CN215519323U - Energy-saving heat-insulating wall - Google Patents

Abstract

The utility model belongs to the technical field of thermal insulation wall's technique and specifically relates to an energy-conserving thermal insulation wall body is related to, including the concrete seat, outer wall and interior wall, the outer wall is located the top of concrete seat, the concrete seat is fixed subaerial, the top surface of concrete seat is fixed with the rock wool board, one side that the outer wall is close to the rock wool board is pasted fixedly with the rock wool board, be provided with dampproofing subassembly on the concrete seat, dampproofing subassembly is used for dampproofing to the rock wool board, the interior wall is through being provided with coupling assembling and install the one side that deviates from the outer wall at the rock wool board, coupling assembling is used for fixing the interior wall, still install the thermal insulation subassembly between rock wool board and the interior wall, in order to improve thermal insulation wall body moisture resistance, this application provides an energy-conserving thermal insulation wall body, can improve the moisture resistance and the thermal insulation performance of wall body effectively, thereby can improve thermal insulation wall body's life.

Description

Energy-saving heat-insulating wall

Technical Field

The application relates to the technical field of heat-insulating wall bodies, in particular to an energy-saving heat-insulating wall body.

Background

The wall body is an important component of a building, plays a role in bearing and separating space, and along with the gradual enhancement of the awareness of energy-saving part emission reduction of people, people pay more and more attention to the heat-insulating wall body which is generally divided into an outer wall and an inner wall.

In addition, most thermal insulation wall body is direct mount subaerial on the market mostly, and thermal insulation wall body direct mount can lead to the internal insulation material of wall at the use subaerial, produces the comdenstion water easily, and the production of comdenstion water makes the internal insulation material of wall wet to influence thermal insulation wall's heat preservation effect, can make thermal insulation wall body damage when wetting seriously, reduced thermal insulation wall body's life.

SUMMERY OF THE UTILITY MODEL

In order to improve heat preservation wall body humidity resistance, this application provides an energy-conserving heat preservation wall body, can improve the humidity resistance and the thermal insulation performance of wall body effectively to heat preservation wall body's life can be improved.

The application provides an energy-conserving thermal insulation wall body adopts following technical scheme:

the utility model provides an energy-conserving thermal insulation wall, including concrete seat, outer wall and interior wall, the outer wall is located the top of concrete seat, the concrete seat is fixed subaerial, the top surface of concrete seat is fixed with the rock wool board, the outer wall is close to one side of rock wool board with the rock wool board is pasted fixedly, be provided with dampproofing subassembly on the concrete seat, dampproofing subassembly is used for dampproofing to the rock wool board, the interior wall is installed through being provided with coupling assembling the rock wool board deviates from one side of outer wall, coupling assembling is used for fixing the interior wall, the rock wool board with still install the subassembly that keeps warm between the interior wall.

Through adopting above-mentioned technical scheme, the setting up of concrete seat makes thermal insulation wall and ground have the difference in height for the comdenstion water is difficult for advancing the middle part of wall body from thermal insulation wall's bottom, and the setting of dampproofing subassembly can improve the humidity resistance of wall body effectively, has improved thermal insulation wall's life to a certain extent, and under rock wool board and thermal insulation assembly's mating reaction, messenger thermal insulation wall has the thermal insulation performance.

Preferably, the heat-insulating assembly includes: the insulation board is fixed at the top of the concrete seat; the empty groove is formed between the outer wall and the rock wool boards, wherein the top of the heat insulation board is installed at the bottom of the inner wall, and the empty groove is formed between the heat insulation board and the rock wool boards.

Through adopting above-mentioned technical scheme, the setting up of heated board makes thermal insulation wall have good heat preservation effect, leaves the dead slot in the thermal insulation wall and can improve thermal insulation wall's thermal insulation performance to a certain extent.

Preferably, the moisture barrier assembly comprises: the eave base plate is arranged in the middle of the outer wall and close to one end of the concrete seat; the first apron flashing is installed on one side, close to the rock wool board, of the outer wall; the second apron flashing is arranged on one side, close to the rock wool board, of the heat insulation board; the first sealing square tube is arranged between the heat insulation plate and the inner wall; and a second sealing square tube arranged between the heat insulation plate and the concrete seat.

Through adopting above-mentioned technical scheme, the setting up of eaves backing plate makes during the difficult bottom infiltration thermal insulation wall body of following the outer wall of comdenstion water, and the setting up of first apron flashing, second apron flashing can completely cut off the comdenstion water to a certain extent and get into thermal insulation wall body from the both sides face of horizontal muscle, and under the first cooperation that seals the square tube and the second square tube that seals, can reduce the comdenstion water and get into in the wall body from the both ends of heated board to thermal insulation wall body's life can be improved.

