CN220395040U - Daylighting roof waterproof construction - Google Patents

Abstract

The utility model relates to a daylighting roof waterproof construction relates to daylighting roof construction technical field, it includes protection machanism, protection machanism locates adjacent two and opens the casement, protection machanism includes two aluminum alloy cover plates and a pulling force subassembly, one of them aluminum alloy cover plate level sets up, another aluminum alloy cover plate slope sets up, the distribution direction of two aluminum alloy cover plates is unanimous with the distribution direction of two adjacent window frames, the lower one end of aluminum alloy cover plate that the slope set up is fixed in one and opens the casement, higher one end is articulated with the aluminum alloy cover plate one end that the level set up, the aluminum alloy cover plate slip that the level set up sets up in another and opens the casement, the aluminum alloy cover plate that the level set up can be moved towards being close to or keeping away from the aluminum alloy cover plate that the slope set up, pulling force subassembly is located aluminum alloy cover plate articulated department, pulling force subassembly both ends respectively with an aluminum alloy cover plate is fixed, pulling force subassembly can adjust the angle of two aluminum alloy cover plates. The daylighting roof waterproof coating has the effect of improving the daylighting roof to be poor in waterproof performance.

Description

Daylighting roof waterproof construction

Technical Field

The application relates to the field of daylighting roof construction technology, in particular to a daylighting roof waterproof structure.

Background

The daylighting roof is a glass daylighting roof, is a building roof made of glass materials and has a daylighting function, and the daylighting roof is increasingly practical and is often used for public building design, such as a large-scale commercial center, and the like, so that the quality of the daylighting roof must be considered, wherein the waterproof performance is one of important indexes for considering the quality of the daylighting roof.

In the related art, the application document of publication No. CN209523395U discloses an angularly adjustable daylighting top curtain wall connection structure, including fossil fragments, the connecting seat, adaptor and daylighting top curtain wall unit, fossil fragments upper end is provided with the connecting seat, the symmetry is provided with two pivots on the connecting seat, all be connected with the adaptor in two pivots, the adaptor rotates the connection and passes through locking screw and the last central plate fastening connection of connecting seat relatively the pivot, be provided with the daylighting top curtain wall unit on the adaptor, set up the connecting seat on the upper end of fossil fragments at the daylighting top, set up the pivot on the connecting seat, the daylighting top curtain wall unit is connected through the adaptor, set up the draw-in groove that is convex with pivot complex cross-section shape on the adaptor, at first, fixed connecting seat and fossil fragments, be connected in the pivot of connecting seat with the cartridge again with the adaptor, afterwards, install the daylighting top curtain wall unit, rotate the adaptor, can adjust the installation angle of daylighting top curtain wall unit, be fixed again, pack the elastic waterproof sealing piece between daylighting top curtain wall unit and connecting seat afterwards.

According to the related technology, the installation angle of the daylighting roof curtain wall unit can be adjusted through the adapter, the elastic waterproof sealing block is filled between the daylighting roof curtain wall unit and the connecting seat, the sealing connection structure adopted by the connection position of the daylighting roof is simple in structure, and when rain is large, rainwater can possibly enter a room through the connection position of the daylighting roof, so that the waterproof performance of the daylighting roof is poor.

Disclosure of Invention

In order to solve the problem of poor daylighting roof waterproof performance, the application provides a daylighting roof waterproof structure.

The application provides a daylighting roof waterproof construction adopts following technical scheme:

the utility model provides a daylighting roof waterproof construction, includes protection machanism, protection machanism locates adjacent two and opens the casement, protection machanism includes two aluminum alloy apron and a pulling force subassembly, one of them aluminum alloy apron level sets up, another aluminum alloy apron slope sets up, two aluminum alloy apron's distribution direction is unanimous with the distribution direction of adjacent two window frames, and the slope sets up aluminum alloy apron lower one end is fixed in one and opens the casement, higher one end and level setting aluminum alloy apron one end articulates, and the level setting aluminum alloy apron slides and sets up in another and opens the casement, and the level setting aluminum alloy apron can be towards being close to or keep away from the slope setting aluminum alloy apron motion, pulling force subassembly is located aluminum alloy apron articulated department, just pulling force subassembly is close to in the window frame, pulling force subassembly both ends respectively with one aluminum alloy apron is fixed, pulling force subassembly can adjust two aluminum alloy apron's angle.

