CN211817379U - Decoration and heat preservation integrated ceramsite concrete prefabricated plate - Google Patents

Abstract

The utility model relates to the field of building materials, and discloses a decorative heat-preservation integrated ceramsite concrete prefabricated plate, which comprises a comb tooth steel bar framework, a ceramsite concrete layer and a heat preservation layer; a ceramsite concrete layer is poured in the comb tooth steel bar framework, and the heat insulation layer is positioned above the ceramsite concrete layer; a plurality of self-locking connecting pieces are arranged in the heat preservation layer, and the heat preservation layer is connected with the ceramsite concrete layer through the self-locking connecting pieces. The utility model discloses a decorate heat preservation integration haydite concrete board, the surface course has decorative pattern and ornamental material, and built-in heat preservation, disposable processing pouring becomes integratively, has realized decorating the purpose of heat preservation integration, and the inboard of board levels smoothly and does not need to smear cement mortar screed-coat moreover, accomplishes the outer wall body design construction requirement once only, has reduced the outer wall and has hung and paste multiple processes such as architectural surface, outer wall heat preservation and wall plastering futilely, saves construction cost.

Description

Decoration and heat preservation integrated ceramsite concrete prefabricated plate

Technical Field

The utility model relates to a building material field particularly, relates to a decorate heat preservation integration ceramsite concrete prefabricated plate.

Background

The ceramsite concrete has the advantages of good performances and remarkable characteristics of light weight, high strength, shock resistance, durability, fire resistance, sound insulation, heat preservation, good workability, easy processing, low cost and the like, is an inorganic green building material with excellent performance, has simple and flexible production process, and is easy to realize industrial standardized production and processing.

In practical application, only ceramsite concrete blocks, ceramsite concrete strip-shaped plates and other products are available. The products have the advantages of few specification types, single function, more seams, low installation efficiency and limited application range. The ceramsite concrete wall board with large length and width, which is urgently needed in the current construction project, particularly the decoration and heat preservation integrated outer wall board with patterns and decorative materials, is a blank.

The defects seriously affect the use and popularization of the ceramsite concrete in the field of construction engineering, and the excellent performance and the obvious characteristics of the ceramsite concrete cannot be fully exerted and applied.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at is to above-mentioned problem, provides an industrial production, disposable casting shaping, surface course have the decorative pattern and have ornamental material, and built-in have the heat preservation of the long wide large size decoration integration haydite concrete panel of heat preservation.

In order to realize the purpose, the decoration and heat preservation integrated ceramsite concrete prefabricated plate comprises a comb tooth steel bar framework, a ceramsite concrete layer and a heat preservation layer;

the comb-shaped steel bar framework comprises a bottom steel bar net piece and an upper steel bar net piece, a plurality of comb-shaped steel bar short columns are vertically arranged on the bottom steel bar net piece, horizontal steel bars are fixed on the comb-shaped steel bar short columns positioned at the edge of the steel bar net piece, the horizontal steel bars are enclosed to form a closed frame, and the upper steel bar net piece is fixedly connected with the horizontal steel bars;

a ceramsite concrete layer is poured in the comb tooth steel bar framework, and the heat insulation layer is positioned above the ceramsite concrete layer;

the heat-insulating layer is provided with through holes corresponding to the comb-tooth short steel bars which sequentially penetrate through the ceramsite concrete layer and the heat-insulating layer;

a plurality of self-locking connecting pieces are arranged in the heat preservation layer, the self-locking connecting pieces penetrate through the heat preservation layer to form comb-tooth shapes on the surface of the heat preservation layer, and the heat preservation layer is connected with the ceramsite concrete layer through the self-locking connecting pieces.

Preferably, a cement mortar layer is arranged above the heat-insulating layer, and the heat-insulating layer is positioned between the ceramsite concrete layer and the cement mortar layer.

Preferably, a ceramsite concrete layer is further arranged above the heat insulation layer, and the heat insulation layer is located between the two ceramsite concrete layers.

