CN111305404A - Assembled composite building insulation board and installation method thereof - Google Patents

Abstract

The invention relates to the technical field of heat preservation plates, in particular to an assembled composite type building heat preservation plate and an installation method thereof, which comprises heat preservation base plates, flush-mounted components are arranged between the parallel heat preservation base plates, the flush assembly comprises a flush bolt and a flush joint respectively, the flush bolt and the flush joint are respectively arranged at two sides of the heat preservation base plate to be assembled, the flat connection bolt is provided with a clamping notch, the main body of the external component is an external vertical frame, the external vertical frame forms an embedded notch, the plate surface of the outer vertical frame is also provided with a side edge support plate, the side edge support plate is provided with an inserted fixture block, the heat-insulating substrate is provided with an inner inserting notch, the mounting end of the heat-insulating substrate adopts an oblique tangent plane structure, the middle position of the outer side plate surface of the inner edge convex plate is provided with an embedded plate block, and the outer end of the inner edge convex plate is provided with a built-in edge strip. This application ensures that the heat preservation base plate is being the stable installation of combination formula, guarantees roughness and stability.

Description

Assembled composite building insulation board and installation method thereof

Technical Field

The invention relates to the technical field of insulation boards, in particular to an assembled composite type building insulation board and an installation method thereof.

Background

At present, most of internal heat insulation is performed by wet process operation of bonding heat insulation boards or coating heat insulation slurry by using cement-based bonding mortar on site, and a protective layer is coated by a wet process after a heat insulation layer is formed. The fire-proof hidden danger exists, the surface is easy to crack, the working procedures are multiple, the construction is complex, the construction period is long, and the requirement on the operating skill level of construction operators is high. Composite insulation board has a lot of among the prior art, generally all takes composite insulation board to the building site to assemble after the mill shaping again, and some decorative layers can be glued on the surface of insulation board at last in the construction, can be the coating also, have additionally increased construction cost and time.

Chinese patent (No. CN 209179226U) discloses a composite insulation board for fabricated buildings, wherein two adjacent insulation boards are spliced and matched through a groove and a bulge, so that the construction efficiency is improved; however, the composite insulation board has certain defects, and the installation stability of the composite insulation board is insufficient, so that the service life of the subsequent composite insulation board is very short, and the defects are large.

Disclosure of Invention

The invention aims to provide an assembled composite type building insulation board and an installation method thereof, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an assembled composite building insulation board comprises insulation substrates, wherein closed sealing strips are arranged between the insulation substrates, flush assemblies are arranged between the parallel insulation substrates, each flush assembly comprises a flush joint bolt and a flush joint, the flush joint bolts and the flush joint joints are respectively arranged at two sides of the insulation substrates to be assembled, a clamping groove opening is formed in each flush joint bolt, the clamping groove opening is matched with the flush joint joints, a telescopic rod is arranged on each flush joint bolt, a limit stop block is arranged at the front rod end of each telescopic rod, the limit stop blocks are arranged below the clamping groove openings, external assemblies are arranged between the insulation substrates which are mutually vertical to turn outwards, the main bodies of the external assemblies are external vertical frames, each external vertical frame forms an embedding groove opening, a side edge support plate is further arranged on the surface of each external vertical frame, and an inserting clamping block is arranged on the side edge support plate, the heat-insulation substrate is provided with an inner inserting notch, the inner inserting notch is matched with an inner inserting fixture block, an inner connecting assembly is arranged between heat-insulation substrates which are mutually inwards turned and vertical, the main body of the inner connecting assembly is an inner vertical frame, the inner side of the right-angle end of the inner vertical frame extends and is provided with an inner edge convex plate, the mounting end of the heat-insulation substrate adopts an oblique tangent plane structure, an embedding groove is arranged at the middle position of the oblique tangent plane of the heat-insulation substrate, a tangent angle is arranged at the outer edge position of the heat-insulation substrate, an embedding plate block is arranged at the middle position of the outer side plate surface of the inner edge convex plate, and a built-in ridge is.

