CN113356402A

CN113356402A - Waterproof heat-preservation energy-saving building outer wall

Info

Publication number: CN113356402A
Application number: CN202110705680.7A
Authority: CN
Inventors: 蒋忠义; 张学明; 董晓梅
Original assignee: China Third Metallurgical Group Co Ltd
Current assignee: China Third Metallurgical Group Co Ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2021-09-07
Anticipated expiration: 2041-06-24
Also published as: CN113356402B

Abstract

The invention discloses a waterproof heat-preservation energy-saving building outer wall, and relates to the technical field of building materials. The utility model provides a waterproof insulation energy-conserving building outer wall, including the corner mounting bracket, the corner mounting bracket is provided with a plurality ofly, the erection clamping groove of adjacent corner mounting bracket is connected with fixed plate and heat preservation heat-proof mechanism from inside to outside in proper order, the corner mounting bracket includes L shape preforming board, erection clamping groove has been seted up respectively at the both ends of L shape preforming board L shape structure, L shape preforming inboard runs through has seted up the through-hole, the equal fixedly connected with connecting plate of outer wall that erection clamping groove is adjacent, the connecting plate is threaded connection with the erection clamping groove outer wall. According to the invention, the wall body is divided into different mounting structures, the corner mounting frames are used as mounting bases, and then the heat-preservation and heat-insulation mechanisms are stacked in a layer-by-layer up-and-down splicing manner, so that the modular mounting of the wall body is realized, each component is single, the production time is short, the components can be synchronously produced, the production period is shortened, the transportation cost is reduced, and the adaptability is improved.

Description

Waterproof heat-preservation energy-saving building outer wall

Technical Field

The invention relates to the technical field of building materials, in particular to a waterproof heat-insulating energy-saving building outer wall.

Background

The existing external wall heat insulation modes mainly comprise three types, one type is external wall heat insulation, and mainly comprises the steps of sequentially coating an adhesive layer, a heat insulation plate and the like on the surface of an external wall, so that the heat insulation effect is best, but the manufacturing cost is very high; the second one is external wall sandwich heat preservation, which mainly uses concrete heat preservation building blocks to build a wall body, the cost is lower, the manufacturing method is simple, but a heat bridge is generated at the ring beam, so the heat preservation effect is limited; the third is the inner heat preservation of the outer wall, and the inner wall of the outer wall is provided with a heat preservation material, a decorative surface layer and the like.

The existing waterproof heat-preservation energy-saving outer wall adopts a prefabricated wall body to directly bond the prefabricated wall outside the wall during installation, the prefabricated production period of the complete prefabricated wall body is long, the adaptability is poor, the transportation cost is high, and the heavy construction process of the wall body is complicated.

Disclosure of Invention

The invention aims to provide a waterproof heat-insulating energy-saving building outer wall to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a waterproof heat-preservation energy-saving building outer wall comprises a corner mounting frame, wherein the corner mounting frame comprises an L-shaped preformed plate, two ends of an L-shaped structure of the L-shaped preformed plate are respectively provided with an installation clamping groove, a through hole is formed in the L-shaped preformed plate in a penetrating mode, the outer wall adjacent to the installation clamping groove is fixedly connected with a connecting plate, the connecting plate is in threaded connection with the outer wall of the installation clamping groove, the other end connected with the outer wall of the installation clamping groove is provided with a fixing bolt in a penetrating mode, the outer wall adjacent to the installation clamping groove is fixedly connected with an L-shaped contact pad, and the part, connected with the L-shaped preformed plate, of the connecting plate is wrapped in the L-shaped contact pad;

the heat preservation and insulation mechanism comprises a heat preservation brick, wherein the front surface of the heat preservation brick is fixedly connected with a secondary mounting plate through a bolt, a supporting fiber net is arranged between the secondary mounting plate and the heat preservation brick, two sides of the front surface of the secondary mounting plate are fixedly connected with limit connecting frames, the front surfaces of the two limit connecting frames are fixedly connected with a panel, a mounting cavity is formed between the two limit connecting frames and the panel, and porous heat preservation foam is clamped and filled in the mounting cavity;

the top fixing mechanism comprises a plurality of clamping pipes, and a top plate is arranged between every two adjacent clamping pipes;

a leveling pad, a fixing plate and a waterproof layer.