Preferably, the self-locking connecting piece is a one-way connecting piece and comprises a large-head plastic through nail and a self-locking pressing piece, the large-head plastic through nail comprises a large-head cap and a nail rod, tail feathers are arranged at the tail of the nail rod, the nail rod penetrates through the heat insulation layer, the self-locking pressing piece is fixed on the nail rod penetrating through the heat insulation layer, the large-head cap and the self-locking pressing piece clamp the heat insulation layer tightly, and the tail feathers are inserted into the ceramsite concrete layer.

Preferably, the self-locking connecting piece is a bidirectional connecting piece and comprises a nail rod and a self-locking pressing piece, tail feathers are arranged at two ends of the nail rod, the nail rod penetrates through the heat insulation layer, comb teeth are formed at two sides of the heat insulation layer, the self-locking pressing piece is fixed at two ends of the nail rod penetrating through the heat insulation layer and clamps the heat insulation layer, and the tail feathers at two ends of the nail rod are respectively inserted into the ceramsite concrete layers at two sides.

Preferably, the auto-lock is pressed the cap still installed at broach short steel bar column top, and the auto-lock is pressed the cap and is included clamp plate and connecting pipe, and the connecting pipe inner wall is provided with the pawl stupefied, and during the short steel bar column inserted the connecting pipe, the stupefied pinning short steel bar column of pawl, the clamp plate compressed tightly upper reinforcing bar net piece.

Preferably, the outer surface of the heat-insulating layer is wrapped with an alkali-resistant glass fiber net.

Preferably, the nail rod is provided with a pawl ridge for fixing the self-locking pressing sheet.

Preferably, the heat-insulating layer is made of EPS polystyrene board, XPS extruded sheet, PUR polyurethane board, silicon board or rock wool board.

Preferably, patterns or decorative materials are arranged on the surfaces of the ceramsite concrete layer or the cement mortar layer.

The utility model discloses following beneficial effect has:

(1) the utility model discloses a decorate heat preservation integration haydite concrete board, built-in heat preservation, the surface is haydite concrete layer and/or cement mortar layer, and its unit weight is 800 and gives other 1200kg/m³The concrete has a volume weight of 1/3-1/2, and the density of the heat-insulating layer is 25-35kg/m³The self weight of the plate body can be greatly reduced, the self weight of the building is reduced, and the self weight of the building is light;

(2) the thickness of the built-in heat preservation layer of the utility model can meet the design index of general areas and severe cold areas only by adjusting the design thickness of the heat preservation layer according to the design requirements of energy conservation and heat preservation of buildings in different areas, can achieve the requirement of more than 75 percent of energy conservation of buildings, and has the characteristics of flexible application and meeting the design requirements of energy conservation and heat preservation in severe cold areas; the outer surface layer is covered and wrapped by a ceramsite concrete and/or cement mortar layer made of inorganic materials, and the fireproof sound-insulation ceramic tile has the remarkable effects of ageing resistance, durability, fire resistance and sound insulation.

(3) The utility model discloses a broach structure and broach steel bar short column of heat preservation stretch into in the haydite concrete, closely firmly anchor together with haydite concrete layer, the horn mouth form that the broach tip formed increases bond stress and stretching resistance, and broach steel bar short column connects the upper and lower layer reinforcing bar, presss from both sides the heat preservation closely in the middle, and dual structure anchor measures prevents the fracture and the drop of heat preservation effectively, ensures safe and reliable;

(4) the decorative and heat-preservation integrated ceramsite concrete plate has the advantages that the surface layer is provided with the pattern patterns and the decorative materials, the heat-preservation layer is arranged in the ceramsite concrete plate, the ceramsite concrete plate is processed and cast into a whole at one time, the purpose of decoration and heat-preservation integration is realized, the inner side of the ceramsite concrete plate is smooth and flat without plastering a cement mortar leveling layer, the design and construction requirements of the outer wall body are finished at one time, a plurality of construction procedures of outer wall dry hanging and pasting of the decorative surface layer, outer wall heat preservation, wall plastering and the like are reduced;

