CN214833632U - Heat preservation outer wall structure is used to green construction fitment - Google Patents

Abstract

The utility model relates to a green construction is heat preservation outer wall structure for fitment, including the outer wall body, the outer wall body includes the wall structure layer that sets gradually from inside to outside, first adhesive linkage, heat preservation sheet layer, second adhesive linkage and finish coat, be provided with a plurality of connecting pieces on the wall structure layer, the connecting piece includes the horizontal pole and fixes the vertical pole at the horizontal pole both ends, the horizontal pole is located one side of wall structure layer, the one end of each vertical pole run through first adhesive linkage and with wall structure layer fixed connection, a plurality of combination grooves have been seted up on the heat preservation sheet layer, the horizontal pole is located the combination inslot, the inside cavity of horizontal pole is formed with the watering chamber, the one end of horizontal pole has been seted up into thick liquid hole, a plurality of grout outlet has been seted up on the global of horizontal pole, the combination groove is used for filling the bonding mortar. This application is in the same place connecting piece, heat preservation sheet layer and the effectual connection of first adhesive linkage are fixed to improve the stability that heated board and first adhesive linkage are connected, make the heat preservation sheet layer be difficult for coming off from the wall structure layer.

Description

Heat preservation outer wall structure is used to green construction fitment

Technical Field

The application relates to the field of building wall, in particular to a heat-insulation external wall structure for green construction and decoration.

Background

In the existing buildings, the outer wall is used as the main structure of the building, the heat preservation and insulation technology of the outer wall is always an important factor influencing the practicability of the building, and at present, in order to improve the heat preservation and insulation performance of the outer wall of the building, the influence of the external environment on the interior of the building is small, and a heat preservation plate is usually installed in the outer wall for heat preservation. The common external wall insulation usually adopts adhesive cement to attach and fix the insulation board on the outer surface of the wall body, and the external wall veneer is adhered on the surface of the insulation board through the adhesive cement.

In view of the above-mentioned related technologies, the inventor thinks that the insulation board is fixed on the wall body through the adhesive cement, and if the adhesion between the insulation board and the adhesive cement is not firm, the insulation board is easy to fall off from the wall body.

SUMMERY OF THE UTILITY MODEL

In order to improve the bonding insecure between heated board and the bonding mortar, the problem that the heated board drops from the wall body easily, this application provides a green construction is heat preservation outer wall structure for fitment.

The application provides a pair of heat preservation outer wall structure for green construction fitment adopts following technical scheme:

a heat-insulating outer wall structure for green construction decoration comprises an outer wall body, wherein the outer wall body comprises a wall structure layer, a first adhesive layer, a heat-insulating plate layer, a second adhesive layer and a decorative layer which are sequentially arranged from inside to outside, the wall structure layer is provided with a plurality of connecting pieces in the self height direction, each connecting piece comprises a transverse rod and longitudinal rods fixed at two ends of the transverse rod, the transverse rod is positioned at one side of the first adhesive layer far away from the wall structure layer, one end of each longitudinal rod far away from the transverse rod penetrates through the first adhesive layer and is fixedly connected with the wall structure layer, one surface of the heat-insulating plate layer, close to the first adhesive layer, is provided with a plurality of combining grooves corresponding to the connecting pieces, the transverse rod is positioned in the combining grooves, the transverse rod is hollow and is provided with a pouring cavity, one end of the transverse rod is provided with a pulp inlet hole, and the circumferential surface of the transverse rod is provided with a plurality of pulp outlet holes, the slurry inlet hole and the slurry outlet hole are both communicated with the pouring cavity, and the combining groove is used for filling adhesive cement.

Through adopting above-mentioned technical scheme, when carrying out the installation of insulation board layer, align each connecting piece with the joint groove, make the horizontal pole penetrate the joint inslot, insulation board layer articulates on the connecting piece, and insulation board layer's lateral wall bonds fixedly through first adhesive linkage and wall structure layer, afterwards, the staff pours into the bonding adhesive cement into the watering intracavity through advancing the thick liquid hole, the bonding adhesive cement flows out and fills the joint groove from the discharge gate, the bonding adhesive cement is with the connecting piece, insulation board layer and the effectual connection of first adhesive linkage are fixed together, thereby improve the stability that insulation board layer and first adhesive linkage are connected, make the insulation board layer be difficult for coming off from the wall structure layer.

Optionally, the inner wall of each of the combining grooves is extended outward to form a hanging groove for a cross rod to penetrate through, the cross rod is located in the hanging groove, and the cross rod is abutted to the inner wall of the hanging groove.