As a further scheme of the invention: the outside of limit stop is provided with the curved surface structure, limit stop's inboard sets up to straight face structure.

As a further scheme of the invention: the telescopic rod is wound with a return spring, one end of the return spring is connected with the limit stop, and the other end of the return spring is connected with the flat connection bolt.

As a further scheme of the invention: the side edge of the horizontal connecting bolt is provided with a positioning slide rail, the outer side of the limit stop is connected with a limit ball, and the limit ball is embedded and installed in the positioning slide rail.

As a further scheme of the invention: and the two sides of the outer vertical frame are also provided with pressure increasing strips, strip-shaped notches are formed in the pressure increasing strips, and rubber strips penetrate through the strip-shaped notches.

As a further scheme of the invention: the outer vertical frame is characterized in that an outer edge frame is arranged at the right-angle end of the outer vertical frame, outer edge hoops are arranged on two sides of the outer edge frame, and an outer inserting groove is formed between each outer edge hoop and the outer plate surface of the outer vertical frame.

As a further scheme of the invention: the two ends of the inner vertical frame are respectively designed into an inner bending structure and form an inner hook groove.

As a further scheme of the invention: the heat-insulation substrate comprises an outer protection layer, an adhesive layer, clamping plates and a composite inner supporting plate, the composite inner supporting plate is arranged at the central line position of an inner cavity of the heat-insulation substrate, the clamping plates are arranged on two sides of the composite inner supporting plate, and the outer protection layer is arranged on two outer sides of the clamping plates and is fixedly adhered to the clamping plates through the adhesive layer.

As a still further scheme of the invention: the combined type heat insulation board is characterized in that two ends of the heat insulation base plate are provided with assembling side plates, the assembling side plates are arranged between the outer protective layers on the upper side and the lower side, filling prisms are arranged on the inner sides of the assembling side plates, the filling prisms are extruded on two sides of the composite inner supporting plate, and the filling prisms are filled between the clamping plates on the upper side and the lower side.

The application also discloses an installation method of the assembly type composite building insulation board, which comprises the following steps:

the method comprises the following steps: preparing corresponding assembling tools such as a heat-insulating substrate, a closed sealing strip, a flush assembly, an external assembly, an internal assembly and the like;

step two: leveling the wall or the building surface to be assembled, so that the laying and installation operation of the heat-insulating substrate is facilitated;

step three: preferentially, the outer wall corner or the inner wall corner of a building surface is installed according to a building outer frame structure to be installed, the outer wall corner or the inner wall corner is unfolded at the corner position of a building, and the heat-insulation substrate is in butt joint and vertical installation by using an external connection assembly or an internal connection assembly; assembling and butting the vertical area of the building body and the heat-insulating base plate preferentially;

step four: according to the heat-insulating substrate which is installed at the corner position of the wall body, the heat-insulating substrate is sequentially attached from two sides to the middle, and then the heat-insulating substrate is aligned and spread on the same plane through the horizontally-installed component.

Compared with the prior art, the invention has the beneficial effects that:

the utility model provides a to the heat preservation base plate of plane butt joint, this application adopts the flush mounting subassembly as the butt joint accessory, the side at the heat preservation base plate is installed to the flush mounting subassembly, through butt joint block mechanism, make flush joint connect the equipment embedding to the joint notch intraorally, and limit stop plays the effect of spacing auto-lock this application, be telescopic installation through spring mechanism, when flush joint connects the income joint notch intraorally, receive the pressure and the internal contraction of flush joint, in flush joint connects the complete embedding joint notch intraorally, then through the auto-lock that resets of spring, wholly guarantee that the heat preservation base plate is combination formula stable installation in the coplanar, guarantee roughness and stability.

For the heat preservation base plates at the corners of the wall body, the adjacent heat preservation base plates are vertically butted through the outer vertical frame, the heat preservation base plates are inserted into the inserted clamping blocks through the inserted notches on the side edges, and the outer vertical frame also plays a vertical positioning effect, so that the heat preservation base plates are vertically installed along the corners outside the wall body, and the integral stability and the appearance uniformity are guaranteed.