(5) the decoration and heat preservation integrated ceramsite concrete plate has the characteristics of large size specification, meets the requirement of layer height and bay size change, realizes the purposes of decoration and heat preservation integration of outer walls and seamless wall by one bay and fills the blank in the industry;

(6) the decorative and thermal insulation integrated ceramsite concrete plate is provided with stressed steel bar meshes on two sides, comb steel bar short columns with a pulling effect in the plate thickness direction, and an alkali-resistant glass fiber net layer on the surface layer of the thermal insulation layer, so that the shearing resistance of the plate body is enhanced, the plane rigidity and strength of the plate body and the rigidity and strength of the whole structure of the plate body are improved, and the decorative and thermal insulation integrated ceramsite concrete plate has good deformation capability and anti-seismic performance;

(7) the utility model discloses a decorate heat preservation integration haydite concrete board, multinomial process and performance are as an organic whole, and are with low costs, and production simple process can realize the industrial standardization production.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a structural diagram of a comb-shaped steel bar framework;

FIG. 3 is a schematic view of a self-locking press cap;

FIG. 4 is one of the schematic structural views of the self-locking connector;

FIG. 5 is a second schematic view of the self-locking connector;

FIG. 6 is a schematic structural view of example 2;

FIG. 7 is a schematic structural view of the insulation layer of example 3;

FIG. 8 is a schematic structural view of example 4;

FIG. 9 is a second schematic structural view of the embodiment 4;

wherein the figures include the following reference numerals: 1. a comb-shaped steel bar framework; 11. a bottom layer reinforcing mesh sheet; 12. an upper layer of steel mesh; 13. comb tooth steel bar short columns; 14. horizontal reinforcing steel bars; 2. a ceramsite concrete layer; 3. a heat-insulating layer; 4. a self-locking pressure cap; 41. pressing a plate; 42. a connecting pipe; 5. a self-locking connector; 51. self-locking tabletting; 52. a big head cap; 53. a nail rod; 54. tail feather; 6. a cement mortar layer.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 1, the decoration and heat preservation integrated ceramsite concrete prefabricated plate of the utility model comprises a comb tooth steel bar framework 1, a ceramsite concrete layer 2 and a heat preservation layer 3;

as shown in fig. 2, the comb-tooth reinforcement framework comprises a bottom reinforcement mesh 11 and an upper reinforcement mesh 12, wherein a plurality of comb-tooth reinforcement short columns 13 are vertically arranged on the bottom reinforcement mesh 11, horizontal reinforcements 14 are fixed on the comb-tooth reinforcement short columns 13 at the edge of the bottom reinforcement mesh 11, the horizontal reinforcements at the four sides enclose a closed frame, and the upper reinforcement mesh is fixedly connected with the horizontal reinforcements; the bottom layer reinforcing mesh sheet 11 and the upper layer reinforcing mesh sheet 12 are in asymmetric structures.

A ceramsite concrete layer 2 is poured at the bottom of the comb tooth steel bar framework 1, and the heat insulation layer 3 is positioned above the ceramsite concrete layer 2; the upper layer reinforcing mesh 12 is positioned above the heat-insulating layer 3.

The heat preservation layer 3 is provided with through holes corresponding to the comb-tooth short steel bars 13, and the comb-tooth short steel bars 13 sequentially penetrate through the ceramsite concrete layer 2 and the heat preservation layer 3; self-locking pressure cap 4 is still installed at broach steel bar short column 13 top for compress tightly upper reinforcing bar net piece, haydite concrete layer and heat preservation, as shown in fig. 3, self-locking pressure cap 4 includes clamp plate 41 and connecting pipe 42, and it is stupefied that the inner wall of connecting pipe 42 is provided with the pawl, and during steel bar short column inserted the connecting pipe, the pawl stupefied pins steel bar short column, and the clamp plate compresses tightly upper reinforcing bar net piece.