Through adopting above-mentioned technical scheme, when the heat preservation sheet layer is connected with the connecting piece, the horizontal pole is worn to establish and is hung the inslot, and the horizontal pole with hang the inner wall butt in groove, hang the groove and carry out effective restriction to the mobilizable direction of horizontal pole for the articulate that the heat preservation sheet layer can be stable is on the horizontal pole, thereby improves the stability of heat preservation sheet layer and connecting piece.

Optionally, the grout outlet is arranged on one side of the circumferential surface of the cross rod, which is close to the combining groove.

Through adopting above-mentioned technical scheme, when the staff watered the bonding mortar to the combination intracavity of insulation board layer through the horizontal pole, the play thick liquid hole orientation was close to the direction setting that combines the groove for the bonding mortar is more smooth and easy from the outflow on the horizontal pole, makes the better packing of bonding mortar to be full of and combines the groove, ensures insulation board layer and wall body and the stability of being connected of first adhesive linkage.

Optionally, a plurality of tooth sockets are formed on the inner wall of the combining groove far away from the cross rod.

Through adopting above-mentioned technical scheme, the bonding adhesive cement fills into the bonding intracavity and fills up the tooth's socket through the horizontal pole, forms the structure with the mutual gomphosis of tooth's socket after the bonding adhesive cement solidifies for the bonding adhesive cement is more firm stable with the connection of heat preservation sheet layer.

Optionally, a plurality of inserting rods are perpendicularly fixed to the side, far away from the combining groove, of the peripheral surface of the cross rod, the inserting rods are arranged along the length direction of the cross rod, a plurality of inserting rod inserting holes are formed in the heat insulation plate layer, and the inserting holes are communicated with the suspension groove.

Through adopting above-mentioned technical scheme, when the heat preservation sheet layer passes through the connecting piece and articulates on the wall structure layer, the horizontal pole is worn to establish and is hung the inslot, and each inserted bar is inserted and is established in the jack, further improves the stability of being connected between connecting piece and the heat preservation sheet layer.

Optionally, the heat preservation plate layer comprises a heat preservation plate and moisture-proof aluminum foils which are attached and fixed to two opposite side walls of the heat preservation plate.

Through adopting above-mentioned technical scheme, improve the dampproofing impervious performance of insulation board layer for in the difficult infiltration heated board of external steam, the good thermal-insulated effect of heat preservation of guarantee insulation board layer.

Optionally, an anti-cracking grid layer is arranged between the heat preservation plate layer and the second bonding layer.

By adopting the technical scheme, the anti-cracking grid layer is arranged between the heat-insulating board layer and the second bonding layer, and the anti-cracking performance of the outer wall body is improved by utilizing the strong anti-cracking performance of the anti-cracking grid, so that the service life of the outer wall body is prolonged, and the durability of the outer wall body is improved.

Optionally, the finish coat comprises a putty layer and a finish coating coated on the putty layer.

Through adopting above-mentioned technical scheme, the putty layer makes surface course coating be convenient for more coat, lets the cohesive strength improvement of finish coat, and then makes the finish coat can not drop easily.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the connecting piece, the heat insulation plate layer and the first bonding layer are effectively connected and fixed together by arranging the combination groove and the connecting piece, so that the stability of the connection of the heat insulation plate and the first bonding layer is improved, and the heat insulation plate layer is not easy to fall off from the wall structure layer;

2. the movable direction of the cross rod is effectively limited by arranging the suspension groove, so that the heat-insulation plate layer can be stably hung on the cross rod, and the stability of the heat-insulation plate layer and the connecting piece is improved;

3. through setting up dampproofing aluminium foil, improve the dampproofing impervious performance of insulation board layer for in the difficult infiltration heated board of external steam, the good thermal-insulated effect of heat preservation of guarantee insulation board layer.

Drawings

FIG. 1 is a schematic view of the overall structure of an insulation exterior wall structure for green construction and decoration in an embodiment of the application.