By adopting the technical scheme, when the sun and the rain meet, the window sashes are started to be opened, and the horizontally arranged aluminum alloy cover plate can slide on the window sashes; when the window is in rainy days, two adjacent opening window sashes are required to be simultaneously opened, when the two adjacent opening window sashes are synchronously opened, the aluminum alloy cover plate which is obliquely arranged moves along with the opening window sashes which are fixed, and in the moving process of the aluminum alloy cover plate which is obliquely arranged, the aluminum alloy cover plate which is horizontally arranged can be driven to slide towards the aluminum alloy cover plate which is close to the obliquely arranged at the other opening window sashes; when two adjacent opening casement are asynchronous, the gliding in-process of aluminum alloy apron that the level set up, the pulling force subassembly can apply the pulling force to the aluminum alloy apron that slides and set up, make aluminum alloy apron and opening the casement contact, the angle of aluminum alloy apron can be adjusted to the pulling force subassembly of being convenient for, in the in-process of opening the casement motion, aluminum alloy apron and opening the casement contact, can play waterproof effect, compare with the correlation technique, this application is opening the in-process that the casement was opened, form certain angle between two aluminum alloy apron, the rainwater of being convenient for flows along aluminum alloy apron, afterwards, the rainwater falls to ground, can play waterproof effect, be favorable to improving the relatively poor problem of daylighting top waterproof performance.

Optionally, the pulling force subassembly includes an aluminum alloy universal driving shaft, an aluminum alloy linkage board and an elastic component, the aluminum alloy universal driving shaft with the aluminum alloy linkage board is respectively fixed in one aluminum alloy apron is close to window frame one side, the slope of aluminum alloy universal driving shaft sets up, the higher one end of aluminum alloy universal driving shaft is fixed in the level setting the aluminum alloy apron, the lower one end of aluminum alloy universal driving shaft orientation slope setting aluminum alloy apron one side, the aluminum alloy linkage board is close to the articulated end of aluminum alloy apron, elastic component one end with the aluminum alloy universal driving shaft is fixed, the other end with the aluminum alloy linkage board is fixed.

By adopting the technical scheme, when the opening window sashes are opened, the aluminum alloy cover plates move along with the opening window sashes, when two adjacent opening window sashes are synchronously opened, the horizontally arranged aluminum alloy cover plates move along the opening window sashes towards the aluminum alloy cover plates close to the inclined arrangement, and at the moment, the elastic parts are compressed; when two adjacent opening window sashes are asynchronous, at the moment, the elastic piece stretches, and meanwhile, the elastic piece applies a pulling force to the horizontally arranged aluminum alloy cover plate, so that the aluminum alloy cover plate can be contacted with the opening window sashes.

Optionally, the protection mechanism further includes a sealing element, the sealing element is fixed in the level setting the aluminum alloy apron is kept away from articulated end one side, the sealing element is close to in opening the casement, the sealing element contacts with opening the casement, the sealing element can prevent that rivers from flowing into between two adjacent window frames.

Through adopting above-mentioned technical scheme, when opening the casement and opening, the aluminum alloy apron that the level set up slides along opening the casement, and at this moment, sealing member and opening the casement contact, the rainwater flows to opening the casement through the aluminum alloy apron, through setting up sealing member, and sealing member is with the clearance shutoff of aluminum alloy apron and opening the casement, can prevent that rivers from flowing into between two adjacent window frames, the waterproof performance of reinforcing daylighting roof of being convenient for.

Optionally, still include the subassembly that catchments, the subassembly that catchments is located between two adjacent window frames, the subassembly that catchments is located aluminum alloy apron below, the subassembly that catchments includes the water catch bowl, the water catch bowl is uncovered setting, the water catch bowl opening orientation aluminum alloy apron, the water catch bowl is fixed in two adjacent window frames, the water catch bowl is used for collecting the rainwater.

Through adopting above-mentioned technical scheme, when opening the casement and opening, two aluminum alloy apron move along with opening the casement, and when the rainfall is bigger, partial rainwater can leak into the water catch bowl, through setting up the water catch bowl, is convenient for collect the rainwater that leaks into, can play the waterproof effect of secondary.