To the interior concave type turning of wall body, this application also is provided with corresponding inscription subassembly, and interior perpendicular frame itself plays the effect of support to the heat preservation base plate of both sides, and interior edge flange is to embedding to between the adjacent heat preservation base plate to the maximize plays the effect of fixed stay.

To the monomer of heat preservation base plate, this application will also adopt multilayer combined type structure, and extension board is the insulation material main part in grip block and the compound, is the compound equipment of clamping nature between the three, sets up to parcel formula structure rather than the outside again, and the outer jacket passes through the bond line and attaches the surface formation protection, and the monomer stability that improves heat preservation base plate is with both sides to the equipment curb plate for whole heat preservation base plate is combined type high stability monomer.

This application when installation, need install the outer corner of building body or interior corner region earlier, by both sides to middle attached heat preservation base plate in proper order, it is incomplete to reduce the wall body like this to make level, perhaps the attached influence of inclining of plane heat preservation base plate has avoided causing the regional unable vertically phenomenon in turning, improves the smoothness degree of operation.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application. Also, the drawings and the description are not intended to limit the scope of the present concepts in any way, but rather to illustrate the concepts of the present disclosure to those skilled in the art by reference to specific embodiments.

FIG. 1 is an assembly view of the present invention.

FIG. 2 is a schematic structural view of the thermal insulation substrate of the present invention.

FIG. 3 is a schematic view of the structure of the heat-insulating substrate passing through the flush-mounted module according to the present invention.

FIG. 4 is a schematic view of the structure of the thermal insulation substrate of the present invention through an external component.

FIG. 5 is a schematic view of the structure of the heat-insulating substrate of the present invention passing through the internal connection component

In the figure: 1-heat preservation base plate, 11-outer protective layer, 12-bonding layer, 13-clamping plate, 14-composite inner support plate, 15-assembly side plate, 16-filling prism, 2-closing sealing strip, 3-flush assembly, 31-clamping notch, 32-flush joint, 33-flush bolt, 34-telescopic rod, 35-limit stop, 36-reset spring, 37-positioning slide rail, 38-limit ball, 4-external assembly, 41-external vertical frame, 42-embedding notch, 43-internal insertion notch, 44-side edge support plate, 45-internal insertion fixture block, 46-additional strip, 47-strip notch, 48-external edge frame, 49-external edge hoop, 40-external groove, 5-internal connection assembly, 51-internal vertical frame, 52-inner edge convex plate, 53-embedded plate, 54-internal ridge, 55-corner cut, 56-embedded groove and 57-internal hook groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, examples of which are shown in the drawings. When the following description refers to the drawings of the thermal insulating substrate 1, the same numerals in different drawings represent the same or the same elements unless otherwise specified.

It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, an assembled composite type building insulation board includes an insulation substrate 1, and the insulation substrate 1 are assembled and installed in a butt joint manner.

Referring to fig. 3, flush-mounted components 3 are disposed between parallel heat-insulating substrates 1, the flush-mounted components 3 respectively include a flush-joint bolt 33 and a flush-joint connector 32, the flat joint bolt 33 and the flat joint head 32 are respectively arranged at two sides of the heat preservation base plate 1 to be assembled, the flat joint bolt 33 is provided with a clamping notch 31, the clamping notch 31 is matched with the flat joint head 32, the horizontal connecting bolt 33 is provided with an expansion link 34, the front rod end of the expansion link 34 is provided with a limit stop 35, the limit stop 35 is arranged below the clamping groove opening 31, a curved surface structure is arranged on the outer side of the limit stop 35, the inner side of the limit stop 35 is a straight plate structure, the telescopic rod 34 is wound with a return spring 36, one end of the return spring 36 is connected with the limit stop 35, and the other end of the return spring 36 is connected with the flat bolt 33. The side edge of the butt joint bolt 33 is provided with a positioning slide rail 37, the outer side of the limit stop 35 is connected with a limit ball 38, and the limit ball 38 is embedded in the positioning slide rail 37.

