CN221073291U - Assembled external wall insulation board - Google Patents

Abstract

The utility model discloses an assembled outer wall insulation board, which belongs to the technical field of insulation wallboard, and comprises insulation board bodies and connecting assemblies, wherein the connecting assemblies are arranged between two adjacent insulation board bodies, the insulation board bodies are fixed by means of the connecting assemblies, and inserted bars are inserted between the connecting assemblies and the insulation board bodies. The utility model effectively avoids the phenomenon of cold and hot bridges between two adjacent heat insulation board bodies, and ensures that the spliced part can be insulated.

Description

Assembled external wall insulation board

Technical Field

The utility model belongs to the technical field of heat preservation wallboards, and particularly relates to an assembled external wall heat preservation board.

Background

The outer surface of the existing building is usually stuck with a layer of heat insulation board, an outer wall heat insulation board, also called a horizon building outer wall decoration integrated board.

Various external wall heat-insulating boards appear in the market at present, and along with the continuous popularization and utilization of an assembled concrete structure in the building industry, various problems can appear in the traditional external wall heat-insulating boards when the traditional external wall heat-insulating boards are applied to assembled houses. Especially, the prefabricated outer wall is assembled in a blocking way, and the waterproof and heat preservation of the connecting joint become the difficulty and the key point of the construction link. Moreover, the prior assembled building external wall board in China mainly adopts wall body sandwich heat preservation, and a heat preservation layer is arranged between an inner wall and an outer wall during production of an assembled module factory, and the heat preservation form cannot prevent cold and hot bridge phenomena of assembled building floors, module connection parts and the like because the heat preservation form cannot wrap the floor and the module connection parts, so that the splicing parts even influence the moisture and mildew phenomena of the whole wall, influence living and have great later maintenance difficulty.

Disclosure of utility model

The utility model aims to provide an assembled external wall insulation board, which solves the problems that cold and hot bridge phenomena are easy to occur at the joint of modules of an external wall board of an assembled building, the joint is even affected, the whole wall is wet and moldy, living is affected, and the later maintenance difficulty is high.

The utility model provides an assembled external wall heated board, includes heated board body, coupling assembling, is equipped with coupling assembling between two adjacent heated board bodies and with the help of coupling assembling is fixed the heated board body, coupling assembling with still peg graft between the heated board body has the inserted bar.

Preferably, the connecting assembly comprises a connecting plate, T-shaped grooves are formed in two sides of the heat-insulating plate body, the T-shaped grooves are respectively formed in the first T-shaped groove and the second T-shaped groove, two T-shaped parts are symmetrically arranged on one side of the connecting plate, the T-shaped parts are respectively formed in the first T-shaped part and the second T-shaped part, the connecting plate covers the surface of the connecting position of the two adjacent heat-insulating plate bodies, the first T-shaped part and the second T-shaped part are respectively inserted into the first T-shaped groove and the second T-shaped groove of the two adjacent heat-insulating plate bodies, a heat-insulating gas cushion layer is further arranged in the middle of the connecting plate, and two sides of the heat-insulating gas cushion layer are respectively abutted against the surface of the two adjacent heat-insulating plate bodies.

Preferably, a plurality of grooves are formed in the two sides of the heat-insulating plate body along the height direction of the heat-insulating plate body, the grooves in the two sides are respectively communicated with the first T-shaped groove and the second T-shaped groove, an inserting rod is connected in the grooves in a sliding mode, one end of the inserting rod protrudes out of the heat-insulating plate body, inserting holes corresponding to the inserting rod are formed in the first T-shaped part and the second T-shaped part, the inserting rod is extruded after the heat-insulating air cushion layer is inflated, so that the inserting rod is inserted into the inserting holes, and a spring is wound on the inserting rod.

Preferably, an inflation inlet is arranged on the surface of the connecting plate, and the inflation inlet is communicated with the heat-insulation air cushion layer.