Furthermore, the corner mounting frames are provided with a plurality of corner mounting frames, and the mounting clamping grooves of the adjacent corner mounting frames are sequentially connected with the fixed plate and the heat preservation and insulation mechanism from inside to outside.

Furthermore, the heat-preservation and heat-insulation mechanism is arranged to be mutually spliced with a plurality of heat-preservation and heat-insulation mechanisms from top to bottom, a heat-preservation cavity is formed inside a heat-preservation brick of the heat-preservation and heat-insulation mechanism, a connecting bulge is arranged at the top of the heat-preservation brick, and a groove matched with the bulge is formed in the bottom of the heat-preservation brick.

Furthermore, the leveling pad is adhered to the back of the fixing plate and is not contacted with the corner mounting frame, shearing corners are built at four corners of the leveling pad, and the positions of the shearing corners correspond to the connecting plate.

Furthermore, the waterproof layer is coated on the front surfaces of the panels, the panels are located on the outer sides of the corner mounting frames, and the panels, the secondary mounting plate, the limiting connecting frame and the insulating bricks form an I-shaped structure.

The installation method of the waterproof heat-insulation energy-saving building outer wall comprises the following steps:

firstly, connecting a connecting plate with an L-shaped preformed plate through a bolt, then laying an L-shaped contact pad at the position where the L-shaped preformed plate is contacted with the wall surface, and wrapping the contact position of the connecting plate and the L-shaped preformed plate and the bolt for connection inside to ensure that the contact of the connecting plate and the wall surface is smooth;

fixing the corner mounting frame at the corner of the wall surface by using the connecting plate and the fixing bolt, then sticking the leveling pad on the wall surface, cutting a cutting corner at the same position as the connecting plate at the four corners of the leveling pad, and ensuring that the leveling pad and the fixing bolt are on the same plane;

inserting a fixed plate into the opposite mounting clamping grooves of the two adjacent corner mounting frames from top to bottom, and extruding the front surface of the fixed plate to be bonded with the flat pad;

fourthly, placing the heat-insulated mechanisms from top to bottom end to end in sequence, wherein the heat-insulated mechanisms are I-shaped integrally, and the panels of the heat-insulated mechanisms are arranged outside the mounting clamping grooves;

step five, pressing the top plate on a heat-insulating and heat-connecting mechanism positioned at the top of the mounting clamping groove through a clamping pipe at the top of the corner mounting frame;

and step six, leveling the panels of the heat-insulation mechanisms, smearing the waterproof layers on the surfaces of the panels, and finishing the installation of the single-side waterproof heat-insulation energy-saving building outer wall after the maintenance is finished.

Furthermore, the bottom of the corner mounting frame in the step one is in contact with the ground, and the two sides of the leveling pad in the step two are coated with adhesive glue.

Furthermore, the fixing plate in the third step is a wooden plate.

Compared with the prior art, the invention has the beneficial effects that:

(1) this waterproof heat preservation energy-saving building outer wall through being divided into different mounting structure with the wall body, utilizes the corner mounting bracket as the installation basement, and the mode pile heat preservation heat-proof structure of concatenation about through the successive layer afterwards to paint the waterproof layer on its surface, realized the modularization installation of wall body, the single production time of each subassembly is fast and can synchronous production, compares in traditional heat preservation wall, has accelerated production cycle and has reduced the cost of transportation and its adaptability that has increased.

(2) This waterproof insulation energy-conserving building outer wall through insulating brick and porous insulation foam's setting, builds out dual insulation structure, has increased inside heat preservation space and has increased energy-conserving heat preservation effect.

Drawings

FIG. 1 is a schematic view of a disassembled structure of the back side of the present invention;

FIG. 2 is a schematic front disassembled view of the present invention;

FIG. 3 is a schematic view of the front assembly structure of the present invention;

FIG. 4 is a schematic view of a backside assembly of the present invention;

FIG. 5 is a schematic view of the disassembled structure of the heat-insulating mechanism of the present invention;

FIG. 6 is a schematic view of the top fixing mechanism connection structure of the present invention;

FIG. 7 is a schematic view of the corner mounting bracket structure of the present invention.

