CN210032212U

CN210032212U - Novel energy-efficient building outer wall insulation construction

Info

Publication number: CN210032212U
Application number: CN201920727074.3U
Authority: CN
Inventors: 王新建
Original assignee: Anhui Run'an Jinghui Construction Engineering Co Ltd
Current assignee: Anhui Run'an Jinghui Construction Engineering Co Ltd
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-02-07
Anticipated expiration: 2029-05-21

Abstract

The utility model provides a novel high-efficiency energy-saving building outer wall heat insulation structure, which comprises an upper layer structure, a middle layer structure and a lower layer structure, and can be spliced and installed through the structure matched with a T-shaped installation groove and a T-shaped installation block, the construction is simple, the steel wire stirrup penetrates through the heat insulation layer, the waterproof layer and the grid covering layer, and the structure on the grid covering layer is fixed at two ends, the deformation of the heat insulation layer after long-term use can be effectively prevented by matching the arrangement of the stirrup extending edge, and the upper layer structure, the middle layer structure and the lower layer structure are also provided with fixing holes, when the T-shaped installation block is inserted into the T-shaped installation groove, the two fixing holes are positioned at the same horizontal position and fixed on the building outer wall through bolts, on the basis of no deformation of the heat insulation structure, the upper layer structure and the installation firmness between the middle layer structure and the lower layer structure can be further mentioned, effectively avoiding generating gaps.

Description

Novel energy-efficient building outer wall insulation construction

Technical Field

The utility model relates to a building wall structure technical field especially relates to a novel energy-efficient building outer wall insulation construction.

Background

Along with the continuous improvement of living standard of people, the sound for improving living conditions is higher and higher, so that the rapid development of the building industry is greatly promoted, the heat insulation structure of the outer wall is one of important related points of the building engineering, and the heat insulation structure outside the outer wall is a general name of a non-bearing heat insulation structure which is composed of a heat insulation layer, a protective layer, a fixing material and the like and is suitable for being installed on the outer surface of the outer wall;

various building wallboard has also been produced to the building trade, and these wallboard structure comprehensive properties are relatively poor, and structural design is simple, and the construction is loaded down with trivial details, and the wallboard can produce certain deformation under the transformation of long-term natural weather environment factor, can make after the deformation produce the clearance fracture between wallboard and the wallboard, and the influence is pleasing to the eye, also does not have corresponding fixed knot to construct between the clearance simultaneously, consequently the utility model provides a novel energy-efficient building outer wall insulation construction is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a novel high-efficiency energy-saving building outer wall heat insulation structure, which comprises an upper layer structure, a middle layer structure and a lower layer structure, and can be spliced and installed through the structure matched with a T-shaped installation groove and a T-shaped installation block, the construction is simple, the steel wire stirrups penetrate through the heat insulation layer, the waterproof layer and the grid covering layer and fix the structures on the grid covering layer at two ends, the deformation of the heat insulation layer after long-term use can be effectively prevented by matching the arrangement of the extending edges of the stirrups, and the upper layer structure, the middle layer structure and the lower layer structure are also provided with fixing holes, when the T-shaped installation block is inserted into the T-shaped installation groove, the two fixing holes are positioned at the same horizontal position and fixed on the building outer wall through bolts, on the basis that the heat insulation structure is not deformed, the installation firmness between the upper layer structure, the middle layer structure and the lower layer structure can, effectively avoiding generating gaps.

In order to solve the problems, the utility model provides a novel high-efficiency energy-saving building outer wall heat insulation structure, which comprises an upper layer structure, a middle layer structure and a lower layer structure, wherein the upper layer structure, the middle layer structure and the lower layer structure are sequentially spliced and installed from top to bottom;

the upper layer structure, the middle layer structure and the lower layer structure comprise heat insulation layers, waterproof layers, grid covering layers and steel wire stirrups, the waterproof layers are arranged on two sides of the heat insulation layers, the grid covering layers are arranged on the outer sides of the waterproof layers, the steel wire stirrups penetrate through the heat insulation layers, the waterproof layers and the grid covering layers, two ends of each steel wire stirrup are fixed on the grid covering layers, and stirrup extending edges are arranged in boundary areas of the steel wire stirrups, the heat insulation layers, the waterproof layers and the grid covering layers, and the heat insulation structures are fastened through the steel wire stirrups and the stirrup extending edges so as to prevent deformation after long-term use;

the upper layer structure, the middle layer structure and the lower layer structure are spliced and installed through structures matched with the T-shaped installation grooves and the T-shaped installation blocks, the T-shaped installation grooves are formed in the bottoms of the upper layer structure and the middle layer structure, the T-shaped installation blocks are arranged on the tops of the middle layer structure and the lower layer structure, and the T-shaped installation grooves and the T-shaped installation blocks are matched with each other;

the upper and lower both ends of superstructure, intermediate level structure and substructure all are equipped with the fixed orifices, wear to establish the bolt through wearing to fix superstructure, intermediate level structure and substructure to the building outer wall in the fixed orifices.

