CN216920867U - Heat preservation type green energy-saving curtain wall - Google Patents

Abstract

The utility model relates to a heat preservation type green energy-saving curtain wall, it includes the wall body, the one side of wall body is provided with braced frame, braced frame includes many horizontal side pipes and indulges square pipe, indulge square pipe and the horizontal side pipe violently indulge staggered connection, braced frame keeps away from the one side fixed mounting of wall body has a plurality of first wallboards, braced frame keeps away from the one side of first wallboard and installs the channel-section steel perpendicularly, braced frame's one end fixed mounting is kept away from to the channel-section steel has pre-buried board, pre-buried board inlays locates the wall body, one side fixed mounting that channel-section steel was kept away from to the pre-buried board has the sighting rod, the sighting rod is located inside the wall body, braced frame's both sides and the equal fixed mounting in top side have a plurality of second wallboards, second wallboard and wall body fixed connection. This application has the effect that improves the thermal insulation performance of curtain.

Description

Heat preservation type green energy-saving curtain wall

Technical Field

The application relates to the field of curtain walls, in particular to a heat-preservation type green energy-saving curtain wall.

Background

The curtain wall is an outer wall enclosure of a building, does not bear load, and is a light wall with decorative effect commonly used in modern large and high-rise buildings.

At present, the prior art discloses a curtain, including the wall body, the one side fixed mounting of wall body has braced frame, and braced frame keeps away from wall body one side fixed mounting has a plurality of wallboards.

In view of the above-mentioned related art, the inventor believes that the wall panel forms a cavity with the wall body through the supporting frame, thereby playing a role in heat preservation. But the wallboard is separated from the wall body through the support frame, and the distance between the wallboard and the wall body is small, so that the heat insulation effect of the curtain wall is small.

SUMMERY OF THE UTILITY MODEL

In order to improve the thermal insulation performance of curtain, this application provides a green energy-conserving curtain of heat preservation type.

The application provides a pair of green energy-conserving curtain of heat preservation type adopts following technical scheme:

the utility model provides a green energy-conserving curtain of heat preservation type, includes the wall body, the one side of wall body is provided with braced frame, braced frame includes many horizontal side pipes and indulges square pipe, indulge square pipe and the horizontal cross-under connection of violently indulging, braced frame keeps away from the one side fixed mounting of wall body has a plurality of first wallboards, braced frame keeps away from the one side of first wallboard and installs the channel-section steel perpendicularly, braced frame's one end fixed mounting is kept away from to the channel-section steel has pre-buried board, the pre-buried board inlays locates the wall body, one side fixed mounting that the channel-section steel was kept away from to the pre-buried board has the sighting rod, the sighting rod is located inside the wall body, braced frame's both sides and the equal fixed mounting in top side have a plurality of second wallboards, second wallboard and wall body fixed connection.

Through adopting above-mentioned technical scheme, the channel-section steel is used for increasing the distance of braced frame and wall body to increase the distance between first wallboard and the wall body, later shelter from the space between first wallboard and the wall body through the second wallboard, thereby improve the thermal insulation performance of curtain. Through improving the thermal insulation performance of curtain to reduce the inside heat loss of building, thereby green energy-conserving effect. The embedded plate and the aiming rod are used for enhancing the connection strength between the channel steel and the wall body.

Optionally, the edge of one side of the first wallboard close to the support frame is fixedly provided with an installation frame, the top side and the bottom side of the installation frame are fixedly provided with first connecting plates, one side of the first connecting plate close to the support frame is fixedly provided with a second connecting plate, the second connecting plate is fixedly connected with the transverse pipe, and a reinforcing plate is fixedly arranged between the first connecting plate and the second connecting plate.

Through adopting above-mentioned technical scheme, first wallboard is fixed at braced frame through first connecting plate and second connecting plate. The reinforcing plate is used for reinforcing the connection between the first connecting plate and the second connecting plate.

Optionally, the top side of the mounting frame is inclined toward the outside of the mounting frame.