In the figure: 1. a corner mounting rack; 101. l-shaped preformed plates; 102. a through hole; 103. installing a clamping groove; 104. an L-shaped contact pad; 105. fixing the bolt; 106. a connecting plate; 2. flattening the pad; 3. a fixing plate; 4. a heat preservation and insulation mechanism; 401. insulating bricks; 402. a heat preservation cavity; 403. supporting the web; 404. a secondary mounting plate; 405. a limiting connecting frame; 406. a panel; 407. porous insulating foam; 5. a waterproof layer; 6. a top fixing mechanism; 601. clamping the connecting pipe; 602. a top plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Further, it will be appreciated that the dimensions of the various elements shown in the figures are not drawn to scale, for ease of description, and that the thickness or width of some layers may be exaggerated relative to other layers, for example.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined or illustrated in one figure, it will not need to be further discussed or illustrated in detail in the description of the following figure.

As shown in fig. 1 to 7, the present invention provides a technical solution: a waterproof heat-preservation energy-saving building outer wall is characterized in that a wall body is divided into different mounting structures, a corner mounting frame 1 is used as a mounting base, heat-preservation and heat-insulation mechanisms 4 are stacked in a layer-by-layer up-down splicing mode, a waterproof layer 5 is coated on the surface of the corner mounting frame, modular mounting of the wall body is achieved, the corner mounting frame 1 is used as the mounting base corner mounting frame 1, a plurality of corner mounting frames 1 are arranged, mounting clamping grooves 103 of adjacent corner mounting frames 1 are sequentially connected with a fixed plate 3 and the heat-preservation and heat-insulation mechanisms 4 from inside to outside, each corner mounting frame 1 comprises an L-shaped preformed plate 101, mounting clamping grooves 103 are respectively arranged at two ends of the L-shaped structure of each L-shaped preformed plate 101, through holes 102 are formed in each L-shaped preformed plate 101 in a penetrating mode, and the through holes 102 formed in each L-shaped preformed plate 101 in a prefabricating mode can reduce the weight of the whole L-shaped preformed plate 101 so as to reduce raw materials required by production, in principle, the principle of the method is that aluminum alloy materials can be replaced by strength resin on a wall surface with a smaller area, so as to further reduce the cost, connecting plates 106 are fixedly connected to the outer walls adjacent to the installation clamping grooves 103, the connecting plates 106 are in threaded connection with the outer walls of the installation clamping grooves 103, fixing bolts 105 are arranged at the other ends connected with the outer walls of the installation clamping grooves 103 in a penetrating mode, L-shaped contact pads 104 are fixedly connected to the outer walls adjacent to the installation clamping grooves 103, the L-shaped contact pads 104 wrap the connecting parts of the connecting plates 106 and the L-shaped preformed plates 101 inside, the heat preservation and insulation mechanism 4 comprises heat preservation bricks 401, the front faces of the heat preservation bricks 401 are fixedly connected with secondary installation plates 404 through bolts, supporting fiber nets are arranged between the secondary installation plates 404 and the heat preservation bricks 401, limit connecting frames 405 are fixedly connected to the two sides of the front faces of the secondary installation plates 404, panels 403 are fixedly connected to the front faces of the two limit connecting frames 405, an installation cavity is formed between the two limiting connecting frames 405 and the panel 406, porous heat-insulating foam 407 is filled in the installation cavity in a clamping mode, a double heat-insulating structure is constructed by arranging heat-insulating bricks 401 and the porous heat-insulating foam 407, the internal heat-insulating space is increased, the energy-saving heat-insulating effect is improved, the top fixing mechanism 6 comprises clamping pipes 601, a plurality of clamping pipes 601 are arranged, a top plate 602 is arranged between every two adjacent clamping pipes 601, a leveling pad 2, a fixing plate 3 and a waterproof layer 5 are arranged, the waterproof layer 5 is used for preventing indoor water, other water or underground water from entering a roof, permeating a wall body, a basement and an underground structure, permeating material layers arranged on a floor surface, a wall surface and the like, and the requirement on an ideal waterproof layer 5 can be simply summarized as waterproof after construction and waterproof within the design years and is economic. This requirement waterproof layer 5 not only keeps good integrality, but also has certain ability of resisting external damage, heat preservation heat-proof mechanism 4 sets up and splices each other with a plurality of and top-down, heat preservation cavity 402 has been seted up to heat preservation mechanism 4's insulating brick 401 is inside, the top of insulating brick 401 is provided with the joint protrusion, the bellied recess of adaptation is seted up to the bottom, it pastes in fixed plate 3 back and does not contact with corner mounting bracket 1 to smooth pad 2 four corners, it has the shearing angle to smooth pad 2 four corners restoration, the position of shearing angle is corresponding with connecting plate 106, waterproof layer 5 is scribbled in the front of a plurality of panels 406, panel 406 is located the outside of corner mounting bracket 1, panel 406, second grade mounting panel 404, spacing link 405 forms the worker's shape structure with insulating brick 401.

