CN218522074U - Hidden pull rod glass daylighting roof - Google Patents

Abstract

The utility model belongs to the technical field of the building daylighting top, concretely relates to hidden pull rod glass daylighting top, include: the glass panels are supported in a first direction by the vertical supporting structures, and the adjacent two glass panels are connected in a second direction by the hidden transverse supporting structures, so that the dynamic effects of the glass panels in the aspects of tone, permeability, light chroma and the like are ensured on the appearance effect of the building of the daylighting roof, and the whole building has more attractiveness and uniformity; meanwhile, sealant or ethylene propylene diene monomer adhesive tapes are filled at joints and gaps between the structures, so that a plurality of waterproof layers are formed, a good waterproof effect is achieved, and the leakage risk is reduced.

Description

Hidden pull rod glass daylighting roof

Technical Field

The utility model belongs to the technical field of the building daylighting top, concretely relates to hidden pull rod glass daylighting top.

Background

With the rapid development of the building industry, the continuous improvement of the building technical level and the continuous improvement of the aesthetic concept of people, a large number of building curtain walls with complex shapes, high technical content and beautiful appearance are promoted to appear; the glass daylighting roof is popular with industry owners due to the simple, light and beautiful shape. In the existing daylighting roof, a supporting point is usually added on a main steel structure to fix a glass subframe, so that the construction deviation of a main steel structure can be reduced, but the distance from a glass surface to the main steel structure is uneven, the glass fixing subframe is superposed with the main steel structure, and only a point type glass color photoelectric converter has larger potential safety hazard and poor visual impression; meanwhile, due to contact with rainwater, the sealing performance of the sealing ring is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hidden pull rod glass daylighting roof, which supports glass panels in a first direction by arranging a vertical supporting structure, and simultaneously connects two adjacent glass panels in a second direction by a hidden transverse supporting structure, thereby ensuring the dynamic effect of the daylighting roof in aspects of tone, permeability, light chroma and the like on the appearance effect of the building, and ensuring that the whole building has more aesthetic property and uniformity; meanwhile, sealant or ethylene propylene diene monomer adhesive tapes are filled at joints and gaps between the structures, so that a plurality of waterproof layers are formed, a good waterproof effect is achieved, and the leakage risk is reduced.

A concealed tie rod glass daylighting roof, comprising:

a plurality of glass panels;

the vertical supporting structure comprises an aluminum alloy base and an aluminum alloy glass pressing plate, the section of the aluminum alloy base is of a mountain-shaped structure, the open end of the aluminum alloy base is abutted to the bottom surface of the glass panel and is connected and sealed through an ethylene-propylene-diene monomer adhesive tape; the section of the aluminum alloy glass pressing plate is of a U-shaped structure, the opening end of the aluminum alloy glass pressing plate faces back to the top surface of the glass panel and is connected and sealed through an ethylene propylene diene monomer adhesive tape; the aluminum alloy base and the aluminum alloy glass pressing plate are matched to clamp two adjacent glass panels and are used for supporting the glass panels in a first direction;

the transverse supporting structure comprises a steel glass support plate and a stainless steel pull rod; the steel glass support plates are arranged along a second direction, are matched with the stainless steel pull rods to be connected with two adjacent glass panels and are used for connecting the two adjacent glass panels in the second direction;

and the deflection control structure comprises a stainless steel component for clamping two adjacent glass panels in the second direction, is filled with a silicone rubber strip and is sealed by adopting a sealant.

The vertical supporting structure is arranged to support the glass panels in the first direction, and the hidden transverse supporting structure is used for connecting two adjacent glass panels in the second direction, so that the dynamic effects of the building on the aspects of color tone, permeability, light chroma and the like are guaranteed in the appearance effect of the daylighting roof building, and the whole building has more attractiveness and uniformity; meanwhile, sealant or ethylene propylene diene monomer adhesive tapes are filled at joints and gaps between the structures, so that a plurality of waterproof layers are formed, a good waterproof effect is achieved, and the leakage risk is reduced.