To the heat preservation base plate 1 of plane butt joint, this application adopts flush mounting subassembly 3 as the butt joint accessory, flush mounting subassembly 3 installs the side at heat preservation base plate 1, through butt joint block mechanism, make flush joint 32 equipment embedding to joint notch 31 in, and limit stop 35 this application plays the effect of spacing auto-lock, be telescopic installation through spring mechanism, when flush joint 32 group income joint notch 31 in, receive the pressure and the internal contraction of flush joint 32, in flush joint 32 imbeds joint notch 31 completely, then through the auto-lock that resets fast of spring, wholly guarantee that heat preservation base plate 1 is combination formula stable installation in the coplanar, guarantee roughness and stability.

Referring to fig. 4, an external component 4 is disposed between the heat-insulating substrates 1 that are vertically turned inside out, a main body of the external component 4 is an external vertical frame 41, the external vertical frame 41 forms an insertion slot 42, a side edge support plate 44 is further mounted on a plate surface of the external vertical frame 41, an insertion block 45 is disposed on the side edge support plate 44, an insertion slot 43 is disposed on the heat-insulating substrate 1, and the insertion slot 43 is matched with the insertion block 45.

To the heat preservation base plate 1 at wall body corner position, be vertical butt joint through outer vertical frame 41 between the adjacent heat preservation base plate 1, heat preservation base plate 1 inserts to interpolation fixture block 45 through the interpolation notch 43 of side, and outer vertical frame 41 also plays vertical location's effect to guarantee that heat preservation base plate 1 is perpendicular installation along the corner outward of wall body, guarantee the regularity of holistic stability and outward appearance.

Preferably, the two sides of the outer vertical frame 41 are further provided with additional pressure strips 46, strip-shaped notches 47 are formed in the additional pressure strips 46, and rubber strips penetrate through the strip-shaped notches 47. The friction coefficient between the outer vertical frame 41 and the heat-insulating substrate 1 is increased, so that the overall stability is improved, and the risk that the external component 4 is butted and falls off with the heat-insulating substrate 1 is avoided.

Preferably, the right-angled end of the outer vertical frame 41 is provided with an outer edge frame 48, outer edge hoops 49 are arranged on two sides of the outer edge frame 48, and an outer slot 40 is formed between the outer edge hoops 49 and the outer plate surface of the outer vertical frame 41. An outer edge frame 48 is also provided on the outside of the outer vertical frame 41 to interface with the outer protective means.

Referring to fig. 5, an internal connection assembly 5 is disposed between heat-insulating substrates 1 that are vertically turned inside, a main body of the internal connection assembly 5 is an internal vertical frame 51, an inner edge convex plate 52 extends from an inner side of a right-angle end of the internal vertical frame 51 and is mounted on the inner side of the right-angle end of the internal vertical frame, a mounting end of the heat-insulating substrate 1 adopts an oblique tangent plane structure, an engagement groove 56 is disposed in a middle position of the oblique tangent plane of the heat-insulating substrate 1, a chamfer 55 is disposed in an outer edge position of the heat-insulating substrate 1, an insertion plate 53 is mounted in a middle position of an outer side plate surface of the inner edge convex plate 52, an internal ridge 54 is mounted at an outer end of the inner edge convex plate 52, the insertion plate 53 is matched with the engagement groove.

To the concave type corner of wall body, this application also is provided with corresponding inscription subassembly 5, and interior vertical frame 51 itself plays the effect of support to the heat preservation base plate 1 of both sides, and interior edge flange 52 is to imbedding to adjacent heat preservation base plate 1 between to the maximize plays the effect of fixed stay.

Preferably, both ends of the inner vertical frame 51 are respectively designed to be of an inward bending structure and form an inner hook groove 57, which is similar to the outer edge frame 48, and is also a convenient external protection measure at the corner position of the inner seam of the wall body.

