CN210152052U

CN210152052U - Compound heat preservation side fascia of assembled frame construction

Info

Publication number: CN210152052U
Application number: CN201920561824.4U
Authority: CN
Inventors: 王嘉轩
Original assignee: Beijing Wanhong Innovation Energy Conservation And Environmental Protection Technology Co Ltd
Current assignee: Beijing Wanhong Innovation Energy Conservation And Environmental Protection Technology Co Ltd
Priority date: 2019-04-23
Filing date: 2019-04-23
Publication date: 2020-03-17
Anticipated expiration: 2029-04-23

Abstract

The utility model belongs to the technical field of building insulation material, a compound heat preservation side fascia of assembled frame construction is disclosed. The composite heat-insulating external wall panel comprises a wall body layer, a heat-insulating layer, an anti-cracking protective layer and a decorative surface layer, wherein the wall body layer, the heat-insulating layer, the anti-cracking protective layer and the decorative surface layer are sequentially connected. The heat-insulating external wall panel is formed by combining all layers of components in a simple and stable connection mode, and all layers of components are tightly connected, so that the stability between the wall body and all layers of components is ensured. The assembly process steps of this heat preservation side fascia are simple and clear, and the work progress is simple and convenient, and is fast, the time is short, has not only satisfied the heat preservation demand of concrete frame structure and steel frame structure building class, has strengthened fire behavior, has improved the heat preservation effect of wall body, has reached high-efficient heat preservation and energy-conserving purpose, has reduced construction noise, dust pollution, building rubbish stack and sewage discharge moreover, energy saving and consumption reduction, has very big practicality and very high implementation nature.

Description

Compound heat preservation side fascia of assembled frame construction

Technical Field

The utility model belongs to the technical field of building insulation material, concretely relates to compound heat preservation side fascia of assembled frame construction.

Background

With the continuous improvement of the national requirements for the use of green buildings and green building materials, the purposes of saving resources (energy, land, water and materials) to the maximum extent, protecting the environment and reducing pollution are realized in the whole life cycle of the buildings, the urban and rural construction mode and the development mode of the construction industry are changed practically, the resource utilization efficiency is improved, and the buildings which are harmoniously symbiotic with the nature are constructed. At present, the assembly type building is a necessary trend of the development of the modern green energy-saving building. In the period of vigorous popularization and development of assembly type buildings in China, the maintenance of wall bodies outside the frame structure is forced to be developed from small blocks to large blocks and from large blocks to plates. The developed countries in the west gradually changed to boards in the last 90 th century, and the utilization rate of the wallboard in the developed countries reaches 70 percent at present. The assembly of the plate adopts dry operation, and compared with bricks and building blocks, the construction efficiency can be improved by times. The development of modern buildings has higher requirements on the functions of wall materials and the requirements on assembly processes, and the development from wet operation to dry operation can greatly improve the construction efficiency, reduce the self weight of the building and meet the requirements on flexible partition. The development of modern science and technology has higher and higher requirements on materials, the single material is often difficult to meet the requirements of the current country on green energy-saving buildings, and the use of composite materials is highly valued.

The existing external maintenance wall body related to the frame structure is mainly built by building blocks, a large amount of manual operation needs to be carried out on site when the wall body is built, the construction period is long, the efficiency is low, the quality is difficult to be stably and reliably ensured, and the popularization of the assembly type building in China is not facilitated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a composite heat-insulating external wall panel with an assembled frame structure.

The utility model discloses the technical scheme who adopts does: the composite thermal insulation external wall panel with the assembled frame structure comprises a wall body layer, a thermal insulation layer, an anti-cracking protective layer and a decorative surface layer, wherein the wall body layer, the thermal insulation layer, the anti-cracking protective layer and the decorative surface layer are sequentially connected; the wall body layer is provided with at least one connecting piece hole; the anti-cracking protective layer comprises an inner mortar layer, a protective layer, an outer protective layer and at least one connecting piece, the inner mortar layer, the protective layer, the outer protective layer and the connecting pieces are sequentially connected, each connecting piece respectively penetrates through the heat preservation layer and the connecting piece hole to enter the wall body layer, the connecting pieces are arranged outside the protective layer, and the connecting pieces are connected with the protective layer; the outer protective layer is connected with the facing layer.