Further, the aluminum alloy base comprises a first frame body and three bulges positioned on the upper portion of the first frame body, the bulges are respectively a middle connecting column and first support legs on two sides, the middle connecting column is higher than the first support legs on two sides, and a groove structure is formed between the middle connecting column and the first support legs on two sides; the top surface of the middle connecting column is flush with the top surfaces of the glass panels, the middle connecting column is positioned on the joint median line of two adjacent glass panels, a foam rod is arranged between the middle connecting column and the glass panels, and sealant is adopted for filling and sealing; the top end of the first support leg is provided with a first groove, and the ethylene propylene diene monomer rubber strip is assembled in the first groove and used for supporting the bottom surface of the glass panel;

the aluminum alloy glass pressing plate comprises second frame bodies, second supporting columns and second supporting legs, the second supporting columns are located on two sides of each second frame body, a second groove is formed between every two second supporting columns, and ethylene-propylene-diene monomer rubber strips are assembled in the second grooves; the second supporting leg is positioned at the bottom of the second frame body, a third groove is formed in the bottom of the second frame body, and an ethylene propylene diene monomer rubber strip is assembled in the third groove and used for supporting the top surface of the glass panel and is sealed by sealant;

the middle connecting column of the aluminum alloy base is connected with the second frame body of the aluminum alloy glass pressing plate through a hexagon socket screw.

Through set up a plurality of archs on aluminum alloy base, and can be according to glass panels thickness and position design, can bear the glass panels dead weight, simultaneously through set up the foam stick between the gap at arch and glass panels to adopt sealed glue to seal in each gap department, form multichannel waterproof layer, improve the water-proof effects on daylighting top, reduce the seepage risk.

Furthermore, the vertical supporting structure further comprises a vertical steel keel, one end of the vertical steel keel is connected with the foundation structure, and the other end of the vertical steel keel is connected with the first frame body of the aluminum alloy base through an inner hexagonal pan head screw and is vertically welded with the steel glass support plate.

The glass panel is connected with the foundation structure by arranging the vertical steel keel, so that the glass panel is supported; meanwhile, the steel glass support plate is connected, so that the position of the steel glass support plate can be conveniently determined.

Further, the steel glass support plate comprises a first branch and a second branch, a fourth groove is formed in the first branch, a fifth groove is formed in the second branch, and threads are arranged on the inner walls of the fourth groove and the fifth groove and are opposite in thread direction; the steel glass support plate is in threaded fit with the stainless steel pull rod and is used for connecting two adjacent glass panels.

The first branch and the second branch are arranged on the steel glass support plate and are respectively in threaded fit with the stainless steel pull rod to connect two adjacent glass panels.

Furthermore, the steel glass support plate comprises a third branch, a sixth groove is formed in the third branch, threads are arranged on the inner wall of the sixth groove, and the sixth groove is in threaded fit with the stainless steel pull rod and used for connecting the edge of the glass panel.

The third branch is arranged on the steel glass support plate and is in threaded fit with the stainless steel pull rod to be connected with the glass panel with the fixed edge.

Further, the stainless steel member assembly includes:

a first stainless steel member in a substantially straight shape; a first countersunk head machine-made screw hole is formed in the first stainless steel part;

the second stainless steel part is in an inverted T shape and comprises a cross rod and a connecting rod, and a waist-shaped hole is formed in the connecting rod and used for penetrating through the stainless steel pull rod; a second countersunk head machine-made screw hole is formed in the connecting rod;

the first countersunk head mechanism screw hole is connected with the second countersunk head mechanism screw hole through an inner hexagonal countersunk head screw.

The first stainless steel member and the second stainless steel member are engaged with each other to clamp the glass panel in the second direction.

Furthermore, rubber cushion blocks are respectively arranged among the first stainless steel piece, the second stainless steel piece and the glass panel.

Furthermore, the silicon rubber strip penetrates through the stainless steel pull rod, a gap between every two adjacent glass panels is filled in the second direction, and sealing is conducted through sealing glue.

Through the cooperation of silicon rubber strip and sealed glue for the glass panels is waterproof in the gap on the second direction.