Through adopting above-mentioned technical scheme, the rainwater descends when the top side of installing frame, and the rainwater is discharged along the incline direction of the top side of installing frame to reduce the rainwater and appear in the condition of the top side gathering of installing frame, and then reduce the rainwater and appear from the condition of the gap infiltration between installing frame and the braced frame.

Optionally, be located adjacent two of same height be provided with first mounting panel between the installing frame, the both sides fixed mounting of first mounting panel has the second mounting panel, first mounting panel supports pastes in the one side that braced frame is close to the wall body, the second mounting panel supports pastes in the inner wall of installing frame, first through-hole has been seted up to the second mounting panel, first through-hole runs through the lateral wall of installing frame, first screw rod is worn to be equipped with inside the wearing and tearing of first through-hole, first screw rod has the installation piece towards the outside one end fixed mounting of installing frame.

Through adopting above-mentioned technical scheme, behind first screw rod passed first through-hole, use the fixed first screw rod of installation piece to two adjacent installing frames fixed connection that make to be located same height are in the same place, and then improve interconnect's intensity between the wallboard.

Optionally, two adjacent installation frames at the same height are fixedly provided with a sealing strip, and the sealing strip is positioned on one side of the first installation plate away from the wall body.

Through adopting above-mentioned technical scheme, the sealing strip is used for blockking up the gap that is located between two adjacent installing frames of co-altitude to the condition that reduces the rainwater from gap infiltration appears. By reducing rainwater entering the space between the first wall plate and the wall body, the situation that the supporting frame is corroded by rainwater is reduced.

Optionally, one side of the mounting block, which is far away from the first screw rod, is an arc surface.

Through adopting above-mentioned technical scheme, the one end that the first screw rod of installation piece parcel is close to the sealing strip to reduce the condition appearance that first screw rod crushes the sealing strip.

Optionally, be provided with the second screw rod between first mounting panel and the side of indulging pipe, the second screw rod is matched with the nut, the second through-hole that supplies the second bolt to wear to establish is all seted up with the side of indulging to first mounting panel.

Through adopting above-mentioned technical scheme, the second screw rod passes and uses the nut to screw behind the second through-hole to improve first wallboard and install the intensity at braced frame.

Optionally, be located and be provided with the breakwater between two adjacent second wallboards of braced frame with one side, the edge that braced frame's one side was kept away from to the second wallboard sets up the recess that supplies the breakwater to place, be provided with the gasket between the tank bottom of breakwater and recess, the screw has been seted up to the one side that the breakwater is close to the gasket, the breakwater is not run through to the screw, the screw matches and is provided with the third screw rod, the third through-hole that supplies the third screw rod to wear to establish is seted up to the tank bottom of recess, the third through-hole runs through the gasket.

Through adopting above-mentioned technical scheme, screw in screw hole behind the third through-hole is passed to the third screw rod to make breakwater and gasket install in the second wallboard. The water baffle and the sealing sheet are used for blocking a gap between two adjacent second wallboards, so that the condition that rainwater permeates from the gap between two adjacent second wallboards is reduced. The screw rod is screwed in from one side of the water baffle close to the sealing sheet, so that the flatness of the outer surface of the second wall plate is favorably kept.

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

1. the distance between the support frame and the wall body is increased through the channel steel, so that the size of a space between the first wall plate and the wall body is increased, the heat insulation performance of the curtain wall is improved, the heat loss in the building is reduced by improving the heat insulation performance of the curtain wall, the use of electric equipment such as an air conditioner in the building is reduced, and the green and energy-saving effects are achieved;

2. the sealing strips are used for blocking gaps between two adjacent first wall plates at the same height, so that the condition that rainwater permeates from the gaps is reduced;

3. the top side of the mounting frame is obliquely arranged, so that the condition that rainwater permeates from a gap between the mounting frame and the supporting frame is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic partial structural view of an embodiment of the present application, which mainly embodies the mechanism of the support frame;

FIG. 3 is an exploded view of an embodiment of the present application, which mainly embodies the structure of the embedment plate and the sighting rod;

FIG. 4 is an exploded view of two second wall panels of an embodiment of the present application;

FIG. 5 is an exploded view of two first wall panels of an embodiment of the present application;

FIG. 6 is an exploded view of an embodiment of the present application, showing primarily the structure of the support frame and the first mounting plate;

fig. 7 is a schematic structural diagram of the first screw according to the embodiment of the present application.