A plurality of self-locking connecting pieces 5 are arranged in the heat preservation layer 3, the self-locking connecting pieces 5 penetrate through the heat preservation layer 3 to form comb-tooth shapes on the surface of the heat preservation layer 3, and the heat preservation layer 3 is connected with the ceramsite concrete layer 2 through the self-locking connecting pieces 5.

In this embodiment, auto-lock connecting piece 5 is one-way connecting piece, including bull plastics drift and auto-lock preforming 51, the bull plastics drift includes bull cap 52 and nail pole 53, the afterbody of nail pole is provided with tail feather 54, the nail pole passes heat preservation 3, auto-lock preforming 51 is fixed on the part that nail pole 53 passes heat preservation 3, it is stupefied to be provided with the pawl on the nail pole for fixed auto-lock preforming, bull cap 52 and auto-lock preforming 51 press from both sides heat preservation 3 tightly, the tail feather inserts in haydite concrete layer 2.

The heat-insulating layer is made of EPS polystyrene board, XPS extruded sheet, PUR polyurethane board, silicon board or rock wool board.

The production process of the ceramsite concrete prefabricated plate comprises the following steps:

the first step is as follows: preparing a mould on a production processing platform, putting a bottom mould lining plate with patterns or a bottom mould lining plate with grooves on the inner bottom surface of the mould, embedding decorative materials in the grooves, and putting the prepared bottom layer reinforcing mesh sheet in the mould after correction and fixation; decorative material can be arranged in the groove according to requirements during subsequent decoration

The second step is that: pouring ceramsite concrete, flattening and slightly vibrating to enable the surface layer to be in a horizontal state;

the third step: inserting the self-locking connecting piece on the heat-insulating layer, installing the self-locking pressing sheet, clamping the heat-insulating layer by the big head cap and the self-locking pressing sheet, and cutting the tail feather to form a horn mouth shape;

the fourth step: placing the heat-insulating layer on a ceramsite concrete layer, enabling the nail rod to face downwards, inserting tail feathers into the ceramsite concrete layer, inserting the short comb steel bar columns into through holes reserved on the heat-insulating layer, and injecting cement mortar into the through holes; the tail feather can increase the bond force with the concrete and the resistance to plucking.

The fifth step: installing an upper layer of reinforcing mesh, and fixedly connecting the upper layer of reinforcing mesh with the horizontal reinforcing steel bars;

and a sixth step: a self-locking pressing cap is arranged at the top of the comb-tooth short steel bar column, the connecting pipe is sleeved on the comb-tooth short steel bar column, and the upper layer steel bar net piece is pressed;

the seventh step: performing secondary vibration until the ceramsite concrete and the cement mortar in the through hole are compacted;

eighth step: performing steam curing → drawing out of a kiln → demoulding → cleaning → inspection and detection → qualification → leaving factory to obtain the decorative and heat-preservation integrated ceramsite concrete plate with patterns or decorative materials on one surface.

The outer surface of the heat insulation layer can be further wrapped with an alkali-resistant glass fiber net, the alkali-resistant glass fiber net is tightly combined with ceramsite concrete, a skin effect is formed after hardening, the rigidity and the strength of a surface layer of the heat insulation plate are increased, the integrity of the heat insulation plate is also increased, and the heat insulation plate is better combined with the ceramsite concrete or cement mortar.

Example 2

As shown in fig. 6, the present embodiment is different from embodiment 1 in that a layer of ceramsite concrete is further poured above the insulating layer, that is, the insulating layer is located between two layers of ceramsite concrete. The upper layer steel mesh is positioned above the upper layer ceramsite concrete layer.

The self-locking connecting piece is a bidirectional connecting piece and comprises a self-locking pressing piece 51 and a nail rod 53, tail feathers 54 are arranged at two ends of the nail rod, the nail rod penetrates through the heat insulation layer, the self-locking pressing piece is fixed at two ends of the nail rod penetrating through the heat insulation layer and clamps the heat insulation layer, and the tail feathers at two ends of the nail rod are respectively inserted into the ceramsite concrete layers at two sides.

