CN212897166U - Building wall structure with energy-saving and heat-preserving functions - Google Patents

Abstract

The utility model discloses a building wall structure with energy-saving and heat preservation functions, which comprises an outer plate, a heat preservation layer and an inner plate which are arranged in sequence, wherein a reinforced layer is arranged between the outer plate and the heat preservation layer, the side surface of the reinforced layer, which is connected with the heat preservation layer, is in a concavo-convex shape along the length direction, the side surface of the heat preservation layer is also in a concavo-convex shape matched with the side surface of the reinforced layer, the heat preservation layer is connected with the reinforced layer through the embedding of the concavo-convex structure, the building wall structure also comprises reinforced bars which transversely penetrate through the whole concavo-convex structure along the length direction; the four corners of the outer layer plate are all provided with S-shaped air holes which sequentially penetrate through the outer layer plate from outside to inside, and the inner layer plate is provided with spiral air holes which penetrate through the inner layer plate. The utility model discloses a wall body has strengthened the gas permeability of airtight heat preservation wallboard, prevents that the cold air from directly blowing in simultaneously, has guaranteed the heat preservation effect, prevents that outside rainwater from passing through the bleeder vent infiltration.

Description

Building wall structure with energy-saving and heat-preserving functions

Technical Field

The utility model relates to a building field, concretely relates to building wall structure with energy-conserving heat preservation.

Background

The setting of current heat preservation wallboard, for the reinforcing gas permeability, often can set up the bleeder vent in the heat preservation, but this kind of straight line sets up the mode of bleeder vent and can directly influence the heat preservation effect of heat preservation ventilative wallboard, directly blows in outdoor cold wind and moisture easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that current heat preservation wallboard bleeder vent is straight for sharp the line, influences the heat preservation effect, directly blows in outdoor cold wind and moisture easily, and aim at provides the building wall structure that has energy-conserving heat preservation, has strengthened the gas permeability of airtight heat preservation wallboard, prevents simultaneously that cold air from directly blowing in, has guaranteed the heat preservation effect, prevents that outside rainwater from passing through the bleeder vent infiltration.

The utility model discloses a following technical scheme realizes:

the building wall structure with the energy-saving and heat-preserving functions comprises an outer plate, a heat-preserving layer and an inner plate which are sequentially arranged, wherein a reinforcing layer is arranged between the outer plate and the heat-preserving layer, the side surface, connected with the heat-preserving layer, of the reinforcing layer is concave-convex along the length direction, the side surface of the heat-preserving layer is also concave-convex matched with the side surface of the reinforcing layer, the heat-preserving layer is connected with the reinforcing layer in an embedded mode through a concave-convex structure, the building wall structure also comprises reinforcing steel bars which transversely penetrate through the whole concave-convex structure along the length direction; the four corners of the outer layer plate are all provided with S-shaped air holes which sequentially penetrate through the outer layer plate from outside to inside, the inner layer plate is provided with spiral air holes which penetrate through the inner layer plate, and the spiral air holes are communicated with the S-shaped air holes through communicating holes which penetrate through the heat preservation layer and the reinforcing layer.

The utility model discloses a wall body has strengthened the gas permeability of airtight heat preservation wallboard, prevents that the cold air from directly blowing in simultaneously, has guaranteed the heat preservation effect, prevents that outside rainwater from passing through the bleeder vent infiltration. The wall body of the utility model can avoid direct cold air from directly blowing in by arranging the S-shaped air holes on the outer layer plate, and meanwhile, the S-shaped air holes have two structures of an upper convex part and a lower concave part, so that rainwater can be prevented from permeating, and the spiral air holes are arranged on the inner layer plate, so that the path of outdoor air which passes through the wall plate and enters the room and needs to walk is further increased, and the heat preservation effect is ensured on the premise of enhancing the air permeability; through setting up the enhancement layer, can improve bulk strength, wherein be connected through concave-convex structure gomphosis between heat preservation and the enhancement layer, run through the gomphosis structure through the reinforcing bar simultaneously, can improve the connection structure of being connected between heat preservation and the enhancement layer, form integratively, further make wallboard intensity reinforcing, greatly improve the heat preservation and heat insulation performance of wallboard.

The heat preservation layer is made of polystyrene foam boards, rock wool boards or extruded sheets, and the heat preservation effect is good.

