CN112227891A - Green energy-saving building structure and construction method thereof - Google Patents

Abstract

The utility model relates to a green energy-saving building structure, include building wall and set up the door and window body on building wall, the door and window body includes the door and window frame, set up in the fixed frame of door and window frame, be located fixed frame inboard and slide and connect in the movable frame of door and window frame and be located the fixed frame outside and slide and connect in the protecting frame of door and window frame, the last reservation of building wall has the door and window entrance to a cave, the door and window frame erection is fixed in the door and window entrance to a cave, the opening has between fixed frame and the door and window frame, fixed frame and movable frame all are provided with glass, the protecting frame sets up the tarpaulin. This application has indoor air permeability and effectively reduces the rainwater splash and gets into indoor possible effect when improving rainy day.

Description

Green energy-saving building structure and construction method thereof

Technical Field

The application relates to the technical field of building structure construction, in particular to a green energy-saving building structure and a construction method thereof.

Background

As is well known, the doors and windows in the existing building engineering are various in types and styles, which not only can make the appearance of the building more pleasing, but also can improve the ventilation and ventilation effects of the building to different degrees.

At present, chinese patent with publication number CN 205259814U discloses a heat preservation push-pull type aluminum alloy door and window, which is characterized in that: it includes the upper end fixed beam, upper end fixed beam below is connected with double-deck heat preservation, upper end fixed beam below is provided with fixed slideway, fixed slideway lower extreme is connected with the door and window top, door and window top below is connected with the big below of door and window, the big below left side of door and window is provided with the door and window below, door and window below and the big below lower extreme of door and window are connected with the glide slope.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when rainy day, in order to prevent the rainwater splash to get into indoorly, all can be closed door and window usually to influenced indoor air's mobility, the air permeability of indoor environment is relatively poor this moment.

Disclosure of Invention

In order to effectively improve the indoor air permeability in rainy days and effectively reduce the possibility that rainwater splashes and enters the room, one of the purposes of the application is to provide a green energy-saving building structure.

On the one hand, the green energy-saving building structure provided by the application adopts the following technical scheme:

the utility model provides a green energy-conserving building structure, includes building wall and sets up the door and window body on building wall, the door and window body includes the door and window frame, sets up in the fixed frame of door and window frame, is located fixed frame inboard and slides and connect in the movable frame of door and window frame and be located the fixed frame outside and slide and connect in the protecting frame of door and window frame, the reservation has the door and window entrance to a cave on the building wall, door and window frame erection fixation is in the door and window entrance, the opening has between fixed frame and the door and window frame, fixed frame and movable frame all are provided with glass, the protecting frame sets up the waterproof cloth that has.

Through adopting above-mentioned technical scheme, when rainy day, thereby the user can slide the movable frame and make opening and external intercommunication state, the protection frame that slides makes it be located opening department, the tarpaulin that sets up on the protection frame effectively reduces the rainwater and gets into indoor possibility by the opening, guarantee simultaneously that indoor air current and external air current take place to exchange, thereby indoor air permeability when improving rainy day, movable frame, protection frame correspond and set up in the inboard and the outside of fixed frame, further reduce the rainwater and get into to indoor possibility.

Preferably, the movable frame and the protective frame are arranged in a staggered mode, and the door and window frame is provided with a linkage mechanism which drives the movable frame and the protective frame to do reverse sliding movement simultaneously.

By adopting the technical scheme, the movable frame and the protective frame are arranged in a staggered manner, when a user applies acting force along the sliding direction of the movable frame to the movable frame so that the movable frame slides towards the direction far away from the through opening, the protective frame is driven to slide towards the direction close to the through opening through the linkage mechanism, the sealing limitation of the movable frame to the through opening is removed, and meanwhile, the protective frame slides to the through opening, so that on one hand, the operation steps are saved, and the convenience in operation of the user is improved; on the other hand, effectively reduce children and fall to outdoor by the opening under the condition of guaranteeing indoor ventilation, improve door and window's security performance.

Preferably, the link gear is including rotating the first pulley of connecting in the door and window frame, rotate the second pulley of connecting in the door and window frame, one end fixed connection in movable frame one side and the other end around first pulley fixed connection in the first piece of pulling of protecting frame one side and one end fixed connection in the opposite side of movable frame and the other end around second pulley fixed connection in the second piece of pulling of protecting frame opposite side, first pulley, second pulley distribute along the direction of sliding of movable frame.