Preferably, an insulation interlayer is arranged in the insulation board body, the edge of the connecting board extends to the insulation interlayer, an insulation pad is arranged on one side, close to the insulation board body, of the connecting board, and the insulation pad is attached to the insulation board body.

The utility model has the following advantages:

when the heat-insulating board is actually spliced, firstly, the adjacent two heat-insulating board bodies are aligned, the T-shaped part I and the T-shaped part II on the connecting board are respectively inserted into the T-shaped groove I and the T-shaped groove II of the adjacent two heat-insulating board bodies, so that the connecting board is covered between the adjacent two heat-insulating board bodies, two sides of the heat-insulating air cushion layer in the middle of the connecting board are respectively abutted against the surfaces of the adjacent two heat-insulating board bodies, on one hand, the heat-insulating air cushion layer can be filled with uneven surfaces of the heat-insulating board bodies after being inflated, rainwater is prevented from being in transitional contact with the heat-insulating board bodies, on the other hand, the heat-insulating air cushion layer also has a certain heat-insulating effect, the heat-insulating effect of the joint is enhanced, the phenomenon of cold and hot bridges is avoided, and the inserted rod on the heat-insulating board body is simultaneously pushed to be inserted into the T-shaped part I and the T-shaped part II when the heat-insulating air cushion layer is inflated, and the connectivity between the connecting component and the heat-insulating board bodies can be enhanced. The utility model effectively avoids the phenomenon of cold and hot bridges between two adjacent heat insulation board bodies, and ensures that the spliced part can be insulated.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of the structure at another angle of the present utility model;

Fig. 3 is a schematic view of a partial structure of an insulation board body according to the present utility model.

Wherein:

1. a thermal insulation board body; 10. a heat preservation interlayer; 11. a T-shaped groove I; 12. t-shaped groove II;

2. A connection assembly; 20. a connecting plate; 21. a T-shaped part I; 22. a T-shaped part II; 23. a heat-preserving gas cushion layer; 24. a rod; 25. a groove; 26. a jack; 27. a stop block; 28. a spring; 29. and an air charging port.

Detailed Description

The following detailed description of the embodiments of the utility model, given by way of example only, is presented in the accompanying drawings to aid in a more complete, accurate, and thorough understanding of the inventive concepts and aspects of the utility model by those skilled in the art.

The assembled outer wall insulation board as shown in fig. 1-3 comprises insulation board bodies 1 and connecting assemblies 2, wherein the connecting assemblies 2 are arranged between two adjacent insulation board bodies 1, the insulation board bodies 1 are fixed by means of the connecting assemblies 2, and inserting rods 24 are inserted between the connecting assemblies 2 and the insulation board bodies 1.

The connecting assembly 2 comprises a connecting plate 20, T-shaped grooves are formed in two sides of the heat-insulating plate body 1, the T-shaped grooves are respectively formed in the first 11 and the second 12 of the T-shaped grooves, two T-shaped parts are symmetrically arranged on one side of the connecting plate 20, the T-shaped parts are respectively formed in the first 21 and the second 22 of the T-shaped parts, the connecting plate 20 covers the surface of the joint of the two adjacent heat-insulating plate bodies 1, the first 21 and the second 22 of the T-shaped parts are respectively inserted into the first 11 and the second 12 of the T-shaped grooves of the two adjacent heat-insulating plate bodies 1, a heat-insulating air cushion layer 23 is further arranged in the middle of the connecting plate 20, and two sides of the heat-insulating air cushion layer 23 are respectively abutted against the surfaces of the two adjacent heat-insulating plate bodies 1.