The utility model provides a compound heat preservation side fascia of this assembled frame construction is formed through utilizing simple and direct and firm connected mode combination between each layer component, zonulae occludens between each layer component to stability between wall body and each layer component has been guaranteed. The composite heat-insulation external wall panel has the advantages of simple steps in the assembly process, simplicity and convenience in construction process, high speed and short time, meets the heat-insulation requirements of concrete frame structures and steel structure frame structure buildings, enhances the fireproof performance, improves the heat-insulation effect of the wall body, achieves the purposes of high-efficiency heat insulation and energy conservation, reduces construction noise, dust pollution, building rubbish stacking and sewage and wastewater discharge, saves energy, reduces consumption, and has great practicability and high practicability.

Preferably, each connecting element comprises a connecting end and a clamping end, the clamping end is arranged perpendicular to the wall layer and inserted into the wall layer, the connecting end is arranged perpendicular to the clamping end, and the connecting end and the clamping end are fixedly connected.

Preferably, the snap-in ends extend through the insulation and connector holes into the wall layer.

Preferably, the outer diameter of the clamping end is not larger than the inner diameter of the connecting piece hole on the wall body layer.

The utility model provides an in this compound heat preservation side fascia be connected each layer component with the wall body layer through the connecting piece, wherein the card is gone into the end and is inserted in the wall body and wall body coupling, is equipped with the link in the card goes into the end vertically direction, and the link is arranged in anti inoxidizing coating that splits, is used for carrying out the fixed of position between anti inoxidizing coating, heat preservation and the wall body layer of splitting, when having guaranteed the stability between each layer component, has reduced the probability of each layer component and wall body layer separation. The clamping end of the connecting piece penetrates through the heat insulation layer and the connecting piece hole from the outer side of the heat insulation layer and then is inserted into the wall body layer, and the connecting piece is used for fixing the heat insulation layer and the wall body layer. The outer diameter of the snap-in end is set to improve the stability of the wall layer.

Preferably, the heat insulation layer comprises at least two heat insulation plates, and each heat insulation plate is fixedly connected with the other heat insulation plate.

Preferably, a plate seam is arranged between any two adjacent heat insulation plates, and the connecting piece hole is formed in the plate seam.

The utility model provides a get heat preservation in this compound heat preservation side fascia and splice by a plurality of heated boards and form, leave the board seam between each heated board at the in-process of concatenation, be used for providing the setting position for the connecting piece hole, this connecting piece hole is used for providing fixed connection for the fixed each layer component of connecting piece.

Preferably, a bonding layer is arranged between the wall body layer and the heat insulation layer, and the wall body layer is fixedly connected with the heat insulation layer through the bonding layer.

The utility model provides an utilize the tie coat to fix between wall body layer and heat preservation in this compound heat preservation side fascia, be used for when guaranteeing that the bonding is firm, reduce the appearance such as gap between each layer component, the wall body weight who has also guaranteed this heat preservation side fascia moreover is less, shortens the assemble duration, reduces the manpower loss.

Preferably, the insulation board in the insulation layer comprises an organic insulation board or an inorganic insulation board; the thickness of the heat insulation layer formed by splicing the heat insulation plates is 10-100 mm.

The utility model provides an in this compound heat preservation side fascia set for heat preservation thickness, be used for not only having reduced the weight of heat preservation component, improved thermal insulation performance moreover, shortened the assemble duration. Preferably, the connecting end is arranged outside the sheathed layer; and embedding the connecting end in the outer protective layer.

Preferably, the protective layer comprises an alkali-resistant fiberglass mesh and/or a steel mesh.

The utility model provides an impact strength and anti-cracking performance that are used for improving the heat preservation system outside to the settlement that adds the sheath in this compound heat preservation side fascia play the guard action to the heat preservation system.

The utility model has the advantages that:

the utility model provides a compound heat preservation side fascia of assembled frame construction, this compound heat preservation side fascia form through utilizing simple and direct and firm connected mode combination between each layer component, zonulae occludens between each layer component to stability between wall body and each layer component has been guaranteed. The composite heat-insulation external wall panel has the advantages of simple steps in the assembly process, simplicity and convenience in construction process, high speed and short time, meets the heat-insulation requirements of concrete frame structures and steel structure frame structure buildings, enhances the fireproof performance, improves the heat-insulation effect of the wall body, achieves the purposes of high-efficiency heat insulation and energy conservation, reduces construction noise, dust pollution, building rubbish stacking and sewage and wastewater discharge, saves energy, reduces consumption, and has great practicability and high practicability.