Example two:

referring to fig. 2, the embodiment is further optimized as an embodiment, and on the basis, a sealing strip 2 is disposed between the heat-insulating substrates 1, the heat-insulating substrate 1 comprises an outer protective layer 11, an adhesive layer 12, a clamping plate 13 and a composite inner support plate 14, the composite inner support plate 14 is arranged at the central line position of the inner cavity of the heat preservation substrate 1, the clamping plates 13 are arranged at the two sides of the composite inner support plate 14, the outer protective layer 11 is respectively arranged at two outer sides of the clamping plate 13 and is fixedly adhered with the clamping plate 13 through an adhesive layer 12, the two ends of the heat-insulating base plate 1 are provided with assembling side plates 15, the assembling side plates 15 are arranged between the outer protective layers 11 at the upper side and the lower side, the inner side of the assembling side plate 15 is provided with a filling prism 16, the filling prism 16 is extruded on two sides of the composite inner support plate 14, and the filling prism 16 is filled between the clamping plates 13 on the upper side and the lower side.

To the monomer of heat preservation base plate 1, this application will also adopt multilayer combined type structure, and extension board 14 is the insulation material main part in grip block 13 and the compound, is the compound equipment of clamping nature between the three, sets up to parcel formula structure rather than the outside again, and outer jacket 11 passes through bonding layer 12 and pastes the formation protection in the surface, and equipment curb plate 15 improves heat preservation base plate 1's monomer stability with both sides for whole heat preservation base plate 1 is combined type high stability monomer.

The application also discloses an installation method of the assembly type composite building insulation board, which is used for further explaining the application and comprises the following operation steps.

The method comprises the following steps: preparing corresponding assembling tools such as a heat-insulating substrate 1, a closed sealing strip 2, a flush assembly 3, an external connection assembly 4 and an internal connection assembly 5;

step two: leveling the wall or the building surface to be assembled, so that the laying and installation operation of the heat-insulating substrate 1 is facilitated;

step three: preferentially, the outer wall corner or the inner wall corner of a building surface is installed according to a building outer frame structure to be installed, the building outer frame structure is unfolded at the corner position of the building, and the heat-insulating base plate 1 is vertically installed in a butt joint mode through the external connection assembly 4 or the internal connection assembly 5; assembling and butting the vertical area of the building body with the heat-insulating base plate 1 preferentially;

step four: according to the heat-insulating substrate 1 which is installed at the corner position of the wall body, the heat-insulating substrate 1 is sequentially attached to the middle from two sides, and then the heat-insulating substrate 1 is aligned and spread on the same plane through the horizontally-installed component 3.

This application when the installation, need install the outer corner of building body or interior corner region earlier, by both sides to middle attached heat preservation base plate 1 in proper order, it is incomplete to reduce the wall body like this to make level, perhaps the influence of the attached slope of plane heat preservation base plate 1 has avoided causing the regional unable vertically phenomenon in turning, improves the smoothness degree of operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. An assembled composite building insulation board comprises insulation substrates (1), wherein a closed sealing strip (2) is arranged between the insulation substrates (1), and flush assemblies (3) are arranged between the insulation substrates (1) which are parallel to each other, and is characterized in that the flush assemblies (3) respectively comprise flush bolts (33) and flush joints (32), the flush bolts (33) and the flush joints (32) are respectively arranged at two sides of the insulation substrates (1) to be assembled, clamping notches (31) are arranged on the flush bolts (33), the clamping notches (31) are matched with the flush joints (32), telescopic rods (34) are arranged on the flush bolts (33), limit stoppers (35) are arranged at the front rod ends of the telescopic rods (34), the limit stoppers (35) are arranged below the clamping notches (31), and external assemblies (4) are arranged between the insulation substrates (1) which are mutually outwards turned and vertical, the main body of the external component (4) is an external vertical frame (41), the external vertical frame (41) forms an embedded notch (42), a side edge support plate (44) is further installed on the surface of the external vertical frame (41), an inserted clamping block (45) is arranged on the side edge support plate (44), an inserted notch (43) is formed in the heat-insulating substrate (1), the inserted notch (43) is matched with the inserted clamping block (45), an internal connection component (5) is arranged between the heat-insulating substrates (1) which are mutually turned inwards and vertical, the main body of the internal connection component (5) is an internal vertical frame (51), the inner sides of the right-angle ends of the internal vertical frame (51) extend and are provided with internal edge convex plates (52), the installation end of the heat-insulating substrate (1) adopts an oblique tangent plane structure, and an embedded groove (56) is formed in the middle position of the oblique tangent plane of the heat-insulating substrate (, the outer edge of the heat-insulation substrate (1) is provided with a chamfer (55), the middle position of the outer side plate surface of the inner edge convex plate (52) is provided with an embedded plate block (53), and the outer end of the inner edge convex plate (52) is provided with a built-in rib (54).