The upper end of the outer side surface of the outer layer plate is provided with a step groove, the lower end of the outer side surface of the outer layer plate is provided with a step block, the upper end of the inner layer plate is provided with a step block, and the lower end of the inner layer plate is provided with a step groove. When two blocks of wallboards are in pin-connected panel, realize connecting through assembly recess and assembly lug, step piece gomphosis on the outer plywood is to the step groove this moment, when two blocks of wallboards were assembled promptly, the interface between the outer plywood of two blocks of wallboards and the assembly connection interface of two blocks of wallboards itself are in staggered position, and the cooperation structure through step piece and step groove has blockked assembly interface promptly to form the contact surface of buckling, compare current straight assembly interface, the utility model discloses can reduce dust and outdoor air conditioning after the wall body assembly and pass the wall body through assembly interface and enter into indoorly, improve the thermal insulation performance of wall body.

The reinforcing layer is formed by pouring foamed concrete and reinforcing steel bars.

The outer layer plate is made of thermal insulation mortar or concrete, and the inner layer plate is made of an extruded plate.

Be provided with between inner plating and the outer plywood and be equipped with the layer of taking precautions against earthquakes, the in situ evenly distributed that takes precautions against earthquakes is provided with the arc billet, and through at the embedded arc steel of wall body, the support that the arc billet formed has elastic buffer shock attenuation anticollision function to can play good buffering shock attenuation anticollision effect.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. the utility model has the advantages of energy-saving and heat-preserving building wall structure, enhancing the air permeability of the airtight heat-preserving wall plate, preventing cold air from being directly blown in, ensuring the heat-preserving effect and preventing external rainwater from permeating through the air holes;

2. the utility model discloses building wall structure with energy-conserving heat preservation blocks the assembly interface through the cooperation structure of step piece and step groove to form the contact surface of buckling, compares current straight assembly interface, and the utility model discloses can reduce dust and outdoor air conditioning and pass the wall body through the assembly interface and enter into the room after the wall body assembly, improve the thermal insulation performance of wall body;

3. the utility model discloses building wall structure with energy-conserving heat preservation can improve the bulk strength through setting up the enhancement layer, wherein is connected through concave-convex structure gomphosis between heat preservation and the enhancement layer, runs through the gomphosis structure through the reinforcing bar simultaneously, can improve the connection structure of being connected between heat preservation and the enhancement layer, forms an organic whole, further makes wallboard intensity reinforcing, greatly improves the heat preservation and insulation performance of wallboard;

4. the utility model discloses building wall structure with energy-conserving heat preservation, through at the embedded arc steel of wall body, the support that the arc billet formed has elastic buffer shock attenuation anticollision function to can play good buffering shock attenuation anticollision effect.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

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

Reference numbers and corresponding part names in the drawings:

1-outer plate, 2-insulating layer, 3-reinforcing layer, 4-reinforcing steel bar, 5-shockproof layer, 6-arc steel bar, 7-assembly groove, 8-assembly projection, 9-step groove, 10-step block, 11-inner plate, 12-S-shaped air vent and 13-spiral air vent.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1, the utility model discloses building wall structure with energy-conserving heat preservation, including outer plywood 1, heat preservation 2 and the inner plate 11 that set gradually, be provided with enhancement layer 3 between outer plywood 1 and the heat preservation 2, the side that enhancement layer 3 is connected with heat preservation 2 is concavo-convex along length direction, the side of heat preservation 2 also is the concavo-convex with enhancement layer 3 side assorted, connect through concavo-convex structure gomphosis between heat preservation 2 and the enhancement layer 3, still include to cross the reinforcement bar 4 of whole concavo-convex structure along length direction, assembly groove 7 has been seted up to one end of outer plywood 1 and inner plate 11, the other end has seted up assembly lug 8; the four corners of the outer layer plate 1 are all provided with S-shaped air holes 12 which sequentially penetrate through the outer layer plate 1 from outside to inside, the inner layer plate 11 is provided with spiral air holes 13 which penetrate through the inner layer plate 11, and the spiral air holes 13 and the S-shaped air holes 12 are communicated through communicating holes which penetrate through the heat preservation layer 2 and the reinforcing layer 3.