Drawings

FIG. 1 is a side view of an embodiment of the present invention;

FIG. 2 is a front view of the splicing of the insulation boards of the insulation layer according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of each insulation board of the insulation layer in a specific embodiment of the present invention;

FIG. 4 is a schematic view of a crack resistant armor layer according to an embodiment of the present invention;

FIG. 5 is a schematic view of a connector according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a connector according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 8 is a schematic structural view of embodiment 2 of the present invention.

In the figure: 1-a wall body layer; 2-insulating layer; 3-anti-crack protective layer; 4-a finishing layer; 5-connector holes; 6-inner mortar layer; 7-adding a protective layer; 8-an outer protective layer; 9-a connector; 10-a connection end; 11-card input end; 12-a heat-insulating board; 13-plate seam; 14-a tie layer; 15-tongue and groove; 16-alkali-resistant glass fiber mesh cloth.

Detailed Description

The present invention will be further explained with reference to the following specific examples. It will be understood by those skilled in the art that the following described embodiments are merely illustrative of the present invention and should not be taken as limiting the scope of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a compound heat preservation side fascia of assembled frame construction, this compound heat preservation side fascia include wall body layer 1, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 that splits, and wall body layer 1, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 of splitting connect in order. Be provided with tie coat 14 between wall body layer 1 and heat preservation 3, tie coat 14 is used for fixing between wall body layer 1 and heat preservation 2, reduces the appearance of gap etc. between each layer component, has guaranteed in addition that this heat preservation side fascia's wall body weight is less, shortens assembly time, reduces the manpower loss. The wall body layer 1 is provided with a connector hole 5. The heat preservation layer 2 is formed by splicing a plurality of heat preservation plates 12, and plate seams 13 are reserved between the heat preservation plates 12 in the splicing process. The connecting piece hole 5 is arranged at the plate seam 13.

An anti-cracking protective layer 3 is arranged outside the heat preservation layer 2, the anti-cracking protective layer 3 comprises an inner mortar layer 6, a protective layer 7, an outer protective layer 8 and at least one connecting piece 9, and the inner mortar layer 6, the protective layer 7, the outer protective layer 8 and the connecting piece 9 are connected in sequence. Mortar layer 6 in laying on heat preservation 2 not only is more firm with each heated board 12 in heat preservation 2 between and the heat preservation 2 that heated board 12 and heated board 12 splice become, also provides the basal plane for the setting with protective layer 7 in addition, has guaranteed the stability with the protective layer. The connecting piece 9 is arranged on the outer side of the protective layer 7, the connecting piece 9 comprises a connecting end 10 and a clamping end 11, the clamping end 11 is arranged perpendicular to the wall layer 1, and the connecting end 10 is arranged perpendicular to the clamping end 11. Wherein, the connecting end 10 is arranged at the protective layer 7, and the clamping end 11 penetrates through the plate seam 13 and the connecting piece hole 5 in the heat-insulating layer 2 and is inserted into the wall body layer 1. The connecting end 10 is fixedly connected with the snap-in end 11. An outer protective layer 8 is laid on the outer side of the connecting piece 9, and the outer protective layer 8 is fixedly connected with the protective layer 7. The outer side of the outer protective layer 8 is paved with a decorative layer 4, and the outer protective layer 8 is fixedly connected with the decorative layer 4.