Preferably, the connection assembly includes: one end of the transverse rib is connected with one side of the rock wool board close to the outer wall through a bolt, and the other end of the transverse rib is connected with one side of the heat insulation board away from the rock wool board through threads; the steel wire mesh is attached to one side, close to the inner wall, of the rock wool board; angle steel which is attached and fixed on the top of the concrete seat; the pressing plate is arranged at the top of the concrete seat, the angle steel is abutted to the steel wire mesh, and the pressing plate is abutted to the angle steel.

Through adopting above-mentioned technical scheme, under the cooperation through horizontal muscle, angle steel and clamp plate, can bear the thermal insulation wall body dead weight to a certain extent, can prevent thermal insulation wall body effectively because of the heavy creep that leads to, improved thermal insulation wall body's structural performance effectively to thermal insulation wall body's life can be improved.

Preferably, the side surface of the concrete seat is coated with a cured coating.

By adopting the technical scheme, the setting of the curing coating can effectively improve the weather resistance and the heat resistance of the concrete seat, and the concrete seat can be well protected.

Preferably, the top surface of the concrete seat is provided with a leveling layer.

Through adopting above-mentioned technical scheme, the screed-coat can make the upper surface of concrete seat more level and more smooth, installs on the concrete seat for the rock wool board and provides stability can.

Preferably, the outer wall comprises a cavity, and the eave backing plate is matched with the cavity in size. .

Through adopting above-mentioned technical scheme, the size of eaves backing plate and the big or small looks adaptation of cavity can reduce the clearance between eaves backing plate and the cavity to reduce the comdenstion water from getting into in the heat preservation wall body.

Preferably, the opposite two side surfaces of the heat-insulation board are coated with flame-retardant layers.

Through adopting above-mentioned technical scheme, the fire resistance of heated board can be improved effectively in the setting on fire-retardant layer to can improve heat insulation wall's security.

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

1. the arrangement of the concrete seat enables the height difference between the heat-insulating wall body and the ground, so that condensed water is not easy to enter the middle part of the wall body from the bottom of the heat-insulating wall body;

2. the arrangement of the eave cushion plate enables condensed water not to easily penetrate into the heat-insulating wall body from the bottom of the outer wall, the arrangement of the first and second flashing plates can isolate the condensed water from entering the heat-insulating wall body from two side faces of the transverse rib to a certain extent, and the condensed water can be reduced from entering the wall body from two ends of the heat-insulating plate under the matching of the first sealing square tube and the second sealing square tube, so that the service life of the heat-insulating wall body can be prolonged;

3. through the cooperation of horizontal muscle, angle steel and clamp plate, can bear thermal insulation wall body dead weight to a certain extent, can prevent thermal insulation wall body effectively because of the heavy creep that leads to, improved thermal insulation wall body's structural performance effectively to thermal insulation wall body's life can be improved.

Drawings

Fig. 1 is a schematic overall structure diagram in the embodiment of the present application.

Fig. 2 is a top sectional view of the thermal insulation wall in the embodiment of the present application.

Description of reference numerals: 1. an outer wall; 11. a cavity; 21. an eave backing plate; 22. a first apron flashing; 23. a second apron flashing; 24. a first sealing square tube; 25. a second sealing square tube; 26. a concrete seat; 261. leveling layer; 262. curing the coating; 3. transverse ribs; 4. rock wool boards; 41. steel wire mesh; 42. angle steel; 43. pressing a plate; 44. a thermal insulation board; 45. a flame retardant layer; 46. an empty groove; 5. and (4) an inner wall.

Detailed Description

In order to make the purpose, technical solution and advantages of the present application more clear, the present application is further described in detail below with reference to fig. 1-2 and the embodiments.

The embodiment of the application discloses an energy-saving heat-insulating wall body.

Referring to fig. 1, an energy-conserving thermal insulation wall, including outer wall 1 and interior wall 5, bottom at outer wall 1 is provided with concrete seat 26, concrete seat 26 is fixed subaerial, top surface at concrete seat 26 is fixed with rock wool board 4, in this application embodiment, rock wool board 4 is overlapped with outer wall 1 and is laid, it is fixed mutually to adopt the glued mode of glue between outer wall 1 and the rock wool board 4, be provided with horizontal muscle 3 between outer wall 1 and inner wall 5, it is fixed mutually that one side that horizontal muscle 3 is close to outer wall 1 and rock wool board 4 are close to the mode of adopting screw connection between one side of outer wall 1, equally, it is fixed mutually that one side that inner wall 5 is close to outer wall 1 and the mode of adopting screw connection between one side that outer wall 1 was kept away from to horizontal muscle 3.