The production process of the ceramsite concrete prefabricated plate comprises the following steps:

the first step is as follows: preparing a mould on a production processing platform, putting a bottom mould lining plate with patterns or a bottom mould lining plate with a groove on the inner bottom surface of the mould, embedding decorative materials in the groove, and putting a prepared bottom layer reinforcing mesh sheet in the mould after correction and fixation;

the second step is that: pouring ceramsite concrete, flattening and slightly vibrating to enable the surface layer to be in a horizontal state;

the third step: inserting the self-locking connecting piece on the heat-insulating layer, installing the self-locking pressing sheets to enable the extending lengths of the nail rods at the two ends to be the same, clamping the heat-insulating layer by the self-locking pressing sheets, and cutting the tail feathers at the two ends to enable the tail feathers to be in a horn mouth shape;

the fourth step: placing the heat-insulating layer on a ceramsite concrete layer, inserting tail feathers below the heat-insulating layer into the ceramsite concrete layer, and inserting the comb-tooth steel bar short columns into through holes reserved on the heat-insulating layer;

the fifth step: installing an upper layer of reinforcing mesh, and fixedly connecting the upper layer of reinforcing mesh with the horizontal reinforcing steel bars;

and a sixth step: pouring the ceramsite concrete on the upper layer for the second time, flattening and slightly vibrating to enable the surface layer to be in a horizontal state;

the seventh step: installing a steel wire mesh (or an alkali-resistant glass fiber net), tightening and fixing the periphery on a horizontal steel bar, installing a self-locking pressure cap at the top of a short comb-shaped steel bar column, sleeving a connecting pipe on the short comb-shaped steel bar column, pressing the steel wire mesh (or the alkali-resistant glass fiber net), and repeatedly rolling by using a compression roller to embed the steel wire mesh (or the alkali-resistant glass fiber net) into cement mortar overflowing from a ceramsite concrete layer; the steel wire mesh (or the alkali-resistant glass fiber net) is arranged on the uppermost layer, so as to prevent the ceramsite from floating upwards, and form a skin structure together with the overflowed cement mortar after being hardened into a whole;

and eighth step, vibrating for 5-15 seconds, confirming that no ceramsite particles float upwards on the surface layer, ensuring that overflowed cement mortar is uniform, and scraping the surface after standing.

The ninth step: performing steam curing → drawing out of a kiln → demoulding → cleaning → inspection and detection → qualification → leaving factory to obtain the decorative and heat-preservation integrated ceramsite concrete plate with patterns or decorative materials on one surface.

Example 3

The difference between this embodiment and embodiment 2 is that the self-locking connector in this embodiment for connecting the insulating layer and the ceramsite concrete layer is the one-way connector in embodiment 1, and as shown in fig. 7, the one-way connectors are arranged in a staggered manner in opposite directions, so that tail feathers are arranged on both sides of the insulating layer, and the connection with the ceramsite concrete layers on both sides can be realized. The rest is the same as in example 2.

Example 4

The difference between this embodiment and embodiment 1 is that a cement mortar layer is further disposed above the insulating layer, and the insulating layer is located between the ceramsite concrete layer and the cement mortar layer.