Through adopting above-mentioned technical scheme, draw the synchronous reverse sliding motion that the piece realized movable frame, protective frame through first pulley, second pulley, first piece, second.

Preferably, the waterproof cloth is arranged in a transparent mode.

Through adopting above-mentioned technical scheme, the tarpaulin is transparent setting, effectively improves indoor daylighting nature under the condition that improves indoor air permeability.

Preferably, the protection frame is a quadrilateral frame consisting of a pair of first section bars in parallel arrangement and a pair of second section bars in parallel arrangement, wherein one first section bar is provided with a rolling cavity and a through groove communicated with the rolling cavity for the waterproof cloth to pass through, the rolling cavity is elastically and rotatably connected with a rolling shaft for rolling the waterproof cloth, one end of the waterproof cloth is fixedly connected with the rolling barrel, and the other end of the waterproof cloth is detachably installed on the other first section bar.

Through adopting above-mentioned technical scheme, be provided with the rolling axle in rolling chamber and the interior rolling chamber of placing, when fine day, especially in summer, accomodate the tarpaulin in the rolling intracavity through the rolling axle, reduce the long-term insolation that suffers the sunlight of tarpaulin, the life of extension tarpaulin.

Preferably, a coil spring for driving the winding shaft to rotate to wind the waterproof cloth is arranged between the end part of the winding shaft and the inner wall of the winding cavity, the inner end of the coil spring is fixedly connected with the outer wall of the winding shaft, the outer end of the coil spring is fixedly connected with the inner side wall of the winding cavity, and the inner wall of the through groove is provided with an elastic scraping strip for removing impurities attached to the surface of the waterproof cloth.

By adopting the technical scheme, the elastic rotation arrangement of the winding shaft is realized by utilizing the coil spring fixedly connected between the winding shaft and the winding cavity, so that the coil spring can deform to store elastic force after the winding shaft rotates under the driving of external force, and the winding roller can be driven to rotate when the winding shaft has a reset condition; be provided with elasticity and scrape the strip, on the one hand, carry out the in-process of rolling to the tarpaulin, elasticity is scraped the strip and is clear away the impurity (dust or foul) that adheres to on tarpaulin surface, thereby guarantee the cleanliness on tarpaulin surface, improve the indoor daylighting degree of tarpaulin under user state, on the other hand, under the tarpaulin user state, scrape the strip and butt all the time in the tarpaulin lateral wall, thereby it is sealed to realize the logical groove on the strip of first type, reduce rainwater and debris entering and pile up the possibility in the rolling intracavity, thereby improve the rolling axle, the life of wind spring.

Preferably, the end of the tarpaulin is provided with an anti-dropping strip which is wider than the through groove and is positioned outside the first profile.

Through adopting above-mentioned technical scheme, be provided with the anticreep piece, effectively reduce the terminal possibility that gets into the rolling intracavity of tarpaulin at rolling in-process tarpaulin, the anticreep piece is located first type strip outside, and the user of being convenient for extracts the tarpaulin after to the rolling.

Preferably, the other first section bar is provided with an installation cavity matched with the anti-falling bar, the protective frame is threaded with a first screw, and the anti-falling bar is provided with a limiting hole for embedding the end part of the first screw.

Through adopting above-mentioned technical scheme, the tip that realizes first screw rod through screwing or loosening first screw rod towards being close to or keeping away from spacing hole direction and sliding to realize the demountable installation of anticreep strip and first section strip.

Preferably, both sides on the tarpaulin all run through and have seted up the fixed slot, be provided with the fixed plate that is located tarpaulin one side on the second shaped strip and be located the tarpaulin opposite side and slide and connect in the slide plate of second shaped strip, the slide plate protrusion is provided with the fixed strip of joint in the fixed slot.

Through adopting above-mentioned technical scheme, after the anticreep strip on the tarpaulin is fixed in first section strip, through being provided with slide plate and joint in the fixed strip of fixed slot, effectively fix the both sides of tarpaulin, the tarpaulin receives the wind to blow and leads to the rainwater to get into indoor possibility from the both sides of tarpaulin when effectively reducing raining.