Optionally, the water collecting assembly further comprises filling members, filling gaps are reserved between two sides of the water collecting tank and two adjacent window frames, the filling members are located in the filling gaps, and the filling members are fixedly bonded with the water collecting tank and the window frames.

Through adopting above-mentioned technical scheme, when the water catch bowl is fixed in two adjacent window frames, through setting up the filler, can further fix the water catch bowl.

Optionally, a sealing strip is arranged between the opening window sash and the window frame, the sealing strip is fixedly bonded with the window frame, and the sealing strip can be contacted with the opening window sash.

Through adopting above-mentioned technical scheme, when opening the casement and closing, the sealing strip on the window frame can with open the casement contact, through setting up the sealing strip, can increase the leakproofness of opening casement and window frame.

Optionally, the fixing assembly is arranged between two adjacent window frames, the fixing assembly is located below the water collecting tank, the fixing assembly comprises a bending steel tank and a steel pipe, the notch of the bending steel tank faces the water collecting tank, the bending steel tank is fixed to the window frames, the steel pipe is fixed to the bottom of the bending steel tank, and the steel pipe is fixed to a wall body.

Through adopting above-mentioned technical scheme, the steel groove of bending is fixed in the water catch bowl below, and steel leads to one side and wall body fixed, and the opposite side is fixed with the steel groove of bending, through setting up the steel groove of bending and steel leading to, is favorable to fixing the water catch bowl.

Optionally, the fixed subassembly still includes a plurality of heat preservation spare, and a plurality of the heat preservation spare is located bend the steel tank, a plurality of the heat preservation spare can be full of bend the steel tank, the heat preservation spare can be to indoor heat preservation.

Through adopting above-mentioned technical scheme, the heat preservation spare is full of the steel groove of bending, through setting up the heat preservation spare, is favorable to keeping warm indoor.

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

1. compared with the related art, in the process of opening the window sash, a certain angle is formed between the two aluminum alloy cover plates, so that rainwater can flow along the aluminum alloy cover plates conveniently, and then, the rainwater falls to the ground, so that the waterproof effect can be achieved, and the problem of poor waterproof performance of the daylighting roof can be solved;

2. by arranging the elastic piece and the aluminum alloy linkage shaft, the horizontally arranged aluminum alloy cover plate is convenient to contact with the opening window sash, and the waterproof performance of the daylighting roof is further enhanced;

3. through setting up the water catch bowl, be convenient for collect the rainwater that leaks into, can play the waterproof effect of secondary.

Drawings

Fig. 1 is a schematic view of the overall structure in the present embodiment;

fig. 2 is a cross-sectional view of the window frame in the present embodiment;

FIG. 3 is a schematic view of the structure of the protection mechanism in the present embodiment;

fig. 4 is a schematic structural view of the window frame according to the first view angle of the present embodiment;

fig. 5 is a schematic structural view of the window frame according to the second view angle of the present embodiment.

Reference numerals illustrate: 1. opening a window sash; 2. a window frame; 21. a sealing strip; 22. a fixing plate; 3. a protective mechanism; 31. an aluminum alloy cover plate; 311. a connecting plate; 32. a fastener; 33. a seal; 34. a tension assembly; 341. an aluminum alloy linkage shaft; 342. an aluminum alloy linkage plate; 343. an elastic member; 4. a water collection assembly; 41. a water collection tank; 411. a guide plate; 412. a water outlet; 413. a drain pipe; 4131. a valve; 42. a filler; 43. a fixing member; 5. a fixing assembly; 51. bending the steel groove; 52. a connecting piece; 53. a thermal insulation member; 54. and (5) steel passing.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a daylighting roof waterproof structure. Referring to fig. 1, a daylighting roof waterproof structure includes protection machanism 3, water collecting component 4 and fixed subassembly 5, and protection machanism 3, water collecting component 4 and fixed subassembly 5 all locate on window frame 2, and protection machanism 3 below is located to water collecting component 4, and fixed subassembly 5 locates water collecting component 4 below.