The structure is divided into two conditions during processing, wherein the first condition is that a cement mortar layer is arranged at the bottom, so that the finally obtained decorative pattern or decorative material of the decorative and heat-preservation integrated ceramsite concrete plate is arranged on the surface of the cement mortar layer; as shown in figure 8 of the drawings,

the production flow is as follows:

the first step is as follows: preparing a mould on a production processing platform, putting a bottom mould lining plate with patterns or a bottom mould lining plate with a groove on the inner bottom surface of the mould, embedding decorative materials in the groove, and putting a prepared bottom layer reinforcing mesh sheet in the mould after correction and fixation;

the second step is that: pouring cement mortar, flattening and slightly vibrating to enable the surface layer to reach a horizontal state;

the third step: inserting the one-way self-locking connecting piece on the heat-insulating layer, installing the self-locking pressing sheet, and cutting the tail feather at the end part to form a horn mouth shape;

the fourth step: placing the heat-insulating layer on the cement mortar layer, enabling the nail rod to be upward, and enabling the comb-tooth steel bar short column to be inserted into a through hole reserved in the heat-insulating layer;

the fifth step: installing an upper layer of reinforcing mesh, and fixedly connecting the upper layer of reinforcing mesh with the horizontal reinforcing steel bars;

and a sixth step: pouring the ceramsite concrete on the upper layer, wrapping the tail feather inside, flattening and slightly vibrating to enable the surface layer to be in a horizontal state;

the seventh step: installing a steel wire mesh (or an alkali-resistant glass fiber net), tightening and fixing the periphery on a horizontal steel bar, installing a self-locking pressure cap at the top of a short comb-shaped steel bar column, sleeving a connecting pipe on the short comb-shaped steel bar column, pressing the steel wire mesh (or the alkali-resistant glass fiber net), and repeatedly rolling by using a compression roller to embed the steel wire mesh (or the alkali-resistant glass fiber net) into cement mortar overflowing from a ceramsite concrete layer;

and eighth step, vibrating for 5-15 seconds, confirming that no ceramsite particles float upwards on the surface layer, ensuring that overflowed cement mortar is uniform, and scraping the surface after standing.

The ninth step: performing steam curing → drawing out of a kiln → demoulding → cleaning → inspection and detection → qualification → leaving factory to obtain the decorative and heat-preservation integrated ceramsite concrete plate with patterns or decorative materials on one surface.

The second is that the ceramsite concrete layer is arranged at the bottom, so that the decorative patterns or the grooves of the finally obtained decorative heat-preservation integrated ceramsite concrete plate are arranged on the surface of the ceramsite concrete layer. As shown in fig. 9.

The production flow is as follows:

the first step is as follows: preparing a mould on a production processing platform, putting a bottom mould lining plate with patterns or a bottom mould lining plate with a groove on the inner bottom surface of the mould, embedding decorative materials in the groove, and putting a prepared bottom layer reinforcing mesh sheet in the mould after correction and fixation;

the second step is that: pouring ceramsite concrete, flattening and slightly vibrating to enable the surface layer to be in a horizontal state;

the third step: inserting the one-way self-locking connecting piece on the heat-insulating layer, installing the self-locking pressing sheet, and cutting the tail feather at the end part to form a horn mouth shape;

the fourth step: placing the heat-insulating layer on a ceramsite concrete layer, enabling the nail rod to face downwards, inserting tail feathers into the ceramsite concrete layer, and inserting the short comb-tooth steel bar columns into through holes reserved on the heat-insulating layer;

the fifth step: installing an upper layer of reinforcing mesh, and fixedly connecting the upper layer of reinforcing mesh with the horizontal reinforcing steel bars;

and a sixth step: pouring upper layer cement slurry, flattening, vibrating for 5-10 seconds, and scraping the surface after standing;

the seventh step: performing steam curing → drawing out of a kiln → demoulding → cleaning → inspection and detection → qualification → leaving factory to obtain the decorative and heat-preservation integrated ceramsite concrete plate with patterns or decorative materials on one surface.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The decorative heat-preservation integrated ceramsite concrete prefabricated plate is characterized by comprising a comb tooth steel bar framework (1), a ceramsite concrete layer (2) and a heat preservation layer (3);

the comb-tooth steel bar framework (1) comprises a bottom steel bar net piece (11) and an upper steel bar net piece (12), a plurality of comb-tooth steel bar short columns (13) are vertically arranged on the bottom steel bar net piece (11), horizontal steel bars (14) are fixed on the comb-tooth steel bar short columns (13) positioned at the edge of the bottom steel bar net piece (11), the horizontal steel bars (14) surround to form a closed frame, and the upper steel bar net piece (12) is fixedly connected with the horizontal steel bars (14);