The utility model has the advantages that:

the utility model supports the glass panels in the first direction by arranging the vertical supporting structure, and simultaneously connects two adjacent glass panels in the second direction by the hidden transverse supporting structure, thereby ensuring the dynamic effect of the building on the aspects of tone, permeability, light chroma and the like from the appearance effect of the daylighting roof building, and leading the whole building to have more aesthetic property and uniformity; through set up a plurality of archs on aluminum alloy base, and can be according to glass panels thickness and position design, can bear glass panels dead weight, simultaneously through setting up the foam rod between the gap at arch and glass panels to junction, gap department all fill sealed glue, ethylene propylene diene monomer adhesive tape or silicon rubber strip between the structure, thereby form the multichannel waterproof layer, play good water-proof effects, reduce the seepage risk.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic view of a vertical cut result of the present invention;

FIG. 3 is a schematic structural view of an aluminum alloy base and an aluminum alloy glass press plate;

FIG. 4 is a schematic structural view of a deflection control structure;

FIG. 5 is a schematic view of a glass-reinforced plastic pallet structure disposed in the middle;

FIG. 6 is a schematic view of a glass-reinforced plastic pallet structure disposed at the edge;

fig. 7 is a schematic structural view of a stainless steel component.

Reference numerals:

1. a glass panel;

21. a vertical steel keel; 22. an aluminum alloy base; 221. a first frame body; 222. a first leg; 2221. a first groove; 223. a middle connecting column; 23. pressing an aluminum alloy glass plate; 231. a second frame body; 232. a second support; 233. a second leg; 2331. a third groove; 234. a second groove;

31. a steel glass support plate; 311. a first branch; 3111. a fourth groove; 312. a second branch; 3121. a fifth groove; 313. a third branch; 3131. a sixth groove; 32. a stainless steel tie rod;

41. a first stainless steel member; 42. a second stainless steel member; 421. a cross bar; 422. a connecting rod; 4221. a kidney-shaped hole; 43. a rubber cushion block;

51. ethylene-propylene-diene monomer adhesive tapes; 52. sealing glue; 53. a foam bar; 54. a silicone rubber strip; 55. hexagon socket pan head screw; 56. hexagon socket countersunk flat head screw.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Fig. 1 and 2 show a hidden type pull rod glass daylighting roof, which comprises glass panels 1, a vertical supporting structure, a transverse supporting structure and a deflection control structure, wherein the vertical supporting structure is arranged to support the glass panels 1 in a first direction, and the hidden type transverse supporting structure is used to connect two adjacent glass panels 1 in a second direction, so that the dynamic effects of the daylighting roof in aspects of color tone, transparency, light chroma and the like are ensured on the appearance effect of the building, and the whole building has more attractiveness and uniformity; meanwhile, the joints and gaps between the structures are filled with the sealant 52 or the ethylene propylene diene monomer adhesive tape 51, so that a plurality of waterproof layers are formed, a good waterproof effect is achieved, and the leakage risk is reduced.

Specifically, the glass panel 1 includes a plurality of glass panels.

Specifically, as shown in fig. 3, a vertical support structure includes:

a vertical steel keel 21 arranged along the foundation structure in a first direction;

the aluminum alloy base 22 is characterized in that the section of the aluminum alloy base 22 is of a mountain-shaped structure and comprises a first frame body 221 and three bulges positioned on the upper portion of the first frame body 221, the bulges are respectively a middle connecting column 223 and first support legs 222 on two sides, the middle connecting column 223 is higher than the first support legs 222 on two sides, and a groove structure is formed between the middle connecting column 223 and the first support legs 222 on two sides; the top surface of the middle connecting column 223 is flush with the top surfaces of the glass panels 1, the middle connecting column 223 is positioned on the joint middle line of two adjacent glass panels 1, a foam rod 53 is arranged between the middle connecting column 223 and the glass panels 1, and the middle connecting column and the glass panels 1 are filled and sealed by adopting a sealant 52; a first groove 2221 is formed at the top end of the first leg 222, and an ethylene propylene diene monomer rubber strip 51 is assembled in the first groove 2221; the open end of the aluminum alloy base 22 is abutted against the bottom surface of the glass panel 1, so that the bottom surface of the glass panel 1 is supported on the ethylene propylene diene monomer adhesive tape 51 and is sealed by the sealant 52;

the aluminum alloy glass pressing plate 23 is of a U-shaped section and comprises a second frame body 231, second supporting columns 232 and second supporting legs 233, the second supporting columns 232 are located on two sides of the second frame body 231, a second groove 234 is formed between the two second supporting columns 232, and ethylene-propylene-diene monomer rubber strips 51 are assembled in the second groove 234; the two second support legs 233 are respectively positioned at two sides of the bottom of the second frame 231, a third groove 2331 is formed in the bottom of the second support leg 233, and an ethylene-propylene-diene monomer rubber strip 51 is assembled in the third groove 2331; the open end of the aluminum alloy glass pressing plate 23 faces back to the top surface of the glass panel 1, and the top surface of the glass panel 1 is supported on the ethylene propylene diene monomer rubber strip 51 and sealed by the sealant 52;

the first frame body 221 of the aluminum alloy base 22 is connected with the vertical steel keel 21 through an inner hexagon pan head screw 55; the middle connecting column 223 of the aluminum alloy base 22 is connected with the second frame 231 of the aluminum alloy glass pressing plate 23 through the hexagon socket pan head screw 55, and the two adjacent glass panels 1 are clamped and fixed for supporting the glass panels 1 in the first direction.