Referring to fig. 1, 2 and 3, the protection mechanism 3 is disposed on two adjacent opening window sashes 1, a sealing strip 21 is disposed on one side of the window frame 2 close to the opening window sashes 1, the sealing strip 21 is fixedly bonded with the window frame 2, the sealing strip 21 can contact with the opening window sashes 1, and in this embodiment, the sealing strip 21 is preferably an opening window sashes sealing strip; the protection mechanism 3 includes two aluminum alloy cover plates 31, a plurality of fasteners 32, a sealing member 33 and a pulling force component 34, one aluminum alloy cover plate 31 level sets up, another aluminum alloy cover plate 31 slope sets up, and the direction of distribution of two aluminum alloy cover plates 31 is unanimous with the direction of distribution of two adjacent window frames 2, the lower one end of aluminum alloy cover plate 31 that the slope set up is equipped with connecting plate 311, connecting plate 311 vertical setting, connecting plate 311 welds in the aluminum alloy cover plate 31 of slope setting, connecting plate 311 is laminated with one side of opening casement 1, a plurality of fasteners 32 distribute along the length direction of connecting plate 311, fastener 32 wears to locate connecting plate 311 and opening casement 1 in proper order, in this embodiment, fastener 32 is the tapping screw, fastener 32 threaded connection in proper order in connecting plate 311 and opening casement 1, fastener 32 can be fixed connecting plate 311 and opening casement 1.

Referring to fig. 2 and 3, a higher end of the aluminum alloy cover plate 31 arranged obliquely is connected with one end of the aluminum alloy cover plate 31 arranged horizontally in a ball hinged manner, the other end of the aluminum alloy cover plate 31 arranged horizontally is connected with the other opening window sash 1 in a sliding manner, and the sliding direction of the aluminum alloy cover plate 31 arranged horizontally slides along the surface of the opening window sash 1 to the side close to or far from the aluminum alloy cover plate 31 arranged obliquely; the sealing member 33 is located on the side of the horizontally disposed aluminum alloy cover plate 31 near the sliding end, and in this embodiment, the sealing member 33 is preferably a silicone structural sealant, and the sealing member 33 is fixedly bonded to the horizontally disposed aluminum alloy cover plate 31.

Referring to fig. 2 and 3, in the present embodiment, the tension assembly 34 includes an aluminum alloy linkage shaft 341, an aluminum alloy linkage plate 342 and an elastic member 343, the aluminum alloy linkage shaft 341 is located on the aluminum alloy cover plate 31 disposed horizontally, the aluminum alloy linkage plate 342 is located on the aluminum alloy cover plate 31 disposed obliquely, the aluminum alloy linkage shaft 341 and the aluminum alloy linkage plate 342 are located on the same side of the aluminum alloy cover plate 31, in the present embodiment, preferably, the aluminum alloy linkage shaft 341 and the aluminum alloy linkage plate 342 are located on one side of the aluminum alloy cover plate 31 close to the opening window sash 1, the aluminum alloy linkage shaft 341 located on the aluminum alloy cover plate 31 disposed horizontally is disposed obliquely, and a higher end of the aluminum alloy linkage shaft 341 is welded on the aluminum alloy cover plate 31 disposed horizontally, a lower end of the aluminum alloy linkage shaft faces one side of the aluminum alloy cover plate 31 disposed obliquely, the aluminum alloy linkage plate 342 is located on the aluminum alloy cover plate 31 disposed obliquely, the elastic member is located between the aluminum alloy linkage shaft 341 and the aluminum alloy linkage plate 342, and the other end of the elastic member 343 can be welded with the elastic member 343 by adjusting the angle of the elastic member 343, and the elastic member is formed by welding the two elastic members.