firstly, connecting a connecting plate 106 with an L-shaped preformed plate 101 through bolts, then laying an L-shaped contact pad 104 at the position where the L-shaped preformed plate 101 is contacted with the wall surface, and wrapping the position where the connecting plate 106 is contacted with the L-shaped preformed plate 101 and the bolts for connection inside to ensure that the connecting plate is in flat contact with the wall surface;

fixing the corner mounting frame 1 at the corner of the wall surface by using the connecting plate 106 and the fixing bolt 105, then pasting the leveling pad 2 on the wall surface, cutting a shearing angle with the same position as the connecting plate 106 at the four corners of the leveling pad 2, and ensuring that the leveling pad 2 and the fixing bolt 105 are on the same plane;

inserting the fixing plate 3 into the opposite mounting clamping grooves 103 of the two adjacent corner mounting frames 1 from top to bottom, and extruding the front surface of the fixing plate 3 to be bonded with the flat pad 2;

fourthly, placing the heat-insulated mechanisms 4 from top to bottom end to end in sequence, wherein the heat-insulated mechanisms 4 are I-shaped integrally, and the panels 406 are arranged outside the mounting clamping grooves 103;

step five, pressing the top plate 602 on the heat preservation and insulation mechanism 4 positioned at the top of the installation clamping groove 103 through the clamping pipe 601 at the top of the corner installation frame 1;

and step six, leveling the panels 406 of the heat-insulating mechanisms 4, smearing the waterproof layer 5 on the surfaces of the panels 406, and finishing the installation of the single-sided waterproof heat-insulating energy-saving building outer wall after the maintenance is finished.

It should be noted that the bottom of corner mounting bracket 1 contacts ground, and the both sides of the level and smooth pad 2 in step two have all been smeared the adhesion and have been glued, and the bonding effect can all be realized on the two sides of level and smooth pad 2, and the one side bonds wall another side bonding fixed plate 3, has realized the location of fixed plate 3 in order to avoid its influence to keep warm the installation of thermal-insulated mechanism 4.

It should be noted that the fixing plate 3 in the embodiment is a wooden plate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a waterproof heat preservation energy-saving building outer wall which characterized in that: comprises that

The corner mounting frame (1) comprises an L-shaped preformed plate (101), two ends of an L-shaped structure of the L-shaped preformed plate (101) are respectively provided with an installation clamping groove (103), a through hole (102) penetrates through the inside of the L-shaped preformed plate (101), the outer wall adjacent to the installation clamping groove (103) is fixedly connected with a connecting plate (106), the connecting plate (106) is in threaded connection with the outer wall of the installation clamping groove (103), a fixing bolt (105) penetrates through the other end connected with the outer wall of the installation clamping groove (103), the outer wall adjacent to the installation clamping groove (103) is fixedly connected with an L-shaped contact pad (104), and the part, connected with the L-shaped preformed plate (101), of the connecting plate (106) is wrapped inside by the L-shaped contact pad (104);

the heat-insulation mechanism (4) comprises a heat-insulation brick (401), the front surface of the heat-insulation brick (401) is fixedly connected with a second-level mounting plate (404) through bolts, a supporting fiber net (403) is arranged between the second-level mounting plate (404) and the heat-insulation brick (401), both sides of the front surface of the second-level mounting plate (404) are fixedly connected with limiting connecting frames (405), the front surfaces of the two limiting connecting frames (405) are fixedly connected with panels (406), an installation cavity is formed between the two limiting connecting frames (405) and the panels (406), and porous heat-insulation foam (407) is clamped and filled in the installation cavity;

the top fixing mechanism (6) comprises a plurality of clamping pipes (601), and a top plate (602) is arranged between every two adjacent clamping pipes (601);

a flat pad (2), a fixing plate (3) and a waterproof layer (5).