On the other hand, in order to effectively reduce the possibility that rainwater splashes into the room, the application also aims to provide a construction method of a green energy-saving building structure,

the construction method of the green energy-saving building structure adopts the following technical scheme:

a construction method of a green energy-saving building structure is characterized by comprising the following steps: the method comprises the following steps:

step S1, pouring concrete through the template to form a building wall, a door and window opening, a waterproof rabbet and a water dripping line;

s2, mounting a door and window body, gluing and bonding the peripheral outer walls of the door and window frame, mounting the door and window frame at a preset position of a door and window opening, and abutting the door and window frame against the indoor side wall of a waterproof rabbet;

and S3, filling the inner and outer eaves densely, and smearing non-shrinkage mortar on the inner and outer eaves around the door and window frame.

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

when raining, a user can slide the movable frame to enable the through hole to be communicated with the outside, the protective frame is slid to enable the protective frame to be located at the through hole, waterproof cloth arranged on the protective frame effectively reduces the possibility that rainwater enters the indoor space from the through hole, and meanwhile, indoor airflow is guaranteed to be exchanged with outside airflow, so that the indoor ventilation performance is improved when raining is conducted, the movable frame and the protective frame are correspondingly arranged on the inner side and the outer side of the fixed frame, and the possibility that rainwater enters the indoor space is further reduced;

the movable frame and the protective frame are arranged in a staggered mode, when a user applies acting force along the sliding direction of the movable frame to the movable frame so that the movable frame slides towards the direction far away from the through opening, the protective frame is driven to slide towards the direction close to the through opening through the linkage mechanism, the sealing limitation of the movable frame to the through opening is removed, and meanwhile the protective frame slides to the through opening, so that on one hand, operation steps are saved, and the convenience of user operation is improved; on the other hand, the children can be effectively prevented from falling from the opening to the outside under the condition of ensuring indoor ventilation, and the safety performance of the door and window is improved;

be provided with elasticity and scrape the strip, on the one hand, carry out the in-process of rolling to the tarpaulin, elasticity is scraped the strip and is clear away the impurity (dust or foul) that adheres to on tarpaulin surface, thereby guarantee the cleanliness on tarpaulin surface, improve the indoor daylighting degree of tarpaulin under user state, on the other hand, under the tarpaulin user state, scrape the strip and butt all the time in the tarpaulin lateral wall, thereby it is sealed to realize the logical groove on the strip of first type, reduce rainwater and debris entering and pile up the possibility in the rolling intracavity, thereby improve the rolling axle, the life of wind spring.

Drawings

Fig. 1 is a schematic view of the overall structure of a green energy-saving building structure.

Fig. 2 is a schematic view of a drip tray.

Fig. 3 is a schematic structural view of the door/window body.

Fig. 4 is a schematic structural view of the linkage mechanism.

Fig. 5 is a schematic structural diagram of the protection frame.

Fig. 6 is a schematic view of a connection structure of the tarpaulin and the protection frame.

Fig. 7 is a schematic structural view of the fixing groove and the fixing strip.

Fig. 8 is a schematic view of the structure of the seal.

Description of reference numerals: 1. building a wall body; 11. door and window openings; 12. waterproof tongue-and-groove; 13. a drip trough; 2. a door and window body; 21. a door and window frame; 211. a first chute; 212. a second chute; 213. a socket; 22. a fixing frame; 221. a first slider; 23. a movable frame; 231. a handle; 232. locking the bolt; 24. a protective frame; 241. a second profile; 242. a first profile; 243. a second slider; 244. a winding cavity; 245. a winding shaft; 246. a coil spring; 247. elastic scraping strips; 248. a mounting cavity; 249. a first screw; 240. a first hand wheel; 25. waterproof cloth; 251. anti-drop strips; 252. a limiting hole; 253. a fixing plate; 254. a slide plate; 255. fixing grooves; 256. a fixing strip; 257. a fixed block; 258. a second screw; 259. a second hand wheel; 3. a linkage mechanism; 31. a first rotating shaft; 32. a first pulley; 33. a first traction member; 34. a second rotating shaft; 35. a second pulley; 36. a second traction member; 4. a seal member; 41. a first seal strip; 42. a second seal strip.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses green energy-saving building structure, refer to fig. 1 and 2, and include building wall 1 and set up door and window body 2 on building wall 1, leave door and window entrance 11 in advance on building wall 1, the protrusion is provided with waterproof rabbet 12 around door and window entrance 11, and the top inner wall of door and window entrance 11 is opened there is water drip 13, and water drip 13 is located waterproof rabbet 12 and faces outdoor one side.