Referring to fig. 4 and 5, the water collecting assembly 4 is disposed between two adjacent window frames 2, the water collecting assembly 4 includes a water collecting tank 41, a filling member 42 and a plurality of fixing members 43, one fixing plate 22 is disposed on each side of the adjacent two window frames 2 close to each other, the fixing plates 22 are disposed obliquely, in this embodiment, the fixing plates 22 are disposed obliquely downward, the higher ends of the fixing plates 22 are welded to the window frames 2, the lower ends face to each other, the water collecting tank 41 is disposed between the two fixing plates 22, the water collecting tank 41 is disposed in an open manner, a filling gap is left between each water collecting tank 41 and the adjacent two window frames 2, the filling member 42 is disposed in the filling gap, the filling member 42 is preferably a sealant, the filling member 42 can be fixedly bonded with the water collecting tank 41 and the window frames 2, the longitudinal section of the water collecting tank 41 is rectangular, the plurality of guide plates 411 are disposed at the openings, in this embodiment, the number of the guide plates 411 is two, the two guide plates 411 are disposed on the opposite side walls of the water collecting tank 41, the guide plates 411 are welded to the guide plates 41, the guide plates 41 are disposed on the two guide plates 41, the guide plates 43 are disposed in the transition position of the two guide plates 41 and the guide plates are disposed on the guide plates 41 and the guide plates 43 are disposed on the fixing plates 43 and the fixing plates 43 are disposed in the fixing plates 43, the guide plates 43 are disposed in the fixing plates 43 and the guide plates are disposed in the guide plates 43 and the guide plates 43 are in the guide plates 41 and the guide plates are in the guide plates and guide plates are disposed in the guide frames and the guide frame, and guide frames and the guide frames are disposed in the guide frame and guide frames are sequentially, and the guide frames and guide frames are disposed; the water collecting tank 41 is provided with a water outlet 412 near the bottom wall, the water collecting tank 41 is provided with a water outlet 413 at the water outlet 412, one end of the water outlet 413 is penetrated through the water outlet 412, the other end is penetrated through the window frame 2, and the water outlet 413 is fixedly connected with a valve 4131 through a flange.

Referring to fig. 4 and 5, the fixing component 5 is disposed between two adjacent window frames 2, the fixing component 5 includes a bending steel groove 51, at least one connecting piece 52, a plurality of heat-insulating pieces 53 and a steel channel 54, the bending steel groove 51 is located below the water collecting groove 41, the setting mode of the bending steel groove 51 is consistent with the setting mode of the water collecting groove 41, in this embodiment, the number of the connecting pieces 52 is two, the two connecting pieces 52 are respectively located on two opposite side walls of the bending steel groove 51, the connecting pieces 52 sequentially penetrate through the window frames 2 and the bending steel groove 51, in this embodiment, the connecting pieces 52 are preferably bolts, the connecting pieces 52 are sequentially connected with the window frames 2 and the bending steel groove 51 in a threaded manner, the heat-insulating pieces 53 are located in the bending steel groove 51, in this embodiment, the heat-insulating pieces 53 are heat-insulating rock wool, the heat-insulating pieces 53 can fill the bending steel groove 51, the heat-insulating pieces 53 can keep the heat-insulating steel channel 54 indoors below the bending steel groove 51, one side of the steel channel 54 is welded on the steel groove 51, and the other side of the steel channel is fixedly connected with a wall through a screw.

The implementation principle of the daylighting roof waterproof structure in the embodiment of the application is as follows: when encountering sunny days, starting to open the window sash 1, wherein the horizontally arranged aluminum alloy cover plate 31 can slide on the window sash 1; when encountering rain, the window fan 1 is started to be opened, the horizontally arranged aluminum alloy cover plate 31 can slide on the window fan 1, the primary waterproof effect can be achieved through the aluminum alloy cover plate 31, and part of rainwater on the daylighting roof can flow into the water collecting tank 41 to achieve the secondary waterproof effect.

When the opening window sash 1 is started, the aluminum alloy cover plate 31 which is obliquely arranged moves synchronously with the opening window sash 1, at the moment, the aluminum alloy cover plate 31 which is horizontally arranged can slide along the surface of the opening window sash 1, and the elastic piece 343 is compressed in the process of moving the aluminum alloy cover plate 31 which is horizontally arranged; when the opening angles of the two opening window sashes 1 are not synchronous, tension is applied to the horizontally arranged aluminum alloy cover plate 31 through the tensioning of the elastic piece 343, so that the aim of water resistance is fulfilled; part of the rainwater can enter the water collecting tank 41 to achieve secondary water prevention, and when water in the water collecting tank 41 needs to be discharged, only the valve 4131 is required to be opened, and the water in the water collecting tank 41 can be discharged through the water discharge pipe 413.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a daylighting roof waterproof construction which characterized in that: including protection machanism (3), protection machanism (3) locate adjacent two and open casement (1), protection machanism (3) include two aluminum alloy apron (31) and a pulling force subassembly (34), one of them aluminum alloy apron (31) level sets up, another aluminum alloy apron (31) slope sets up, two aluminum alloy apron (31) the direction of distribution is unanimous with the direction of distribution of two adjacent window frames (2), and the slope sets up aluminum alloy apron (31) lower one end is fixed in one and opens casement (1), higher one end with the level setting aluminum alloy apron (31) one end articulates, the level setting aluminum alloy apron (31) slip sets up in another and opens casement (1), the level setting aluminum alloy apron (31) can be towards being close to or keep away from the slope setting aluminum alloy apron (31) motion, pulling force subassembly (34) are located aluminum alloy apron (31) articulated department, just pulling force subassembly (34) are close to (2), pulling force subassembly (34) each with one aluminum alloy apron (31) both ends can be adjusted angle regulation aluminum alloy (31).