Be provided with heated board 44 between the bottom surface of interior wall 5 and the top surface of concrete seat 26, heated board 44 is fixed through screw connection's mode and horizontal muscle 3 equally, in the embodiment of this application, interior wall 5 is various steel sheet, and heated board 44 is the calcium silicate board, and the width dimension of heated board 44 is less than the width dimension of interior wall 5, and the calcium silicate board has certain fire resistance and humidity resistance for the inside of wall body is difficult for weing and damages.

In order to stably install the rock wool board 4 on the concrete seat 26, a leveling layer 261 is arranged on the top surface of the concrete seat 26, a steel wire mesh 41 is arranged on one side, close to the inner wall 5, of the rock wool board 4, the steel wire mesh 41 is arranged in a stacking mode with the rock wool board 4, the steel wire mesh 41 is adhered to the rock wool board 4 through mortar, angle steel 42 is arranged on one side, away from the outer wall 1, of the rock wool board 4, the extending direction of the angle steel 42 is consistent with the length extending of the inner wall 5, one side, close to the rock wool board 4, of the angle steel 42 is fixedly attached to the rock wool board 4, one side, close to the transverse rib 3, of the angle steel 42 is fixedly attached to the transverse rib 3, specifically, the angle steel 42 and the rock wool board 4, the angle steel 42 and the transverse rib 3 are fixedly connected through screws, the steel wire mesh 41 is arranged at the position between the two angle steel 42, the angle steel 42 and the steel wire mesh 41 are abutted, and the arrangement of the angle steel wire 42 enhances the structural performance of the wall, so that the rock wool panel 4 can be stably installed on the concrete seat 26.

In addition, a pressing plate 43 is fixed on one side of the angle steel 42 far away from the rock wool board 4, the angle steel 42 is clamped in the middle of the pressing plate 43, one side of the pressing plate 43 close to the angle steel 42 is attached to the angle steel 42, the pressing plate 43 provides horizontal extrusion force for installing the rock wool board 4 on the concrete seat 26, and the rock wool board 4 can be installed on the concrete seat 26 more stably.

In order to make the wall body have good heat preservation effect, scribble fire-retardant layer 45 in the opposite both sides face of thermal-protective panel 44, in this application embodiment, fire-retardant layer 45's material is polyvinyl chloride resin, has seted up dead slot 46 between interior wall 5 and rock wool board 4, and dead slot 46 forms between thermal-protective panel 44 and rock wool board 4 to make the width dimension of horizontal muscle 3 and the interval between outer wall 1 and the interior wall 5 unanimous.

Referring to fig. 1 and 2, in this embodiment of the application, the outer wall 1 is the color steel plate as well, the outer wall 1 includes a cavity 11, in order to reduce the middle part that the condensed water in the air gets into the wall, an eaves backing plate 21 is fixed in the middle part of the cavity 11, the eaves backing plate 21 is located at one end of the outer wall 1 close to the concrete base 26, the length dimension of the eaves backing plate 21 is consistent with the length dimension of the outer wall 1, and the eaves backing plate 21 can isolate the condensed water in the air from getting into the wall to a certain extent.

In addition, be fixed with first square tube 24 of sealing between interior wall 5 and heated board 44, the length dimension of first square tube 24 of sealing is unanimous with the length dimension of interior wall 5, the width dimension of first square tube 24 of sealing is greater than the width dimension of interior wall 5, and, the top surface of first square tube 24 of sealing is laminated with the bottom surface of interior wall 5, the bottom surface of first square tube 24 of sealing is laminated with the top surface of heated board 44, likewise, be provided with second square tube 25 of sealing in the one end that heated board 44 is close to concrete seat 26 equally, the setting up of first square tube 24 of sealing and second square tube 25 can completely cut off the comdenstion water in the air to get into in the wall to a certain extent, the phenomenon that the wall body damaged by the tide has been reduced and has taken place, the life of wall body has been improved effectively.

Referring to fig. 1, a first apron flashing 22 is arranged between an outer wall 1 and a rock wool board 4, the first apron flashing 22 is located at one end close to a concrete seat 26, a second apron flashing 23 is arranged between an insulation board 44 and a transverse rib 3, the first apron flashing 22 and the second apron flashing 23 are fixed with the transverse rib 3 in a screw connection mode, one side, close to the insulation board 44, of the second apron flashing 23 is attached to a second sealing square tube 25, and curing coatings 262 are respectively coated on two opposite side faces of the concrete seat 26.