Description of the reference numerals: 1. a wall body; 2. channel steel; 3. a support frame; 31. a transverse square tube; 32. a longitudinal square tube; 4. pre-burying a plate; 5. an aiming lever (5); 6. a first wall panel; 7. a second wall panel; 8. a water baffle; 9. a groove; 10. sealing the sheet; 11. a screw hole; 12. a first screw; 13. a second screw; 14. a third screw; 15. mounting blocks; 16. a nut; 17. a first through hole; 18. a second through hole; 19. a third through hole; 20. installing a frame; 21. a first connecting plate; 22. a second connecting plate; 23. a reinforcing plate; 24. a sealing strip; 25. a first mounting plate; 26. a second mounting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a heat preservation type green energy-saving curtain wall.

Referring to fig. 1 and 2, the heat-preservation green energy-saving curtain wall comprises a wall body 1, wherein a support frame 3 is arranged on one surface of the wall body 1, and the support frame comprises a plurality of transverse square pipes 31 and longitudinal square pipes 32. The longitudinal square pipes 32 and the transverse square pipes 31 are connected in a staggered manner. Be provided with channel-section steel 2 between braced frame 3 and the wall body 1, the one end and braced frame 3 fixed connection of channel-section steel 2, the other end fixed mounting of channel-section steel 2 has pre-buried board 4.

Referring to fig. 2 and 3, the channel steel 2 is perpendicular to one surface of the support frame 3 close to the wall 1. The embedded plate 4 is embedded in one surface of the wall body 1 close to the supporting frame 3. One side of the embedded plate 4 far away from the channel steel 2 is fixedly provided with an aiming rod 5, and the aiming rod 5 is embedded in the wall body 1.

In the building construction, the embedded plate 4 and the sighting rod 5 are installed in the building in advance. When a curtain wall is installed later, one end of the channel steel 2 is welded on the embedded plate 4, and the other end of the channel steel is welded on the supporting frame 3, so that the supporting frame 3 is fixedly installed on the wall body 1.

Referring to fig. 1 and 4, a plurality of second wall panels 7 are fixedly mounted on the top and both sides of the supporting frame 3, and the second wall panels 7 are fixedly connected with the wall body 1. Two adjacent second wallboard 7 mutually support and paste, are located braced frame 3 and are provided with breakwater 8 between two adjacent second wallboard 7 with one side. The edge of the second wallboard 7 far away from the supporting frame 3 is provided with a groove 9 for placing a water baffle 8, and a sealing sheet 10 is arranged between the groove bottom of the groove 9 and the water baffle 8. A screw hole 11 is formed in one surface, close to the sealing piece 10, of the water baffle 8, the screw hole 11 does not penetrate through the water baffle 8, and a third screw 14 is arranged in the screw hole 11 in a matched mode. The bottom of the groove 9 is provided with a third through hole 19 for the third screw 14 to pass through, and the third through hole 19 penetrates through the sealing sheet 10.

After the support frame 3 is installed on the wall body 1, the second wall panels 7 are installed on the top and both sides of the support frame 3. And then the sealing sheet 10 and the water baffle 8 are sequentially placed in the groove 9, and a third bolt is used for penetrating through the third through hole 19 and then screwing into the screw hole 11. The sealing sheet 10 and the water baffle 8 block the gap between two adjacent second wall boards 7, so that the condition that rainwater permeates into the gap between two adjacent second wall boards 7 to corrode the support frame 3 is reduced.

Referring to fig. 1 and 5, one side of the supporting frame 3, which is far away from the wall 1, is provided with a plurality of first wallboards 6, and one side of each first wallboard 6, which is close to the supporting frame 3, is fixedly provided with an installation frame 20 along an edge. The top side and the bottom side of the mounting frame 20 are fixedly provided with a first connecting plate 21, and one side of the first connecting plate 21 close to the supporting frame 3 is fixedly provided with a second connecting plate 22. The second connecting plate 22 is fixedly connected to the transverse square tube 31. The mounting frame 20 is integrally formed with the first wall panel 6.