Fig. 2 is a partial cross-sectional view of an embodiment of the present application for embodying a connector.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a wall structure layer; 2. a first adhesive layer; 3. a heat-insulating board layer; 31. a coupling groove; 32. a suspension groove; 33. a jack; 34. a tooth socket; 4. a crack resistant mesh layer; 5. a second adhesive layer; 6. a finishing layer; 7. a connecting member; 71. a cross bar; 711. a slurry inlet hole; 712. a watering chamber; 713. a slurry outlet; 72. a longitudinal bar; 73. and (4) inserting the rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses heat preservation outer wall structure is used to green construction fitment. Referring to fig. 1, a green construction is heat preservation outer wall structure for fitment includes the outer wall body, and the outer wall body includes that wall structure layer 1, first adhesive linkage 2, heat preservation sheet layer 3, anti net layer 4 that splits, second adhesive linkage 5 and finish coat 6 that laminate in proper order from inside to outside laid, and in this embodiment, wall structure layer 1 is formed by reinforced concrete pouring. The first bonding layer 2 and the second bonding layer 5 both adopt polyurethane interface bonding mucilage, have good infiltration effect on bonded objects, and have stronger bonding force and firm connection. The heat preservation plate layer 3 includes that heated board and laminating fix the dampproofing aluminium foil paster in the relative both sides of heated board, and the heated board adopts XPS extruded sheet, has good heat preservation heat-proof quality. Dampproofing aluminium foil paster is used for improving the moisture resistance of insulation sheet layer 3 for in the difficult infiltration heated board of steam, in order to ensure the good heat preservation effect of insulation sheet layer 3. The anti-cracking grid layer 4 is made of glass fiber grid cloth, so that the anti-cracking performance of the outer wall body is improved, and the service life of the outer wall body is prolonged. Finish coat 6 includes the putty layer and coats the finish coating on the putty layer, before coating finish coating, makes the surfacing of putty layer level, and the coating of finish coating makes things convenient for the coating more, and finish coat 6's cohesive strength is higher, and finish coat 6 is difficult for droing. The surface layer coating adopts fireproof surface layer coating, and the fireproof performance of the wall body is improved.

Referring to fig. 2 and 3, the wall structure layer 1 is fixedly connected with a plurality of connecting members 7, and the connecting members 7 are uniformly arranged along the height direction of the wall structure layer 1. The connecting piece 7 comprises a cross bar 71 and longitudinal bars 72 positioned at two ends of the cross bar 71, the cross bar 71 and the longitudinal bars 72 are both horizontally arranged, and the longitudinal bars 72 are perpendicular to the cross bar 71. The transverse rod 71 is positioned on one side of the first adhesive layer 2 far away from the wall structure layer 1, each longitudinal rod 72 is positioned at the bottom of the transverse rod 71 relatively, each longitudinal rod 72 is welded and fixed with the outer wall of the transverse rod 71, and one end of each longitudinal rod 72 far away from the transverse rod 71 vertically penetrates through the first adhesive layer 2 and is fixedly connected with the wall structure layer 1. A plurality of combination grooves 31 are formed in one surface, close to the first bonding groove, of the heat preservation plate layer 3, and the combination grooves 31 correspond to the connecting pieces 7 one by one. The width of the coupling groove 31 is larger than the height of the connector 7 in the vertical direction so that the connector 7 smoothly penetrates into the coupling groove 31. In the present embodiment, the cross-sectional shape of the coupling groove 31 is a square. The top of the inner wall of the combining groove 31 is extended outwards to form a hanging groove 32 for the cross rod 71 to penetrate, the cross rod 71 is arranged in the hanging groove 32 in a penetrating mode, and the cross rod 71 is abutted to the inner wall of the hanging groove 32. Heat preservation sheet layer 3 articulates on horizontal pole 71 through hanging groove 32 to it is fixed with the bonding of wall structure layer 1 through first adhesive linkage 2, mutual butt between heat preservation sheet layer 3 and the horizontal pole 71, heat preservation sheet layer 3 is difficult for droing from horizontal pole 71, and then improves heat preservation sheet layer 3 and wall structure layer 1's stability of being connected.

Referring to fig. 2 and 3, in order to further improve the connection stability between the connecting member 7 and the heat-insulating board layer 3, a plurality of inserting rods 73 are perpendicularly fixed to the peripheral surface of the cross rod 71 away from the surface of the combining groove 31, the plurality of inserting rods 73 are arranged along the length direction of the cross rod 71, a plurality of inserting holes 33 for inserting the inserting rods 73 are formed in the heat-insulating board layer 3, and each inserting hole 33 is communicated with the hanging groove 32. When the insulation board layer 3 is hung on the cross bar 71, the cross bar 71 is arranged in the hanging groove 32 in a penetrating way, and the inserting rods 73 are inserted in the inserting holes 33.

Referring to fig. 2 and 3, the inside of the cross rod 71 is hollow and is formed with a pouring cavity 712, a slurry inlet hole 711 is formed in one end of the cross rod 71 in the length direction, a plurality of slurry outlet holes 713 are formed in one side of the peripheral surface of the cross rod 71, which is close to the combination groove 31, the slurry outlet holes 713 are uniformly distributed in the length direction of the cross rod 71, the slurry inlet hole 711 and the slurry outlet holes 713 are communicated with the pouring cavity 712, the combination groove 31 is filled with adhesive cement, the adhesive cement is made of the same material as that of the first adhesive layer 2, so that the adhesive cement filled into the combination groove 31 is better combined with the first adhesive layer 2, and the connection is firmer. In will bonding adhesive cement pours into the watering chamber 712 through advancing thick liquid hole 711, bonding adhesive cement flows out and fills from grout outlet 713 and combine groove 31, and bonding adhesive cement is together with connecting piece 7, insulation board layer 3 and the effectual connection of first adhesive linkage 2 to improve the stability that insulation board layer 3 and first adhesive linkage 2 and wall structure layer 1 are connected, make insulation board layer 3 be difficult for droing from the wall body.