The further improvement lies in that: the intermediate layer structure is provided with a plurality of groups, and the intermediate layer structure is a detachable installation structure on the same vertical line.

The further improvement lies in that: the outside the coating of net surface has been scribbled the mortar layer, the outside on mortar layer is equipped with the screed-coat, mortar layer and screed-coat are provided with the breach on the horizontal position of fixed orifices, make bolt installation back head and screed-coat parallel and level through setting up of breach.

The further improvement lies in that: the heat preservation is one of foam heat preservation, pearlite heat preservation and extrusion molding polyphenyl heat preservation.

The further improvement lies in that: at least two groups of steel wire stirrups are arranged in the vertical direction of each steel wire stirrup of the upper layer structure, the middle layer structure and the lower layer structure.

The utility model has the advantages that: this building outer wall insulation construction is by superstructure, intermediate level structure and understructure constitute, and the structure through T shape mounting groove and T shape installation piece looks adaptation realizes can the concatenation installation, the construction is comparatively simple and convenient, run through the heat preservation through the steel wire stirrup, the structure on waterproof layer and the fixed net check covering of net covering and both ends, the setting that cooperation stirrup was prolonged, can effectually prevent that the heat preservation from using for a long time the back deformation, and superstructure, still be provided with the fixed orifices on intermediate level structure and the understructure, when T shape installation piece inserts in the T shape mounting groove, make two fixed orifices department on same horizontal position, through bolt fastening to building outer wall, on the basis that insulation structure does not deform, more can mention superstructure, the installation firmness between intermediate level structure and the understructure, effectually avoid producing the clearance.

Drawings

Fig. 1 is a schematic view of the overall installation structure of the present invention.

Fig. 2 is a schematic view of the upper layer structure of the present invention.

Fig. 3 is a schematic diagram of the structure of the middle layer of the present invention.

Fig. 4 is a schematic view of the lower layer structure of the present invention.

Wherein: 1-upper layer structure, 2-middle layer structure, 3-lower layer structure, 4-heat preservation layer, 5-waterproof layer, 6-grid covering layer, 7-steel wire stirrup, 8-stirrup extending edge, 9-T-shaped mounting groove, 10-T-shaped mounting block, 11-bolt, 12-mortar layer, 13-leveling layer and 14-notch.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1, 2, 3 and 4, the embodiment provides a novel high-efficiency energy-saving building outer wall heat insulation structure, which comprises an upper layer structure 1, a middle layer structure 2 and a lower layer structure 3, wherein the upper layer structure 1, the middle layer structure 2 and the lower layer structure 3 are sequentially spliced and installed from top to bottom;

the upper-layer structure 1, the middle-layer structure 2 and the lower-layer structure 3 comprise heat insulation layers 4, waterproof layers 5, grid covering layers 6 and steel wire stirrups 7, the waterproof layers 5 are arranged on two sides of the heat insulation layers 4, the grid covering layers 6 are arranged on the outer sides of the waterproof layers 4, the steel wire stirrups 7 penetrate through the heat insulation layers 4, the waterproof layers 5 and the grid covering layers 6, two ends of each steel wire stirrup 7 are fixed on the grid covering layers 6, and the steel wire stirrups 7, the heat insulation layers 4, the waterproof layers 5 and the grid covering layers 6 are divided into boundary areas which are provided with stirrup extending edges 8, so that the heat insulation structures are fastened through the steel wire stirrups 7 and the stirrup extending edges 8, and deformation after long-term use;

the upper layer structure 1, the middle layer structure 2 and the lower layer structure 3 are spliced and installed through a structure with a T-shaped installation groove 9 and a T-shaped installation block 10 which are matched, the T-shaped installation groove 9 is formed in the bottoms of the upper layer structure 1 and the middle layer structure 2, the T-shaped installation block 10 is formed in the tops of the middle layer structure 2 and the lower layer structure 3, and the T-shaped installation groove 9 and the T-shaped installation block 10 are matched with each other;

the upper and lower both ends of superstructure 1, intermediate level structure 2 and substructure 3 all are equipped with the fixed orifices, wear to establish bolt 11 through wearing in the fixed orifices and fix superstructure 1, intermediate level structure 2 and substructure 3 on the building outer wall.

The middle layer structure 2 is provided with a plurality of groups, and the middle layer structure 2 is of a detachable installation structure on the same vertical line.