The utility model discloses the structure of this compound heat preservation side fascia is integrated into one piece's mode construction by finish coat 4 to heat preservation 2 in the concrete implementation process. The heat insulation layer 2 formed by splicing the heat insulation plates 12 is constructed by selecting inorganic heat insulation plate materials, specifically selecting graphite extruded sheets or graphite polystyrene boards, and selecting 10-100mm for thickness. The board seam 13 is remained in the process of laying the insulation board. Connector holes 5 are made at the plate seams 13 for smooth passage of the snap-in ends 11 of the connectors 9 through the insulation layer 2. Anti-crack protective layer 3 is laid in the heat preservation 2 outside, sets up connecting piece 9 after adding protective layer 7 and laying the end, and the link 10 of connecting piece 9 is fixed in adding protective layer 7 department, and the card income end 11 runs through heat preservation 2 through connecting piece hole 5 and stretches out. An outer protective layer 8 is laid on the outer layer of the connecting piece 9 to reinforce the connecting end 10 of the connecting piece again. The facing layer 4 is intended to provide protection to the overall structure. After the structure is constructed, a wall body laminate is laid on the end, extending out of the clamping end, of the clamping end and preserving heat. The wall body layer covers the part, extending out of the clamped end, of the wall body layer in the laying process and is embedded in the wall body for fixing, and therefore stability of structures between the wall body layer and the heat preservation layer, between the anti-cracking protective layer and between the wall body layer and the decorative surface layer is guaranteed. This compound heat preservation side fascia combines tie coat and wall body layer to lay as an organic whole at concrete component in-process, nevertheless this structure still belongs to the utility model discloses the scope of protection. The utility model discloses the wall body layer of chooseing for use thoughtlessly removes slat, foamed ceramic wallboard or light heat preservation thick liquids wallboard for evaporating to press the air entrainment, about the chooseing for use of material not only in the utility model provides a material, all can realize the utility model discloses a wall body of function all belongs to the utility model discloses the scope of protection.

The utility model discloses a fixed connection mode between each layer component of structure includes binder fixed connection, connecting piece fixed connection, and the mode about above-mentioned fixed connection is not limited only the utility model discloses mode among the specific implementation process, all can all belong to the fixed connection mode that carries out the structural fixation between each layer structure the utility model discloses the scope of protection. Regarding the construction mode of this structure, the specific implementation process of the present invention provides only a convenient construction mode, but not limited to the construction mode of this specific implementation, and all that constitutes the structure consistent with the structure of the present invention belongs to the protection scope of the present invention.

As shown in fig. 2 and 3, the utility model provides an insulating layer 2 is formed by the concatenation of heated board 12 in this compound heat preservation side fascia structure, has remained board seam 13 between the heated board 12, is equipped with connecting piece hole 5 in board seam 13 department, and this connecting piece hole 5 can make 9 card of connecting piece enter end 11 pass.

As shown in fig. 4, the utility model provides an anti inoxidizing coating that splits 3 in this compound heat preservation side fascia structure is by interior mortar layer 6, add sheath 7, outer inoxidizing coating 8 and connecting piece 9 constitute, and interior mortar layer 6 is laid in 2 skin on the heat preservation, lays on interior mortar layer 6 and adds sheath 7, sets up connecting piece 9 in the outside that adds sheath 7, connecting piece 9 with add sheath 7 fixed connection, and outer inoxidizing coating 8 is laid to connecting piece 9 skin.

As shown in fig. 5 and 6, the utility model provides a connecting piece 9 is become by link 10 and card income end 11 fixed connection among this compound heat preservation exterior wall panel structure, and card income end 11 has the screw thread type end, is used for improving the structure steadiness ability between this connecting piece and the wall body layer.

As shown in fig. 7, the utility model discloses this compound thermal insulation external wall panel structure that embodiment 1 provided includes wall body layer 1, tie coat 14, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 that splits, wall body layer 1, tie coat 14, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 fixed connection in order. The anti-cracking protective layer 3 comprises an inner mortar layer 6, an alkali-resistant glass fiber mesh cloth 16, two connecting pieces 9 and an outer protective layer 8. The connecting end 10 in the connecting piece 9 is arranged on the outer layer of the alkali-resistant glass fiber gridding cloth, the connecting end 10 is fixedly connected with the alkali-resistant glass fiber gridding cloth 16, and the clamping end 11 penetrates through the insulating layer 2 through the connecting piece hole 5 to enter the wall body layer 1 to be fixedly connected with the wall body layer 1. The outer protective layer 8 is arranged on the outer side of the connecting piece 9, and the outer protective layer 7 is fixedly connected with the connecting piece 9.