2. The waterproof heat-insulating energy-saving building outer wall according to claim 1, characterized in that: the corner mounting rack (1) is provided with a plurality of corner mounting racks, and the mounting clamping grooves (103) of the adjacent corner mounting racks (1) are sequentially connected with the fixed plate (3) and the heat preservation and insulation mechanism (4) from inside to outside.

3. The waterproof heat-insulating energy-saving building outer wall according to claim 1, characterized in that: the heat-insulation mechanism (4) is arranged to be mutually spliced with a plurality of heat-insulation mechanisms from top to bottom, a heat-insulation cavity (402) is formed inside a heat-insulation brick (401) of the heat-insulation mechanism (4), a connecting bulge is arranged at the top of the heat-insulation brick (401), and a groove matched with the bulge is formed in the bottom of the heat-insulation brick.

4. The waterproof heat-insulating energy-saving building outer wall according to claim 1, characterized in that: the leveling pad (2) is adhered to the back of the fixing plate (3) and is not contacted with the corner mounting rack (1), shear corners are built at four corners of the leveling pad (2), and the positions of the shear corners correspond to the connecting plate (106).

5. The waterproof heat-insulating energy-saving building outer wall according to claim 1, characterized in that: the waterproof layer (5) is coated on the front surfaces of the panels (406), the panels (406) are located on the outer sides of the corner mounting frames (1), and the panels (406), the secondary mounting plates (404), the limiting connecting frames (405) and the insulating bricks (401) form an I-shaped structure.

6. A method for installing a waterproof heat-insulating energy-saving building outer wall, which adopts the waterproof heat-insulating energy-saving building outer wall of claims 1-5, and is characterized in that: the installation method specifically comprises the following steps:

firstly, connecting a connecting plate (106) with an L-shaped preformed plate (101) through bolts, then laying an L-shaped contact pad (104) at the position where the L-shaped preformed plate (101) is contacted with the wall surface, and wrapping the contact position of the connecting plate (106) and the L-shaped preformed plate (101) and the bolts for connection inside to ensure that the connecting plate is in smooth contact with the wall surface;

fixing the corner mounting frame (1) at the corner of the wall surface by using the connecting plate (106) and the fixing bolt (105), then pasting the leveling pad (2) on the wall surface, cutting a cutting corner at the same position as the connecting plate (106) at the four corners of the leveling pad (2), and ensuring that the leveling pad (2) and the fixing bolt (105) are on the same plane;

inserting a fixing plate (3) into the opposite mounting clamping grooves (103) of the two adjacent corner mounting frames (1) from top to bottom, and extruding the front surface of the fixing plate (3) to be bonded with the flat pad (2);

fourthly, placing the heat-insulated mechanisms (4) to be insulated sequentially end to end from top to bottom, wherein the whole heat-insulated mechanisms (4) are I-shaped, and the panels (406) are arranged on the outer sides of the mounting clamping grooves (103);

step five, pressing a top plate (602) on a heat-insulating and heat-connecting mechanism (4) positioned at the top of the mounting clamping groove (103) through a clamping pipe (601) at the top of the corner mounting frame (1);

and step six, leveling the panels (406) of the heat-insulation mechanisms (4), smearing the waterproof layer (5) on the surfaces of the panels (406), and finishing the installation of the single-sided waterproof heat-insulation energy-saving building outer wall after the maintenance is finished.

7. The installation method of the waterproof heat-insulating energy-saving building outer wall according to claim 6, characterized in that: the bottom of the corner mounting frame (1) in the step one is in contact with the ground, and the two sides of the leveling pad (2) in the step two are coated with adhesive glue.

8. The installation method of the waterproof heat-insulating energy-saving building outer wall according to claim 6, characterized in that: and the fixing plate (3) in the third step is a wood plate.