Referring to fig. 3 and 4, the door/window body 2 includes a rectangular door/window frame 21 vertically disposed in a length direction and having a cavity, a fixed frame 22 fixedly installed on the door/window frame 21 and located at the upper half portion of the door/window frame 21, a movable frame 23 located at one side of the fixed frame 22 facing the indoor space and slidably connected to the door/window frame 21 along the vertical direction, and a protection frame 24 located at one side of the fixed frame 22 facing the outdoor space and slidably connected to the door/window frame 21 along the vertical direction.

The door and window frame 21 is fixed in the door and window opening 11, and a through opening is arranged between the fixed frame 22 and the door and window frame 21. The equal adaptation of movable frame 23, protective frame 24 is in the opening, and movable frame 23 is the setting of staggering with protective frame 24, and fixed frame 22 and movable frame 23 all are provided with glass (not shown in the picture), and glass effectively improves door and window's the noise reduction sound insulation effect for double-deck vacuum glass setting. The door and window frame 21 is provided with a first sliding groove 211 extending vertically and located on the indoor side of the fixed frame 22 and a second sliding groove 212 extending vertically and located on the outdoor side of the fixed frame 22, the first sliding groove 211 and the second sliding groove 212 are both communicated with the cavity of the door and window frame 21, and the outer walls of the two sides of the movable frame 23 are both provided with a first sliding block 221 connected to the first sliding groove 211 in a sliding manner in a protruding manner. Referring to fig. 5, the protection frame 24 is a quadrilateral frame formed by a pair of first profiles 242 arranged horizontally and parallel to each other and a pair of second profiles 241 arranged vertically and parallel to each other, and a second slider 243 slidably connected to the second sliding groove 212 is protruded from an outer wall of the second profiles 241.

Referring to fig. 3 and 4, the door window frame 21 is provided with a link mechanism 3 for simultaneously driving the movable frame 23 and the protective frame 24 to perform a reverse sliding motion, the link mechanism 3 includes a first pulley 32 rotatably connected to an inner wall of a cavity of the door window frame 21 by a first rotating shaft 31, a second pulley 35 rotatably connected to an inner wall of the cavity of the door window frame 21 by a second rotating shaft 34, a first traction member 33 having one end fixedly connected to an upper end surface of the first slider 221 and the other end fixedly connected to an upper end surface of the second slider 243 around the first pulley 32, and a second traction member 36 having one end fixedly connected to a lower end surface of the first slider 221 and the other end fixedly connected to a lower end surface of the second slider 243 around the second pulley 35.

The first pulling member 33 and the second pulling member 36 are both pulling ropes, and the axial directions of the first rotating shaft 31 and the second rotating shaft 34 are parallel to the width direction of the door window frame 21. The first pulleys 32 are arranged in two and distributed along the thickness direction of the door and window frame 21, the second pulleys 35 are arranged in two and distributed along the thickness direction of the door and window frame 21, the first pulleys 32 and the second pulleys 35 are distributed along the sliding direction of the movable frame 23, and the first pulleys 32 are positioned above the second pulleys 35. The side wall of the movable frame 23 far away from the fixed frame 22 is provided with a handle 231 and a locking bolt 232, the door and window frame 21 is provided with two sockets 213 for the locking bolt 232 to insert, and the two sockets 213 are vertically distributed.

Referring to fig. 5 and 6, the protective frame 24 is provided with a waterproof and breathable waterproof cloth 25 which is transparent, the first section bar 242 located below is provided with a winding cavity 244 and a through groove communicated with the winding cavity 244 for the waterproof cloth 25 to pass through, a winding shaft 245 used for winding the waterproof cloth 25 is elastically and rotatably connected in the winding cavity 244, and one end of the waterproof cloth 25 is fixedly connected to the winding drum. A coil spring 246 for driving the winding shaft 245 to rotate to wind the waterproof cloth 25 is arranged between the end part of the winding shaft 245 and the inner wall of the winding cavity 244, the inner end of the coil spring 246 is fixedly connected with the outer wall of the winding shaft 245, and the outer end of the coil spring 246 is fixedly connected with the inner side wall of the winding cavity 244. The inner walls of the two opposite sides of the through groove are provided with elastic scraping strips 247 for removing impurities attached to the surface of the waterproof cloth 25, so that the cleanness of the surface of the waterproof cloth 25 is ensured, and the indoor daylighting degree of the waterproof cloth 25 in a use state is improved.