A reinforcing plate 23 is fixedly arranged between the first connecting plate 21 and the second connecting plate 22, and the first connecting plate 21, the second connecting plate 22 and the reinforcing plate 23 are integrally formed.

First wallboard 6 is through first connecting plate 21 and second connecting plate 22 fixed mounting on braced frame 3, and reinforcing plate 23 is used for strengthening the connection between first connecting plate 21 and the second connecting plate 22 simultaneously to it is cracked the condition after bending downwards to reduce first connecting plate 21 to receive the influence of first wallboard 6 gravity to appear.

Referring to fig. 1, the top side of the mounting frame 20 is disposed obliquely toward the outside of the mounting frame 20. In the rain, rainwater falls to the top side of the mounting frame 20, and then the rainwater flows out under the influence of the inclination direction of the top side of the mounting frame 20, thereby reducing the occurrence of the infiltration of rainwater from the gap between the top side of the mounting frame 20 and the support frame 3.

Referring to fig. 1, a sealing strip 24 is disposed between two adjacent installation frames 20 at the same height, and the sealing strip 24 blocks a gap between the two adjacent installation frames 20 at the same height, so that rainwater infiltration from the gap between the two adjacent installation frames 20 at the same height is reduced.

Referring to fig. 5, 6 and 7, a first mounting plate 25 is disposed between two adjacent mounting frames 20 at the same height, and the first mounting plate 25 abuts against one side of the supporting frame 3 close to the wall 1. The second mounting plate 26 is fixedly mounted on two sides of the first mounting plate 25, and the first mounting plate 25 and the second mounting plate 26 are integrally formed. The second mounting plate 26 abuts against the inner wall of the mounting frame 20. The second mounting plate 26 has a first through hole 17, and the first through hole 17 penetrates through the side wall of the mounting frame 20. A first screw 12 penetrates through the first through hole 17, and an installation block 15 is fixed at one end, close to the sealing strip 24, of the first screw 12. The first screw 12 passes through the first through hole 17, and then the mounting block 15 is fixedly mounted on the first screw 12, thereby fixedly connecting the second mounting plate 26 with the mounting frame 20. Two adjacent first wall panels 6 at the same height are mounted together by first mounting plate 25 and second mounting plate 26, thereby clamping sealing strip 24.

The side of the mounting block 15 away from the first screw 12 is cambered. The mounting block 15 is used to wrap the end of the first screw 12, thereby reducing the risk of the first screw 12 scratching the sealing strip 24.

A second screw 13 is arranged between the first mounting plate 25 and the longitudinal pipe 32, and the second screw 13 is matched with a nut 16. The first mounting plate 25 and the longitudinal pipe 32 are both provided with a second through hole 18 for the second bolt to penetrate. The second screw 13 is passed through the second through hole 18 and then tightened using the nut 16, thereby improving the coupling strength between the first wall panel 6 and the support frame 3.

The implementation principle of the heat-preservation green energy-saving curtain wall in the embodiment of the application is as follows: the channel steel 2 is used for increasing the distance between the support frame 3 and the wall body 1, so that the size of the space between the first wall board 6 and the wall body 1 is increased. The space between the first wall plate 6 and the wall body 1 is enlarged, so that the heat insulation performance of the curtain wall is improved.

In summer, the heat preservation performance of the curtain wall is improved, so that the temperature inside the building is reduced and is increased under the influence of the temperature outside the building, the power required by opening cooling equipment such as an air conditioner inside the building is reduced, and the effects of green and energy conservation are achieved.

In winter, the heat insulation performance of the curtain wall is improved, so that heat loss inside the building is reduced. The heat loss in the building is reduced, so that the power required by starting temperature rising equipment such as an air conditioner and the like in the building is reduced, and the green and energy-saving effects are achieved.