As shown in fig. 8, the utility model discloses this compound thermal insulation external wall panel structure that embodiment 2 provided includes wall body layer 1, tie coat 14, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 that splits, wall body layer 1, tie coat 14, heat preservation 2, anti inoxidizing coating 3 and finish coat 4 fixed connection in order. The anti-cracking protective layer 3 comprises an inner mortar layer 6, an alkali-resistant glass fiber mesh cloth 16, two connecting pieces 9 and an outer protective layer 8. In the embodiment, the part fixedly connected between the heat-insulating layer integrally-formed structure and the wall body layer is provided with the two rabbet 15, so that the structure not only can effectively avoid the cold and hot bridge phenomenon caused by the through seam formed by the plate seams in the heat-insulating layer spliced by the heat-insulating plates, but also can reduce the damage rate of the structure in the transportation process of the composite heat-insulating external wall panel. The structure of the embodiment can be plugged by the heat-insulating lath in the groove and tongue in the construction process, so that the high heat-insulating property of the composite heat-insulating outer wall is ensured.

The present invention is not limited to the above-mentioned optional embodiments, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art and anyone can obtain various other products under the teaching of the present invention, and any modifications or equivalent replacements can be made to the technical solution of the present invention, and any changes in the shape or structure can be made without departing from the technical solution falling within the scope of the present invention.

Claims

1. The composite thermal insulation external wall panel with the assembled frame structure is characterized by comprising a wall body layer (1), a thermal insulation layer (2), an anti-cracking protective layer (3) and a decorative surface layer (4), wherein the wall body layer (1), the thermal insulation layer (2), the anti-cracking protective layer (3) and the decorative surface layer (4) are sequentially connected; the wall body layer (1) is provided with at least one connecting piece hole (5); the anti-cracking protective layer (3) comprises an inner mortar layer (6), a protective layer (7), an outer protective layer (8) and at least one connecting piece (9), the inner mortar layer (6), the protective layer (7), the outer protective layer (8) and the connecting piece (9) are sequentially connected, each connecting piece (9) penetrates through the heat preservation layer (2) and the connecting piece hole (5) respectively to enter the wall body layer (1), the connecting piece (9) is arranged outside the protective layer (7), and the connecting piece (9) is connected with the protective layer (7); the outer protective layer (8) is connected with the decorative layer (4).

2. The composite thermal insulation external wall panel with the assembled frame structure according to claim 1, wherein each connecting member (9) comprises a connecting end (10) and a clamping end (11), the clamping end (11) is arranged perpendicular to the wall body layer (1) and inserted into the wall body layer (1), the connecting end (10) is arranged perpendicular to the clamping end (11), and the connecting end (10) and the clamping end (11) are fixedly connected.

3. The fabricated composite thermal outer wall panel with frame structure according to claim 2, wherein the clamping end (11) penetrates through the thermal insulation layer (2) and the connector hole (5) into the wall body layer (1).

4. The composite thermal insulation external wall panel with the assembled frame structure as claimed in claim 3, wherein the outer diameter of the clamping end (11) is not larger than the inner diameter of the connector hole (5) on the wall body layer (1).

5. The fabricated composite thermal insulation external wall panel with the frame structure as claimed in claim 1, wherein the thermal insulation layer (2) comprises at least two thermal insulation boards (12), and each thermal insulation board (12) is fixedly connected with each other.

6. The fabricated composite thermal insulation external wall panel with the frame structure as claimed in claim 5, wherein a panel gap (13) is formed between any two adjacent thermal insulation panels (12), and the connecting member hole (5) is formed at the panel gap (13).

7. The fabricated composite thermal insulation external wall panel with the frame structure according to claim 1, wherein an adhesive layer (14) is arranged between the wall body layer (1) and the thermal insulation layer (2), and the wall body layer (1) and the thermal insulation layer (2) are fixedly connected through the adhesive layer (14).

8. The fabricated frame structure composite type thermal insulation external wall panel according to claim 1, wherein the thermal insulation board (12) in the thermal insulation layer (2) comprises an organic thermal insulation board or an inorganic thermal insulation board; the thickness of the heat insulation layer (2) formed by splicing the heat insulation plates (12) is 10-100 mm.

9. The fabricated composite thermal insulation external wall panel with frame structure as claimed in claim 2, wherein the connecting end (10) is disposed outside the sheathing layer (7); the connecting end (10) is embedded in the outer protective layer (8).

10. The composite thermal insulation external wall panel with assembled frame structure as claimed in claim 9, wherein the protective layer (7) comprises alkali-resistant fiberglass mesh and/or steel wire mesh.