When in actual splicing, firstly, the adjacent two heat-insulating plate bodies 1 are aligned, the T-shaped part I21 and the T-shaped part II 22 on the connecting plate 20 are respectively inserted into the T-shaped groove I11 and the T-shaped groove II 12 of the adjacent two heat-insulating plate bodies 1, therefore, the connecting plate 20 is covered between the adjacent two heat-insulating plate bodies 1, two sides of the heat-insulating cushion layer 23 in the middle of the connecting plate 20 are respectively abutted against the surfaces of the adjacent two heat-insulating plate bodies 1, on one hand, the heat-insulating cushion layer 23 can be filled in the uneven surface of the heat-insulating plate bodies 1 after being inflated, rainwater is prevented from being in transitional contact with the heat-insulating plate bodies 1, on the other hand, the heat-insulating cushion layer 23 also has a certain heat-insulating effect, the heat-insulating effect of the connecting part is enhanced, and cold and hot bridge phenomena are avoided.

The insulation board comprises a heat insulation board body 1, wherein a plurality of grooves 25 are formed in the two sides of the heat insulation board body 1 along the height direction of the heat insulation board body, the grooves 25 in the two sides are respectively communicated with a first T-shaped groove 11 and a second T-shaped groove 12, a plug rod 24 is connected in a sliding mode in the grooves 25, one end of the plug rod 24 protrudes out of the heat insulation board body 1, insertion holes 26 corresponding to the plug rod 24 are formed in the first T-shaped part 21 and the second T-shaped part 22, the plug rod 24 is extruded after the heat insulation cushion layer 23 is inflated, so that the plug rod 24 is inserted into the insertion holes 26, and a spring 28 is wound on the plug rod 24.

The size of the groove is larger than that of the inserted link 24, so as shown in fig. 3, the two sides of the groove are provided with the stop blocks 27, the inserted link 24 is wound with the spring 28, one end of the inserted link 24 is provided with the pressing block, two ends of the spring 28 are limited between the pressing block and the stop block 27 far away from the pressing block, when the insulating gas cushion layer 23 is inflated to squeeze the inserted link 24, the inserted link 24 can slide in the groove 25, so that the inserted link 24 can be inserted into the jack 26, the fixation of the T-shaped part 21 and the T-shaped part 22 is realized, the connection of the inserted link and the insulating board body 1 is tighter, and the separation of the T-shaped part and the T-shaped part is avoided.

An inflation inlet 29 is formed in the surface of the connecting plate 20, and the inflation inlet 29 is communicated with the heat-insulating air cushion layer 23.

The air charging opening 29 can charge air into the heat insulation air cushion layer 23 to expand the heat insulation air cushion layer, or can discharge air by means of the air charging opening 29 to disperse air in the heat insulation air cushion layer 23, and can reduce connectivity between two adjacent heat insulation board bodies 1, so that the connecting board 20 can be taken out conveniently.

The inside of heated board body 1 is equipped with heat preservation intermediate layer 10, the edge of connecting plate 20 extends to heat preservation intermediate layer 10 department, connecting plate 20 is close to one side of heated board body 1 is equipped with the heat preservation pad, the heat preservation pad with heated board body 1 pastes mutually.

The edge of the connecting plate 20 extends to the heat insulation interlayer 10, so that the heat insulation points are not broken at the heat insulation interlayer 10, and the heat insulation pad functions to strengthen the heat insulation function.