The glass panel 1 and the foundation structure are connected by arranging the vertical steel keel 21, so that the glass panel 1 is supported; through set up a plurality of archs on aluminum alloy base 22, and can be according to 1 thickness of glass panels and position design, can bear 1 dead weight of glass panels, simultaneously through set up the foam rod 53 between the gap at arch and glass panels 1 to adopt sealed glue 52 to seal in each gap department, form multichannel waterproof layer, improve the water-proof effects on daylighting top, reduce the seepage risk.

Specifically, a lateral support structure comprising:

stainless steel tie rods 32 arranged in the second direction;

the steel glass support plate 31 is arranged along the second direction, is vertically welded with the vertical steel keel 21 and is used for positioning the steel glass support plate 31;

as shown in fig. 5, the frp plate 31 includes a first branch 311 and a second branch 312, a fourth groove 3111 is formed in the first branch 311, a fifth groove 3121 is formed in the second branch 312, and the inner walls of the fourth groove 3111 and the fifth groove 3121 are provided with threads, and the thread directions are opposite; the steel glass support plate 31 is in threaded fit with the stainless steel pull rod 32 and is used for connecting two adjacent glass panels 1 in the second direction.

As shown in fig. 6, the glass fiber reinforced plastic plate 31 includes a third branch 313, a sixth groove 3131 is formed in the third branch 313, and a thread is formed on an inner wall of the sixth groove 3131, and is in threaded engagement with the stainless steel pull rod 32 for connecting the edge glass panel 1.

Specifically, as shown in fig. 4, the deflection control structure, which includes a stainless steel member, is used to clamp two adjacent glass panels 1 in a second direction, is filled with a silicone rubber strip 54, and is sealed with a sealant 52.

Wherein, as shown in fig. 7, the stainless steel member assembly comprises:

a first stainless steel member 41 in a straight shape; a first countersunk head machine-made screw hole is formed in the first stainless steel part 41;

the second stainless steel piece 42 is in an inverted T shape and comprises a cross bar 421 and a connecting rod 422, and a waist-shaped hole 4221 is formed in the connecting rod 422 and used for penetrating through the stainless steel pull rod 32; a second countersunk head machine-made screw hole is formed in the connecting rod 422;

the first countersunk head mechanism screw hole is connected to the second countersunk head mechanism screw hole by a hexagon socket countersunk head screw 56.

Wherein, rubber cushion blocks 43 are respectively arranged between the first stainless steel piece 41, the second stainless steel piece 42 and the glass panel 1.

Wherein, the silicon rubber strip 54 is arranged on the stainless steel pull rod 32 in a penetrating way, and fills the gap between two adjacent glass panels 1 in the second direction and is sealed by the sealant 52; by the silicone rubber strip 54 and the sealant 52, the glass panel 1 is waterproof in the gap in the second direction.

In this embodiment, the silicone rubber strip 54 is located 200mm from the end point on the stainless steel tie rod 32.

The utility model discloses an installation method does:

during installation, in the first direction, the first frame body 221 of the aluminum alloy base 22 is fixed on the vertical steel keel 21 through the hexagon socket pan head screws 55, and the steel glass support plate 31 is vertically welded and pricked on the vertical steel keel 21; the ethylene propylene diene monomer strip 51 is placed in the first support leg 222 of the aluminum alloy base 22 and used for supporting the bottom surface of the glass panel 1 and sealed by the sealant 52; a foam rod 53 is filled between the middle connecting column 223 of the aluminum alloy base 22 and the glass panel 1 and is sealed by a sealant 52; the middle connecting column 223 of the aluminum alloy base 22 is connected with the second frame 231 of the aluminum alloy glass pressing plate 23 through an inner hexagonal pan head screw 55; the ethylene propylene diene monomer adhesive tape 51 is placed in the second supporting leg 233 of the aluminum alloy glass pressing plate 23 and is used for supporting the top surface of the glass panel 1 and is sealed by the sealant 52; simultaneously, the ethylene propylene diene monomer rubber strip 51 is placed in the second groove 234 of the aluminum alloy glass pressing plate 23;