The utility model discloses a wall body has strengthened the gas permeability of airtight heat preservation wallboard, prevents that the cold air from directly blowing in simultaneously, has guaranteed the heat preservation effect, prevents that outside rainwater from passing through the bleeder vent infiltration. The wall body of the utility model can avoid direct cold air from directly blowing in by arranging the S-shaped air holes on the outer layer plate, and meanwhile, the S-shaped air holes have two structures of an upper convex part and a lower concave part, so that rainwater can be prevented from permeating, and the spiral air holes are arranged on the inner layer plate, so that the path of outdoor air which passes through the wall plate and enters the room and needs to walk is further increased, and the heat preservation effect is ensured on the premise of enhancing the air permeability; through setting up the enhancement layer, can improve bulk strength, wherein be connected through concave-convex structure gomphosis between heat preservation and the enhancement layer, run through the gomphosis structure through the reinforcing bar simultaneously, can improve the connection structure of being connected between heat preservation and the enhancement layer, form integratively, further make wallboard intensity reinforcing, greatly improve the heat preservation and heat insulation performance of wallboard.

Preferably, the heat preservation layer is made of polystyrene foam boards, rock wool boards or extruded sheets, and the heat preservation effect is good.

Preferably, the outer side of the outer plate has a step groove 9 at the upper end, a step block 10 at the lower end, a step block 10 at the upper end, and a step groove 9 at the lower end. When two blocks of wallboards are in pin-connected panel, realize connecting through assembly recess and assembly lug, step piece gomphosis on the outer plywood is to the step groove this moment, when two blocks of wallboards were assembled promptly, the interface between the outer plywood of two blocks of wallboards and the assembly connection interface of two blocks of wallboards itself are in staggered position, and the cooperation structure through step piece and step groove has blockked assembly interface promptly to form the contact surface of buckling, compare current straight assembly interface, the utility model discloses can reduce dust and outdoor air conditioning after the wall body assembly and pass the wall body through assembly interface and enter into indoorly, improve the thermal insulation performance of wall body.

Preferably, the reinforcing layer is formed by pouring foamed concrete and reinforcing steel bars.

Preferably, the outer layer plate is made of thermal insulation mortar or concrete, and the inner layer plate is made of an extruded plate.

Preferably, be provided with between inner plating and the outer plywood and be equipped with shockproof layer 5, the in situ evenly distributed that takes precautions against earthquakes is provided with arc billet 6, and through at the embedded arc steel of wall body, the support that the arc billet formed has elastic buffer shock attenuation anticollision function to can play good buffering shock attenuation anticollision effect.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The building wall structure with the functions of energy conservation and heat preservation is characterized by comprising an outer plate (1), a heat preservation layer (2) and an inner plate (11) which are sequentially arranged, wherein a reinforcing layer (3) is arranged between the outer plate (1) and the heat preservation layer (2), the side surface, connected with the heat preservation layer (2), of the reinforcing layer (3) is concave-convex along the length direction, the side surface of the heat preservation layer (2) is also concave-convex matched with the side surface of the reinforcing layer (3), the heat preservation layer (2) is connected with the reinforcing layer (3) in an embedded mode through a concave-convex structure, the building wall structure further comprises reinforcing steel bars (4) which transversely penetrate through the whole concave-convex structure along the length direction, one end of the outer plate (1) and one end of the inner plate (; s-shaped air holes (12) which sequentially penetrate through the outer layer plate (1) from outside to inside are formed in the four corners of the outer layer plate (1), spiral air holes (13) which penetrate through the inner layer plate (11) are formed in the inner layer plate (11), and the spiral air holes (13) are communicated with the S-shaped air holes (12) through communicating holes which penetrate through the heat insulation layer (2) and the reinforcing layer (3).

2. The building wall structure with energy-saving and heat-preservation function according to claim 1, wherein the heat-preservation layer (2) is made of polystyrene foam boards, rock wool boards or extruded boards.

3. The building wall structure with the functions of energy conservation and heat preservation according to claim 1, characterized in that the outer side surface of the outer plate (1) is provided with a step groove (9) at the upper end, the lower end of the outer side surface of the outer plate (1) extends outwards to be provided with a step block (10) matched with the step groove (9), and the upper end of the outer side surface of the inner plate (11) is provided with the step block (10) and the lower end is provided with the step groove (9).

4. The building wall structure with energy-saving and heat-preservation functions as claimed in claim 1, wherein the reinforcing layer (3) is formed by pouring foamed concrete and steel bars.

5. The building wall structure with energy-saving and heat-preservation functions according to claim 1, wherein the outer plate (1) is made of heat-preservation mortar or concrete, and the inner plate (11) is made of an extruded plate.

6. The building wall structure with energy-saving and heat-preservation functions as claimed in claim 1, wherein a shockproof layer (5) is arranged between the inner-layer plate (11) and the outer-layer plate (1), and arc-shaped steel bars (6) are uniformly distributed in the shockproof layer (5).

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