Referring to fig. 2 and 3, in order to further improve the stability of connection between the adhesive cement and the insulation board layer 3, a plurality of tooth grooves 34 are formed on the inner wall of the combination groove 31 away from the cross rod 71, and when the combination groove 31 is filled with the adhesive cement, the adhesive cement is solidified to form a structure which is embedded with the tooth grooves 34, so that the connection between the adhesive cement and the insulation board layer 3 is firmer and more stable.

The implementation principle of the heat preservation outer wall structure for green construction and decoration in the embodiment of the application is as follows: when carrying out insulation board layer 3's installation, make horizontal pole 71 penetrate in the suspension groove 32, each inserted bar 73 inserts in the jack 33, thereby insulation board layer 3 articulates on connecting piece 7, insulation board layer 3's lateral wall is fixed with wall structure layer 1 bonding through first adhesive linkage 2, afterwards, the rethread advances thick liquid hole 711 and pours into the bonding mortar into the watering chamber 712, the bonding mortar flows out and fills full combination groove 31 from outlet port 713, the bonding mortar is with connecting piece 7, insulation board layer 3 and the effectual connection of first adhesive linkage 2 are fixed together, make insulation board layer 3 be difficult for droing from wall structure layer 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a green construction is heat preservation outer wall structure for fitment, includes the outer wall body, the outer wall body includes wall structure layer (1), first adhesive linkage (2), heat preservation sheet layer (3), second adhesive linkage (5) and finish coat (6) that set gradually from inside to outside, its characterized in that: the wall structure layer (1) is provided with a plurality of connecting pieces (7) in the self height direction in an upward arrangement mode, each connecting piece (7) comprises a cross rod (71) and longitudinal rods (72) fixed at two ends of each cross rod (71), each cross rod (71) is positioned at one side, away from the wall structure layer (1), of each first bonding layer (2), one end, away from each cross rod (71), of each longitudinal rod (72 penetrates through the first bonding layer (2) and is fixedly connected with the wall structure layer (1), one surface, close to the first bonding layer (2), of each heat insulation board layer (3) is provided with a plurality of combination grooves (31) corresponding to the connecting pieces (7), each cross rod (71) is positioned in each combination groove (31), the cross rod (71) is hollow and is provided with a pouring cavity (712), one end of each cross rod (71) is provided with a slurry inlet hole (711), and the peripheral surface of each cross rod (71) is provided with a plurality of slurry outlet holes (713), the pulp inlet hole (711) and the pulp outlet hole (713) are both communicated with the pouring cavity (712), and the combination groove (31) is used for filling adhesive cement.

2. The heat-insulating outer wall structure for green construction and decoration according to claim 1, wherein: the inner wall of each combination groove (31) is outwards expanded to form a hanging groove (32) for a cross rod (71) to penetrate through, the cross rod (71) is located in the hanging groove (32), and the cross rod (71) is abutted to the inner wall of the hanging groove (32).

3. The heat-insulating outer wall structure for green construction and decoration as claimed in claim 2, wherein: the pulp outlet holes (713) are formed in one side, close to the combination groove (31), of the peripheral surface of the cross rod (71).

4. The heat-insulating outer wall structure for green construction and decoration according to claim 3, wherein: a plurality of tooth grooves (34) are arranged on the inner wall of the combination groove (31) far away from the cross rod (71).

5. The heat-insulating outer wall structure for green construction and decoration according to claim 3, wherein: one side of the peripheral surface of the cross rod (71), which is far away from the combination groove (31), is vertically fixed with a plurality of inserting rods (73), the inserting rods (73) are arranged along the length direction of the cross rod (71), a plurality of inserting holes (33) for the inserting rods (73) to be inserted are formed in the heat preservation plate layer (3), and the inserting holes (33) are communicated with the suspension groove (32).

6. The heat-insulating outer wall structure for green construction and decoration according to claim 1, wherein: the heat preservation plate layer (3) comprises a heat preservation plate and moisture-proof aluminum foils which are attached and fixed to two opposite side walls of the heat preservation plate.

7. The heat-insulating outer wall structure for green construction and decoration according to claim 6, wherein: and an anti-cracking grid layer (4) is arranged between the heat-insulating plate layer (3) and the second bonding layer (5).

8. The heat-insulating outer wall structure for green construction and decoration according to claim 7, wherein: the finishing coat (6) comprises a putty layer and a finishing coating coated on the putty layer.

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