The other end of the tarpaulin 25 is detachably mounted on the first profile 242 located above, and the end of the tarpaulin 25 is provided with a separation preventing strip 251 which has a width larger than that of the through groove and is located outside the first profile 242. The lower end face of the first section bar 242 located above is provided with an installation cavity 248 matched with the anti-falling bar 251, the first section bar 242 located above is threaded and provided with a first screw 249, the first screw 249 is coaxially and fixedly connected with a first hand wheel 240, and the anti-falling bar 251 is provided with a limiting hole 252 for embedding the end of the first screw 249.

Referring to fig. 6 and 7, fixing grooves 255 are formed in two sides of the waterproof cloth 25, a fixing plate 253 located on one side of the waterproof cloth 25 and a sliding plate 254 located on the other side of the waterproof cloth 25 and connected to the side wall of the second profile 241 in a sliding manner along the thickness direction of the protection frame 24 are arranged on the second profile 241, and the sliding plate 254 is convexly provided with a fixing strip 256 clamped in the fixing grooves 255. A fixed block 257 positioned on one side of the sliding plate 254 far away from the fixed plate 253 is arranged on the second molding bar 241, a second screw 258 is threaded through the fixed block 257, one end of the second screw is fixedly connected with a second wheel 259, and the other end of the second screw abuts against the side wall of the sliding plate 254.

Referring to fig. 8, a sealing member 4 is disposed between the protection frame 24 and the fixing frame 22, the sealing member 4 includes a first sealing strip 41 fixedly connected to one side of the first section 242 located above, which is close to the fixing frame 22, and a second sealing strip 42 fixedly connected to the lower portion of the side wall of the fixing frame 22, which is close to the protection frame 24, the cross-sectional areas of the first sealing strip 41 and the second sealing strip 42 are both right-angled triangles, and when the lower end surface of the first section 242 located below is abutted against the door and window frame 21, the two right-angled triangles form a square, so that the possibility that rainwater penetrates into the interior of the room from between the protection frame 24 and the fixing.

The implementation principle of the green energy-saving building structure in the embodiment of the application is as follows: when rainy day, the user exerts along vertical effort to the movable frame 23 to holding handle 231, thereby movable frame 23 upwards slides and makes opening and external intercommunication state, and pull a piece 33 through first, the second pulls a piece 36 and drives protection frame 24 and slide to opening department downwards, and insert locking bolt 232 and locate in the socket 213 that is located the top, the realization is fixed to movable frame 23 and protection frame 24, the tarpaulin 25 of setting up on protection frame 24 effectively reduces the rainwater and gets into indoor possibility by the opening, guarantee indoor air current and outside air current and take place the exchange simultaneously, thereby indoor air permeability when improving rainy day, movable frame 23, protection frame 24 correspond and set up in the inboard and the outside of fixed frame 22, further reduce the rainwater and get into to indoor possibility.

The embodiment of the application also discloses a construction method of the green energy-saving building structure, which comprises the following steps:

step S1, pouring concrete through the template to form a building wall 1, a door and window opening 11, a waterproof rabbet 12 and a water dripping line;

step S2, mounting the door and window body 2, gluing and bonding the peripheral outer walls of the door and window frame 21, mounting the door and window frame 21 at a preset position of the door and window opening 11, and enabling the door and window frame 21 to abut against the indoor side wall of the waterproof rabbet 12;

and S3, filling the inner and outer eaves densely, and coating non-shrinkage mortar on the inner and outer eaves around the door and window frame 21, so that the possibility of generating through seams between the door and window frame 21 and the door and window opening 11 is effectively reduced.

