortar, and paving a heat insulation layer 320 with a through hole 321 on the bonding mortar. The heat-insulating layer 320 can be pressurized to enable the heat-insulating layer 320 to be in full contact with the raw materials of the modified inorganic powder composite building facing sheet, so that the heat-insulating layer 320 and the modified inorganic powder composite building facing sheet are convenient to connect more firmly, a pressing block can be arranged on the heat-insulating layer 320 for pressurization, and the raw materials of the modified inorganic powder composite building facing sheet can fully enter the trapezoidal groove 323.

And 4, drying and maintaining the MCM template 500 paved with the modified inorganic powder composite building facing sheet raw material, the bonding mortar and the heat insulation layer 320 to solidify the modified inorganic powder composite building facing sheet raw material and the bonding mortar.

And 5, dismantling the side template, and separating the MCM template 500 from the cured modified inorganic powder composite building facing sheet.

And 6, forming first splicing seams 312 between the facing sheets, and filling the first splicing seams 312 with a seam filling material. The joint filling material can also adopt bonding mortar, and can also adopt other filling materials with elasticity.

Example two

The present embodiment differs from the first embodiment mainly in the structure of the first MCM finishing layer 310. For the same size MCM insulation and decoration integrated board 300, the first MCM finishing layer 310 of the first embodiment employs a plurality of independent finishing sheets, and the first MCM finishing layer 310 of the present embodiment employs a larger integrated first MCM finishing layer 310.

As shown in fig. 7-9, the first MCM finishing layer 310 has four mounting holes 311, and the MCM thermal insulation and decoration integrated board 300 is produced by a mold having bumps 510 but no ribs 520 as shown in fig. 14.

Other structures and effects of the present embodiment are consistent with those of the present embodiment, and are not described herein again.

EXAMPLE III

The difference between this embodiment and the second embodiment is mainly the fixing manner of the second MCM finishing layer 400 and the heat insulating layer 320. The second MCM finishing layer 400 of the second embodiment is adhered to the insulating layer 320 by a second adhesive material 410. The second MCM finishing layer 400 in this embodiment is to further improve the reliability of fixing the second MCM finishing layer 400 by the elastic connection member 600 and the anchor 200.

Specifically, as shown in fig. 10 to 13, a cylindrical elastic connector 600 is disposed at the mounting hole 311, a fixing hole corresponding to the through hole 321 is formed in the elastic connector 600, the anchor 200 passes through the fixing hole, the head of the anchor 200 is pressed against the elastic connector 600, a limiting convex ring 610 is disposed on the outer side of the elastic connector 600, a connecting portion 420 extending toward the insulating layer 320 is disposed on the inner side of the second MCM finishing layer 400, a limiting groove 421 is disposed on the connecting portion 420, the limiting convex ring 610 is embedded in the limiting groove 421, and the elastic connector 600 is filled with the second adhesive material 410.

During construction, the MCM insulation and decoration integrated board 300 is firstly bonded on the outer wall 100, then the elastic connecting piece 600 is arranged in the mounting hole 311 and is anchored on the outer wall 100 together with the MCM insulation and decoration integrated board 300 through the anchoring piece 200, then the back surface of the second MCM decorative layer 400, the inner and outer areas of the elastic connecting piece 600 and the mounting hole 311 are filled with second bonding materials, and the second MCM decorative layer 400 is arranged in the mounting hole 311, because the elastic connecting piece 600 is easily matched and connected with the limiting groove 421 of the second MCM decorative layer 400 when the second bonding materials are not cured, after the second bonding materials are cured, because the inner side and the outer side of the elastic connecting piece 600 are cured, the limiting convex ring 610 of the elastic connecting piece 600 can be firmly connected with the limiting groove 421 of the second MCM decorative layer 400, the second MCM decorative layer 400 is indirectly fixedly connected with the anchoring piece 200, the second decorative layer 400 is fixed on the outer wall 100 in a bonding and anchoring manner, the safety is greatly improved.

In the process of pressing the connecting portion 420 of the second MCM finish layer 400 into the mounting hole 311, the second MCM finish layer 400 will automatically extrude 410 the second adhesive material that has been filled in the mounting hole 311 onto the second splicing seam between the first MCM finish layer 310 and the second MCM finish layer 400, so that the second splicing seam is filled.

In addition, the elastic connection member 600 may be provided in addition to the first embodiment. Other structures and effects of this embodiment are the same as those of the second embodiment, and are not described herein again.

Example four

The present embodiment differs from the third embodiment in the structure of the second MCM finishing layer 400. The outer surface of second MCM finishing layer 400 of example three is flush with the outer surface of first MCM finishing layer 310, the outer surface of second MCM finishing layer 400 of this example protrudes outward from the outer surface of first MCM finishing layer 310, and second MCM finishing layer 400 presses against first MCM finishing layer 310.

Specifically, as shown in fig. 15-17, the outer surface of the second MCM finish layer 400 protrudes outward from the outer surface of the first MCM finish layer 310 forming finish overhangs 430, the finish overhangs 430 extending to the outside of the first MCM finish layer 310 and pressing on the first MCM finish layer 310. The outer protrusions 430 are used for decoration, fixing the first MCM decoration layer, and indicating the position of the second MCM decoration layer 400.