The implementation principle of the energy-saving heat-insulating wall body in the embodiment of the application is as follows:

the staff places rock wool board 4 on screed-coat 261 on concrete seat 26 earlier, outer wall 1 is fixed on rock wool board 4 through the glued mode of glue, one side and rock wool board 4 with horizontal muscle 3 are fixed, angle steel 42 is fixed in the one side that outer wall 1 was kept away from to rock wool board 4, clamp plate 43 compresses tightly angle steel 42, heated board 44, one side that outer wall 1 was kept away from with horizontal muscle 3 respectively to interior wall 5 is fixed, and make and leave dead slot 46 between rock wool board 4 and the interior wall 5, make the wall body have good heat preservation effect.

Fix the middle part at cavity 11 to eaves backing plate 21 interlude, fix first square tube 24 of sealing between interior wall 5 and heated board 44, seal the square tube 25 to fix the one end that heated board 44 is close to concrete seat 26 to the second, fix first apron flashing 22 in the inboard that outer wall 1 is close to concrete seat 26 one end, fix second apron flashing 23 in the inboard that heated board 44 is close to concrete seat 26 one end, the phenomenon that the wall body wet the damage has been reduced and has taken place, the life of wall body has been improved effectively.

The above are all preferred embodiments of the present application, and the present embodiment is only explained for the present application, and the protection scope of the present application is not limited by this, 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. An energy-saving heat-insulating wall body is characterized by comprising a concrete seat (26), an outer wall (1) and an inner wall (5), the outer wall (1) is positioned on the top of the concrete seat (26), the concrete seat (26) is fixed on the ground, the top surface of the concrete seat (26) is fixed with a rock wool board (4), one side of the outer wall (1) close to the rock wool board (4) is stuck and fixed with the rock wool board (4), the concrete seat (26) is provided with a moisture-proof component which is used for preventing moisture of the rock wool board (4), the inner wall (5) is arranged on one side of the rock wool board (4) departing from the outer wall (1) through being provided with a connecting component, coupling assembling is used for fixing interior wall (5), rock wool board (4) with still install the subassembly that keeps warm between interior wall (5).

2. The energy saving thermal insulation wall body of claim, wherein the thermal insulation assembly comprises: an insulation board (44) fixed on top of the concrete seat (26); the hollow groove (46) is formed between the outer wall (1) and the rock wool board (4), the top of the heat insulation board (44) is installed at the bottom of the inner wall (5), and the hollow groove (46) is formed between the heat insulation board (44) and the rock wool board (4).

3. The energy saving thermal insulating wall body of claim, wherein the moisture-proof assembly comprises: an eave backing plate (21) which is arranged in the middle of the outer wall (1) and is close to one end of the concrete seat (26); the first flashing plate (22) is arranged on one side, close to the rock wool plate (4), of the outer wall (1); a second flashing plate (23) arranged on one side of the heat insulation plate (44) close to the rock wool plate (4); a first sealing square tube (24) installed between the heat insulation plate (44) and the inner wall (5); a second sealed square tube (25) installed between the insulation board (44) and the concrete seat (26).

4. The energy saving thermal insulation wall body as claimed in, wherein the connection assembly comprises: one end of the transverse rib is connected with one side of the rock wool plate (4) close to the outer wall (1) through a bolt, and the other end of the transverse rib is connected with one side of the heat insulation plate (44) away from the rock wool plate (4) through a thread; the steel wire mesh (41) is attached to one side, close to the inner wall (5), of the rock wool board (4); angle steel (42) attached and fixed to the top of the concrete seat (26); the pressing plate (43) is arranged on the top of the concrete seat (26), the angle steel (42) is abutted to the steel wire mesh (41), and the pressing plate (43) is abutted to the angle steel (42).

5. An energy saving thermal insulating wall as claimed in claim, characterised in that the concrete seat (26) is coated on its sides with a cured coating (262).

6. An energy saving thermal insulating wall body according to the claim, characterized in that the top surface of the concrete seat (26) is provided with a leveling layer (261).

7. The energy-saving heat-insulating wall body as claimed in the claim, characterized in that the outer wall (1) comprises a cavity (11), and the eave backing plate (21) is matched with the cavity (11).

8. The energy-saving heat-insulating wall body as claimed in the claim, characterized in that the opposite sides of the heat-insulating plate (44) are coated with flame-retardant layers (45).

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