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 (10)

1. The utility model provides a green energy-conserving building structure which characterized in that: including building wall (1) and set up door and window body (2) on building wall (1), door and window body (2) include door and window frame (21), set up in fixed frame (22) of door and window frame (21), be located fixed frame (22) inboard and slide and connect in movable frame (23) of door and window frame (21) and be located fixed frame (22) outside and slide and connect in protecting frame (24) of door and window frame (21), it has door and window entrance to a cave (11) to reserve on building wall (1), door and window frame (21) erection fixed in door and window entrance to a cave (11), the opening has between fixed frame (22) and door and window frame (21), fixed frame (22) and movable frame (23) all are provided with glass, protecting frame (24) set up waterproof cloth (25) that have waterproof gas permeability.

2. A green energy saving building structure according to claim 1, characterized in that: the movable frame (23) and the protective frame (24) are arranged in a staggered mode, and the door and window frame (21) is provided with a linkage mechanism (3) which drives the movable frame (23) and the protective frame (24) to move in a reverse sliding mode simultaneously.

3. A green energy saving building structure according to claim 2, characterized in that: link gear (3) are including rotating first pulley (32) of connecting in door and window frame (21), rotate second pulley (35) of connecting in door and window frame (21), one end fixed connection in movable frame (23) one side and the other end around first pulley (32) fixed connection in first traction piece (33) of protecting frame (24) one side and one end fixed connection in the opposite side of movable frame (23) and the other end around second pulley (35) fixed connection in the second traction piece (36) of protecting frame (24) opposite side, first pulley (32), second pulley (35) are along the slip direction distribution of movable frame (23).

4. A green energy saving building structure according to claim 1, characterized in that: the waterproof cloth (25) is arranged in a transparent mode.

5. A green energy saving building structure according to claim 1, characterized in that: the utility model discloses a waterproof cloth's (25) winding structure, including protective frame (24), one of them first type strip (242) set up rolling chamber (244), intercommunication in rolling chamber (244) in order to supply logical groove that waterproof cloth (25) passed, elastic rotation is connected with rolling axle (245) that are used for rolling waterproof cloth (25) in rolling chamber (244), the one end fixed connection of waterproof cloth (25) is in the receipts reel, the other end demountable installation in another first type strip (242) of waterproof cloth (25) by a pair of first type strip (242) that are parallel arrangement and a pair of second type strip (241) that are parallel arrangement.

6. A green energy-saving building structure according to claim 5, characterized in that: be provided with between the tip of rolling axle (245) and rolling chamber (244) inner wall and drive rolling axle (245) and rotate wind spring (246) that carry out the rolling to waterproof cloth (25), the inner of wind spring (246) with the outer wall fixed connection of rolling axle (245), the outer end of wind spring (246) with the inside wall fixed connection in rolling chamber (244), the inner wall that leads to the groove is provided with scrapes strip (247) to the elasticity that the impurity that adheres to in waterproof cloth (25) surface was clear away.

7. A green energy-saving building structure according to claim 5, characterized in that: the end part of the waterproof cloth (25) is provided with a separation preventing strip (251) which is wider than the through groove and is positioned outside the first section strip (242).

8. A green energy saving building structure according to claim 7, characterized in that: the other first section bar (242) is provided with an installation cavity (248) matched with the anti-falling bar (251), a first screw rod (249) penetrates through the protective frame (24) in a threaded mode, and a limiting hole (252) for the end portion of the first screw rod (249) to be embedded into is formed in the anti-falling bar (251).

9. A green energy saving building structure according to claim 7, characterized in that: both sides on tarpaulin (25) all run through and have seted up fixed slot (255), be provided with on second profile (241) and be located fixed plate (253) of tarpaulin (25) one side and be located tarpaulin (25) opposite side and slide and connect in sliding plate (254) of second profile (241), sliding plate (254) protrusion is provided with fixed strip (256) of joint in fixed slot (255).

10. A construction method of a green energy-saving building structure is characterized by comprising the following steps: the method comprises the following steps:

step S1, pouring concrete through the template to form a building wall body (1), a door and window opening (11), a waterproof rabbet (12) and a water dripping line;

s2, mounting a door and window body (2), gluing and bonding the peripheral outer walls of a door and window frame (21), mounting the door and window frame (21) at a preset position of a door and window opening (11), and enabling the door and window frame (21) to abut against the indoor side wall of the waterproof rabbet (12);

and S3, filling the inner and outer eaves densely, and smearing non-shrinkage mortar on the inner and outer eaves around the door and window frame (21).

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