a ceramsite concrete layer (2) is poured in the comb tooth steel bar framework (1), and the heat insulation layer (3) is positioned above the ceramsite concrete layer (2);

the heat-insulating layer (3) is provided with through holes corresponding to the comb-tooth short steel bars (13), and the comb-tooth short steel bars (13) sequentially penetrate through the ceramsite concrete layer (2) and the heat-insulating layer (3);

a plurality of self-locking connecting pieces (5) are arranged in the heat-insulating layer (3), the self-locking connecting pieces (5) penetrate through the heat-insulating layer (3) to form comb-tooth shapes on the surface of the heat-insulating layer (3), and the heat-insulating layer (3) is connected with the ceramsite concrete layer (2) through the self-locking connecting pieces (5).

2. The decorative and thermal insulation integrated ceramsite concrete prefabricated plate according to claim 1, wherein a cement mortar layer (6) is arranged above the thermal insulation layer (3), and the thermal insulation layer (3) is located between the ceramsite concrete layer (2) and the cement mortar layer (6).

3. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 1, wherein a ceramsite concrete layer (2) is further arranged above the heat-preservation layer (3), and the heat-preservation layer (3) is located between the two ceramsite concrete layers (2).

4. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 2, wherein the self-locking connector (5) is a one-way connector and comprises a large-head plastic through nail and a self-locking pressing sheet (51), the large-head plastic through nail comprises a large-head cap (52) and a nail rod (53), tail feathers (54) are arranged at the tail of the nail rod (53), the nail rod (53) penetrates through the heat-preservation layer (3), the self-locking pressing sheet (51) is fixed on the nail rod (53) penetrating through the heat-preservation layer (3), the large-head cap (52) and the self-locking pressing sheet (51) clamp the heat-preservation layer (3), and the tail feathers (54) are inserted into the ceramsite concrete layer (2).

5. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 3, wherein the self-locking connecting piece (5) is a two-way connecting piece and comprises a nail rod (53) and a self-locking pressing piece (51), tail feathers (54) are arranged at two ends of the nail rod (53), the nail rod (53) penetrates through the heat-preservation layer (3), the self-locking pressing piece (51) is fixed at two ends of the nail rod (53) penetrating through the heat-preservation layer (3) and clamps the heat-preservation layer (3), and the tail feathers (54) at two ends of the nail rod (53) are respectively inserted into the ceramsite concrete layers (2) at two sides.

6. The decorative heat-insulation integrated ceramsite concrete prefabricated plate as claimed in claim 1, wherein a self-locking pressing cap (4) is further mounted at the top of the comb-shaped steel bar short column (13), the self-locking pressing cap (4) comprises a pressing plate (41) and a connecting pipe (42), an inverted tooth rib is arranged on the inner wall of the connecting pipe (42), the steel bar short column is inserted into the connecting pipe (42), the inverted tooth rib locks the steel bar short column, and the pressing plate (41) presses the upper layer steel bar net sheet (12).

7. The decorative heat-insulation integrated ceramsite concrete prefabricated plate as claimed in claim 1, wherein the outer surface of the heat-insulation layer (3) is wrapped with an alkali-resistant glass fiber net.

8. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 4 or 5, wherein inverted tooth ridges are arranged on the nail rod (53) and used for fixing the self-locking pressing plate (51).

9. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 1, wherein the heat-preservation layer (3) is made of EPS polystyrene board, XPS extruded board, PUR polyurethane board, silica board or rock wool board.

10. The decorative heat-preservation integrated ceramsite concrete prefabricated plate as claimed in claim 1, 2 or 3, wherein patterns or decorative materials are arranged on the surface of the ceramsite concrete layer (2) or the cement mortar layer (6).

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