2. A daylighting roof waterproof structure as claimed in claim 1, wherein: the tension assembly (34) comprises an aluminum alloy linkage shaft (341), an aluminum alloy linkage plate (342) and an elastic piece (343), wherein the aluminum alloy linkage shaft (341) and the aluminum alloy linkage plate (342) are respectively fixed on one side, close to a window frame (2), of the aluminum alloy cover plate (31), the aluminum alloy linkage shaft (341) is obliquely arranged, the higher end of the aluminum alloy linkage shaft (341) is fixed on the aluminum alloy cover plate (31) which is horizontally arranged, the lower end of the aluminum alloy linkage shaft (341) faces the side, arranged obliquely, of the aluminum alloy cover plate (31), the aluminum alloy linkage plate (342) is close to the hinged end of the aluminum alloy cover plate (31), one end of the elastic piece (343) is fixed with the aluminum alloy linkage shaft (341), and the other end of the elastic piece (343) is fixed with the aluminum alloy linkage plate (342).

3. A daylighting roof waterproof structure as claimed in claim 1, wherein: the protection mechanism (3) further comprises a sealing element (33), the sealing element (33) is fixed on one side, away from the hinge end, of the aluminum alloy cover plate (31) which is horizontally arranged, the sealing element (33) is close to the opening window sash (1), the sealing element (33) is in contact with the opening window sash (1), and the sealing element (33) can prevent water from flowing into the space between two adjacent window frames (2).

4. A daylighting roof waterproof structure as claimed in claim 1, wherein: still include catchment subassembly (4), catchment subassembly (4) are located between two adjacent window frames (2), catchment subassembly (4) are located aluminum alloy apron (31) below, catchment subassembly (4) include water catch bowl (41), water catch bowl (41) are open setting, water catch bowl (41) opening orientation aluminum alloy apron (31), water catch bowl (41) are fixed in two adjacent window frames (2), water catch bowl (41) are used for collecting the rainwater.

5. A daylighting roof waterproof structure as claimed in claim 4, wherein: the water collecting assembly (4) further comprises filling pieces (42), filling gaps are reserved between two sides of the water collecting groove (41) and two adjacent window frames (2), the filling pieces (42) are located in the filling gaps, and the filling pieces (42) are fixedly bonded with the water collecting groove (41) and the window frames (2).

6. A daylighting roof waterproof structure as claimed in claim 1, wherein: a sealing strip (21) is arranged between the opening window sash (1) and the window frame (2), the sealing strip (21) is fixedly bonded with the window frame (2), and the sealing strip (21) can be in contact with the opening window sash (1).

7. A daylighting roof waterproof structure as claimed in claim 4, wherein: still include fixed subassembly (5), fixed subassembly (5) are located between two adjacent window frames (2), fixed subassembly (5) are located water catch bowl (41) below, fixed subassembly (5) are including bending steel groove (51) and a steel logical (54), the notch orientation of bending steel groove (51) water catch bowl (41), bending steel groove (51) are fixed in window frame (2), steel logical (54) are fixed in bending steel groove (51) bottom, just steel logical (54) are fixed in the wall body.

8. A daylighting roof waterproof structure as claimed in claim 7, wherein: the fixing assembly (5) further comprises a plurality of heat preservation pieces (53), the heat preservation pieces (53) are located in the bending steel grooves (51), the heat preservation pieces (53) can be filled with the bending steel grooves (51), and the heat preservation pieces (53) can preserve heat indoors.