2. The fabricated composite type building insulation board according to claim 1, wherein a curved surface structure is arranged on the outer side of the limit stop (35), and a straight plate structure is arranged on the inner side of the limit stop (35).

3. The assembled composite type building insulation board according to claim 1, wherein a return spring (36) is wound on the expansion link (34), one end of the return spring (36) is connected with a limit stop (35), and the other end of the return spring (36) is connected with a horizontal connecting bolt (33).

4. The fabricated composite type building insulation board according to claim 1, wherein a positioning slide rail (37) is arranged at the side edge of the flat connection bolt (33), a limiting ball (38) is connected to the outer side of the limiting stop (35), and the limiting ball (38) is embedded in the positioning slide rail (37).

5. The fabricated composite type building insulation board according to claim 1, wherein additional pressure strips (46) are further mounted on two sides of the outer vertical frame (41), strip-shaped notches (47) are formed in the additional pressure strips (46), and rubber strips penetrate through the strip-shaped notches (47).

6. The fabricated composite type building insulation board according to claim 5, wherein the right-angled end of the outer vertical frame (41) is provided with an outer edge frame (48), outer edge hoops (49) are arranged on two sides of the outer edge frame (48), and an outer slot (40) is formed between the outer edge hoops (49) and the outer plate surface of the outer vertical frame (41).

7. The fabricated composite type building insulation board according to claim 1, wherein both ends of the inner vertical frame (51) are respectively designed as an inner bending structure and form an inner hook groove (57).

8. The fabricated composite building insulation board according to any one of claims 1 to 7, wherein the insulation substrate (1) comprises an outer protective layer (11), an adhesive layer (12), a clamping plate (13) and a composite inner support plate (14), the composite inner support plate (14) is arranged at the central line position of the inner cavity of the insulation substrate (1), the clamping plate (13) is arranged on two sides of the composite inner support plate (14), and the outer protective layer (11) is respectively arranged on two outer sides of the clamping plate (13) and is fixedly adhered to the clamping plate (13) through the adhesive layer (12).

9. The fabricated composite type building insulation board according to claim 8, wherein assembly side boards (15) are installed at two ends of the insulation substrate (1), the assembly side boards (15) are arranged between the outer protective layers (11) at the upper side and the lower side, filling prisms (16) are arranged on the inner sides of the assembly side boards (15), the filling prisms (16) are extruded at two sides of the composite inner support board (14), and the filling prisms (16) are filled between the clamping plates (13) at the upper side and the lower side.

10. The method for mounting an assembled composite building insulation board according to any one of claims 1 to 7, characterized by comprising the steps of:

the method comprises the following steps: preparing corresponding assembling tools such as a heat-insulating substrate (1), a closed sealing strip (2), a flush assembly (3), an external assembly (4), an internal assembly (5) and the like;

step two: the wall body or the building surface to be assembled is leveled, so that the laying and installation operation of the heat-insulating base plate (1) is facilitated;

step three: preferentially, the outer wall corner or the inner wall corner of a building surface is installed according to a building outer frame structure to be installed, the outer wall corner or the inner wall corner is unfolded at the corner position of the building, and the heat-insulating substrate (1) is vertically installed in a butt joint mode through an external connection assembly (4) or an internal connection assembly (5); assembling and butting the vertical area of the building body with the heat-insulating base plate (1) preferentially;

step four: according to the heat-insulating substrate (1) which is installed at the corner position of the wall body, the heat-insulating substrate (1) is sequentially attached from two sides to the middle, and then the heat-insulating substrate (1) is aligned and spread on the same plane through the horizontally-installed component (3).

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