The outside the coating of net surface course 6 has painted mortar layer 12, the outside on mortar layer 12 is equipped with screed-coat 13, mortar layer 12 and screed-coat 13 are provided with breach 14 on the horizontal position of fixed orifices, make bolt 11 installation back head and screed-coat 13 parallel and level through setting up of breach 14.

The heat preservation 4 is one of foam heat preservation, pearlite heat preservation and the polyphenyl heat preservation of extrusion molding, every be equipped with two sets at least in the 7 vertical directions of steel wire stirrup of superstructure 1, intermediate level structure 2 and understructure 3.

The building outer wall heat insulation structure is composed of an upper layer structure 1, a middle layer structure 2 and a lower layer structure 3, and can be spliced and installed through a structure matched with a T-shaped installation groove 9 and a T-shaped installation block 10, the construction is simple and convenient, the steel wire stirrups 7 penetrate through a heat insulation layer 4, a waterproof layer 5 and a grid covering layer 6, the structures on the grid covering layer 6 are fixed at two ends, the deformation of the heat insulation layer 4 after long-term use can be effectively prevented through the arrangement of the stirrup extending edges 8, in addition, the upper layer structure 1, the middle layer structure 2 and the lower layer structure 3 are also provided with fixing holes, when the T-shaped installation block 10 is inserted into the T-shaped installation groove 9, the two fixing holes are positioned on the same horizontal position and fixed on the building outer wall through bolts 11, on the basis that the heat insulation structure is not deformed, the installation firmness among the upper layer structure 1, the middle layer structure 2 and the lower layer structure, effectively avoiding generating gaps.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a novel energy-efficient building outer wall insulation construction which characterized in that: the structure comprises an upper layer structure (1), an intermediate layer structure (2) and a lower layer structure (3), wherein the upper layer structure (1), the intermediate layer structure (2) and the lower layer structure (3) are sequentially spliced and installed from top to bottom;

the upper-layer structure (1), the middle-layer structure (2) and the lower-layer structure (3) comprise a heat insulation layer (4), a waterproof layer (5), a grid covering layer (6) and steel wire stirrups (7), the waterproof layer (5) is arranged on two sides of the heat insulation layer (4), the grid covering layer (6) is arranged on the outer side of the waterproof layer, the steel wire stirrups (7) penetrate through the heat insulation layer (4), the waterproof layer (5) and the grid covering layer (6), two ends of the steel wire stirrups (7) are fixed on the grid covering layer (6), and stirrup extending edges (8) are arranged in boundary areas of the steel wire stirrups (7), the heat insulation layer (4), the waterproof layer (5) and the grid covering layer (6) and are used for fastening the heat insulation structure through the steel wire stirrups (7) and the stirrup extending edges (8) so as to prevent deformation after long;

the upper-layer structure (1), the middle-layer structure (2) and the lower-layer structure (3) are spliced and mounted through structures matched with the T-shaped mounting blocks (10) through T-shaped mounting grooves (9), the T-shaped mounting grooves (9) are formed in the bottoms of the upper-layer structure (1) and the middle-layer structure (2), the T-shaped mounting blocks (10) are formed in the tops of the middle-layer structure (2) and the lower-layer structure (3), and the T-shaped mounting grooves (9) are matched with the T-shaped mounting blocks (10);

the upper and lower both ends of superstructure (1), intermediate level structure (2) and substructure (3) all are equipped with the fixed orifices, wear to establish bolt (11) through the fixed orifices and fix superstructure (1), intermediate level structure (2) and substructure (3) on the building outer wall.

2. The novel high-efficiency energy-saving building outer wall heat insulation structure according to claim 1, characterized in that: the middle layer structure (2) is provided with a plurality of groups, and the middle layer structure (2) is of a detachable installation structure on the same vertical line.

3. The novel high-efficiency energy-saving building outer wall heat insulation structure according to claim 1, characterized in that: the outside the net surface course (6) is scribbled mortar layer (12), the outside of mortar layer (12) is equipped with screed-coat (13), mortar layer (12) and screed-coat (13) are provided with breach (14) on the horizontal position of fixed orifices, make bolt (11) installation back head and screed-coat (13) parallel and level through setting up of breach (14).

4. The novel high-efficiency energy-saving building outer wall heat insulation structure according to claim 1, characterized in that: the heat-insulating layer (4) is one of a foam heat-insulating layer, a perlite heat-insulating layer and an extruded polystyrene heat-insulating layer.

5. The novel high-efficiency energy-saving building outer wall heat insulation structure according to claim 1, characterized in that: every steel wire stirrup (7) of superstructure (1), intermediate level structure (2) and substructure (3) are equipped with two sets at least in the vertical direction.