During construction, the MCM insulation and decoration integrated board 300 is firstly bonded on the outer wall 100, then the elastic connecting piece 600 is placed in the mounting hole 311 and is anchored on the outer wall 100 together with the MCM insulation and decoration integrated board 300 through the anchoring piece 200, second bonding materials are filled in the back face of the second MCM facing layer 400, the inner area and the outer area of the elastic connecting piece 600 and the mounting hole 311, the second MCM facing layer 400 is arranged in the mounting hole 311, the elastic connecting piece 600 is easily matched and connected with the limiting groove 421 of the second MCM facing layer 400 when the second bonding materials are not cured, and after the second bonding materials are cured, the limiting convex ring 610 of the elastic connecting piece 600 can be firmly connected with the limiting groove 421 of the second MCM facing layer 400 due to the fact that the inner side and the outer side of the elastic connecting piece 600 are cured, and therefore the second MCM facing layer 400 is indirectly and fixedly connected with the anchoring piece 200.

The outrigger 430 may abut directly on the first MCM finish layer 310. In other alternative embodiments, spacers may also be disposed between the outriggers and the first MCM finish layer. Or when a gap exists between the outer convex part and the first MCM finishing layer, a second adhesive material or other elastic fillers can be filled in the gap, so that the outer convex part can prop against the first MCM finishing layer, and the connection reliability of the first MCM finishing layer is improved.

The protection scope of the present invention is not limited to the above description, and any other products with the same or similar technical solutions as or to the present invention, regardless of the shape or structure, are within the protection scope of the present invention.

Claims

The MCM heat preservation and decoration integrated system is characterized by comprising an MCM heat preservation and decoration integrated board, wherein the MCM heat preservation and decoration integrated board comprises a first MCM finish coat (310) and a heat preservation layer (320), the first MCM finish coat (310) and the heat preservation layer (320) are bonded through a first bonding material (330), the outer surface of the integrated board is provided with a mounting hole (311) penetrating through the heat preservation layer (320), and a through hole (321) for allowing an anchoring part (200) to penetrate through is formed in the position corresponding to the mounting hole (311);

the system further comprises a plurality of anchoring parts (200), an outer wall (100) and a plurality of second MCM finish coatings (400), the MCM heat-insulation and decoration integrated plate is bonded with the outer wall (100) through a bonding mortar layer, the second MCM finish coatings are arranged at the mounting holes (311), and the second MCM finish coatings are fixed on the heat-insulation layer (320); the second MCM decorative layer (400) is bonded with the heat-insulating layer (320) through a second bonding material (410);

the mounting hole (311) is provided with a cylindrical elastic connecting piece (600), the elastic connecting piece (600) is provided with a fixing hole corresponding to the through hole (321), the anchoring piece (200) penetrates through the fixing hole, the head of the anchoring piece (200) is pressed on the elastic connecting piece (600), the outer side of the elastic connecting piece (600) is provided with a limiting convex ring (610), the inner side of the second MCM finishing layer (400) is provided with a connecting part (420) extending towards the heat insulation layer (320), the connecting part (420) is provided with a limiting groove (421), the limiting convex ring (610) is embedded in the limiting groove (421), and the elastic connecting piece (600) is filled with the second bonding material (410).
2. The MCM insulation and decoration integration system of claim 1, wherein the insulation layer (320) is provided with a relief groove (322) at the through hole (321) for accommodating the head of the anchor member (200).
3. The MCM thermal insulation and decoration integration system of claim 1, wherein the first MCM finishing layer (310) comprises a plurality of independent facing sheets having first stitching seams (312) therebetween.
4. The MCM insulation and decoration integration system of claim 1, wherein the second MCM finish layer (400) matches the shape of the mounting hole (311), a second splicing seam (440) is arranged between the first MCM finish layer (310) and the second MCM finish layer (400), and the second splicing seam (440) is filled with a second bonding material (410).
5. The MCM thermal insulation and decoration integration system of claim 1, wherein an outer surface of the second MCM finishing layer (400) protrudes outward from an outer surface of the first MCM finishing layer (310) to form a finishing protrusion (430), the finishing protrusion (430) extending to an outer side of the first MCM finishing layer (310) and pressing on the first MCM finishing layer (310).
6. A method of installing an MCM insulation and decoration integration system of claim 1, comprising the steps of:

bonding the MCM heat-preservation and decoration integrated plate on the outer wall;

placing an elastic connecting piece in the mounting hole, and anchoring the elastic connecting piece and the MCM heat preservation and decoration integrated board together on the outer wall through an anchoring piece;

filling a second bonding material on the back of the second MCM finish coat, the inner area and the outer area of the elastic connecting piece and in the mounting hole;

and pressing the second MCM finish coat into the mounting hole, aligning a limiting convex ring of the elastic connecting piece with a limiting groove of the second MCM finish coat, and fixedly connecting the second MCM finish coat with the heat insulation layer after the second bonding material is cured.