Working principle: when in actual splicing, firstly, the adjacent two heat-insulating plate bodies 1 are aligned, the T-shaped part 21 and the T-shaped part 22 on the connecting plate 20 are respectively inserted into the T-shaped groove 11 and the T-shaped groove 12 of the adjacent two heat-insulating plate bodies 1, thereby the connecting plate 20 is covered between the adjacent two heat-insulating plate bodies 1, two sides of the heat-insulating cushion layer 23 in the middle of the connecting plate 20 are respectively abutted against the surfaces of the adjacent two heat-insulating plate bodies 1, on one hand, the heat-insulating cushion layer 23 can be filled in the uneven surface of the heat-insulating plate bodies 1 after being inflated, rainwater is prevented from being in transitional contact with the heat-insulating plate bodies 1, on the other hand, the heat-insulating cushion layer 23 also has a certain heat-insulating effect, the heat-insulating effect of the connecting plate bodies 1 is enhanced, the cold-hot bridge phenomenon is avoided, the size of the groove is larger than that of the insert rod 24, therefore, as shown in fig. 3, the two sides of the groove are provided with the stop blocks 27, the insert rod 24 is wound with springs 28, one ends of the insert rod 24 are provided with pressing blocks, the two ends of the springs 28 are limited between the pressing blocks and the two ends of the pressing blocks 27 are far away from the heat-insulating cushion layer 27, and the heat-insulating cushion layer 24 can be fixed in the T-insulating plate bodies 24, and the two insert rod bodies 22 are prevented from being connected with the T-insulating cushion layer 24 in a certain position, and the two-insulating cushion layer 24 can be more tightly separated from the heat-insulating plate bodies 1, and can be connected with the insert into the insert rod 24, and can be more tightly and the heat-insulating plate body 1.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the utility model is not limited to the above embodiments, but is capable of being modified or applied to other applications without modification, as long as various insubstantial modifications of the inventive concept and technical solutions are adopted, all within the scope of the utility model.

Claims (4)

1. An assembled exterior wall insulation board which is characterized in that: the heat-insulating plate comprises heat-insulating plate bodies (1) and connecting assemblies (2), wherein the connecting assemblies (2) are arranged between two adjacent heat-insulating plate bodies (1) and are used for fixing the heat-insulating plate bodies (1) by means of the connecting assemblies (2), and inserting rods (24) are inserted between the connecting assemblies (2) and the heat-insulating plate bodies (1);

The connecting assembly (2) comprises a connecting plate (20), T-shaped grooves are formed in two sides of the heat-insulating plate body (1), the T-shaped grooves are respectively formed in a first T-shaped groove (11) and a second T-shaped groove (12), two T-shaped parts are symmetrically arranged on one side of the connecting plate (20), the T-shaped parts are respectively a first T-shaped part (21) and a second T-shaped part (22), the connecting plate (20) covers the surface of the joint of the two adjacent heat-insulating plate bodies (1), the first T-shaped part (21) and the second T-shaped part (22) are respectively inserted into the first T-shaped groove (11) and the second T-shaped groove (12) of the two adjacent heat-insulating plate bodies (1), a heat-insulating air cushion layer (23) is further arranged in the middle of the connecting plate (20), and two sides of the heat-insulating air cushion layer (23) are respectively abutted against the surfaces of the two adjacent heat-insulating plate bodies (1).

2. The fabricated exterior wall insulation board of claim 1, wherein: the heat preservation board is characterized in that a plurality of grooves (25) are formed in the two sides of the heat preservation board body (1) along the height direction of the heat preservation board body, the grooves (25) in the two sides are respectively communicated with the first T-shaped groove (11) and the second T-shaped groove (12), a plug rod (24) is connected in the grooves (25) in a sliding mode, one end of the plug rod (24) protrudes out of the heat preservation board body (1), insertion holes (26) corresponding to the plug rod (24) are formed in the first T-shaped part (21) and the second T-shaped part (22), the plug rod (24) is extruded after the heat preservation air cushion layer (23) is inflated, so that the plug rod (24) is inserted into the insertion holes (26), and a spring (28) is wound on the plug rod (24).

3. The fabricated exterior wall insulation board of claim 2, wherein: an inflation inlet (29) is formed in the surface of the connecting plate (20), and the inflation inlet (29) is communicated with the heat-insulation air cushion layer (23).

4. A fabricated exterior wall insulation panel according to claim 3, wherein: the inside of heated board body (1) is equipped with heat preservation intermediate layer (10), the edge of connecting plate (20) extends to heat preservation intermediate layer (10) department, connecting plate (20) are close to one side of heated board body (1) is equipped with the heat preservation pad, the heat preservation pad with heated board body (1) pastes mutually.