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 energy-conserving curtain of heat preservation type which characterized in that: the wall comprises a wall body (1), a supporting frame (3) is arranged on one side of the wall body (1), the supporting frame (3) comprises a plurality of transverse square pipes (31) and longitudinal square pipes (32), the longitudinal square pipes (32) and the transverse square pipes (31) are transversely and longitudinally connected in a staggered manner, one side, far away from the wall body (1), of the supporting frame (3) is fixedly provided with a plurality of first wallboards (6), one side, far away from the first wallboards (6), of the supporting frame (3) is vertically provided with channel steel (2), one end, far away from the supporting frame (3), of the channel steel (2) is fixedly provided with an embedded plate (4), the embedded plate (4) is embedded in the wall body (1), one side, far away from the channel steel (2), of the embedded plate (4) is fixedly provided with an aiming rod (5), the aiming rod (5) is positioned in the wall body (1), two sides and the top side of the supporting frame (3) are fixedly provided with a plurality of second wallboards (7), and the second wallboard (7) is fixedly connected with the wall body (1).

2. The heat-preservation type green energy-saving curtain wall according to claim 1, is characterized in that: the utility model discloses a wall panel, including first wallboard (6), first connecting plate (22), horizontal square pipe (31), first wallboard (6) are close to the edge fixed mounting of the one side of braced frame (3) has installing frame (20), the top side and the equal fixed mounting of bottom side of installing frame (20) have first connecting plate (21), one side fixed mounting that first connecting plate (21) are close to braced frame (3) has second connecting plate (22), second connecting plate (22) with horizontal square pipe (31) fixed connection, fixed mounting has reinforcing plate (23) between first connecting plate (21) and second connecting plate (22).

3. The heat-preservation type green energy-saving curtain wall according to claim 2, is characterized in that: the top side of the mounting frame (20) is obliquely arranged towards the outside of the mounting frame (20).

4. The heat-preservation type green energy-saving curtain wall according to claim 2, is characterized in that: be located adjacent two of same height be provided with first mounting panel (25) between installing frame (20), the both sides fixed mounting of first mounting panel (25) has second mounting panel (26), first mounting panel (25) are to pasting in one side that braced frame (3) are close to wall body (1), second mounting panel (26) are to pasting in the inner wall of installing frame (20), first through-hole (17) have been seted up in second mounting panel (26), the lateral wall of installing frame (20) is run through in first through-hole (17), first screw rod (12) are worn to be equipped with in first through-hole (17) inside, first screw rod (12) have installation piece (15) towards the outside one end fixed mounting of installing frame (20).

5. The heat-preservation type green energy-saving curtain wall according to claim 4 is characterized in that: be located adjacent two of same height fixed mounting has sealing strip (24) between installing frame (20), one side that wall body (1) was kept away from in sealing strip (24) are located first mounting panel (25).

6. The heat-preservation type green energy-saving curtain wall according to claim 5, is characterized in that: one side of the mounting block (15) far away from the first screw (12) is an arc surface.

7. The heat-preservation type green energy-saving curtain wall according to claim 4 is characterized in that: first mounting panel (25) and indulge and be provided with second screw rod (13) between square pipe (32), second screw rod (13) are matchd and are had nut (16), second through-hole (18) that supply the second bolt to wear to establish are all seted up with the square pipe (32) of indulging in first mounting panel (25).

8. The heat-preservation type green energy-saving curtain wall according to claim 1, is characterized in that: be located and be provided with between two adjacent second wallboard (7) of braced frame (3) with one side breakwater (8), recess (9) that confession breakwater (8) were placed are seted up at the edge of the one side of braced frame (3) are kept away from in second wallboard (7), be provided with gasket (10) between the tank bottom of breakwater (8) and recess (9), screw (11) have been seted up in the one side that breakwater (8) are close to gasket (10), water baffle (8) do not run through breakwater (8) screw (11), screw (11) match is provided with third screw rod (14), third through-hole (19) that confession third screw rod (14) were worn to establish are seted up to the tank bottom of recess (9), third through-hole (19) run through gasket (10).

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