in a second direction, the silicone rubber strip 54 is pre-arranged on the stainless steel pull rod 32 in a penetrating manner, the second stainless steel piece 42 is arranged on the stainless steel pull rod 32 in a penetrating manner through the kidney-shaped hole 4221, and two ends of the stainless steel pull rod 32 are respectively in threaded fit with the first branch 311 and the second branch 312 of the glass reinforced plastic support plate 31, so that the glass reinforced plastic support plate 31 is connected; the first stainless steel part 41 and the second stainless steel part 42 are connected through the hexagon socket countersunk head screw 56, the rubber cushion block 43 is arranged between the first stainless steel part 41 and the second stainless steel part 42 and the glass panel 1, the silicon rubber strip 54 is placed in the transverse gap of the two adjacent glass panels 1 and is sealed by the sealant 52, and the installation of the hidden type pull rod glass daylighting top is completed.

The above-mentioned only be the embodiment of the present invention, not consequently the restriction of the patent scope of the present invention, all utilize the equivalent structure or equivalent flow transform made of the content of the specification and the attached drawings, or directly or indirectly use in other relevant technical fields, all including in the same way the patent protection scope of the present invention.

Claims (8)

1. The utility model provides a hidden pull rod glass daylighting top which characterized in that includes:

a plurality of glass panels (1);

the vertical supporting structure comprises an aluminum alloy base (22) and an aluminum alloy glass pressing plate (23), the section of the aluminum alloy base (22) is of a mountain-shaped structure, the open end of the aluminum alloy base is abutted to the bottom surface of the glass panel (1), and the aluminum alloy base and the glass panel are connected and sealed through an ethylene propylene diene monomer rubber strip (51); the section of the aluminum alloy glass pressing plate (23) is of a U-shaped structure, the open end of the aluminum alloy glass pressing plate faces back to the top surface of the glass panel (1), and the aluminum alloy glass pressing plate and the glass panel are connected and sealed through an ethylene propylene diene monomer rubber strip (51); the aluminum alloy base (22) is matched with the aluminum alloy glass pressing plate (23) to clamp two adjacent glass panels (1) in a clamping mode, and the glass panels (1) are supported in a first direction;

a transverse supporting structure which comprises a steel glass supporting plate (31) and a stainless steel pull rod (32); the steel glass support plates (31) are arranged along a second direction, are matched with the stainless steel pull rods (32) to be connected with two adjacent glass panels (1) and are used for connecting the two adjacent glass panels (1) in the second direction;

a deflection control structure comprising a stainless steel assembly for clamping two adjacent glass panels (1) in a second direction, filled with a silicone rubber strip (54), and sealed with a sealant (52).

2. The concealed draw bar glass daylighting roof of claim 1, wherein: the aluminum alloy base (22) comprises a first frame body (221) and three bulges positioned on the upper part of the first frame body (221), the bulges are respectively a middle connecting column (223) and first support legs (222) on two sides, the middle connecting column (223) is higher than the first support legs (222) on two sides, and a groove structure is formed between the middle connecting column (223) and the first support legs (222) on two sides; the top surface of the middle connecting column (223) is flush with the top surface of the glass panel (1), the middle connecting column (223) is positioned on the joint middle line of two adjacent glass panels (1), a foam rod (53) is arranged between the middle connecting column and the glass panel (1), and the middle connecting column and the glass panel (1) are filled and sealed by adopting a sealant (52); a first groove (2221) is formed in the top end of the first support leg (222), and the ethylene propylene diene monomer rubber strip (51) is assembled in the first groove (2221) and used for supporting the bottom surface of the glass panel (1);

the aluminum alloy glass pressing plate (23) comprises a second frame body (231), second supporting columns (232) and second supporting legs (233), the second supporting columns (232) are located on two sides of the second frame body (231), a second groove (234) is formed between the two second supporting columns (232), and ethylene-propylene-diene monomer rubber strips (51) are assembled in the second groove (234); the second supporting leg (233) is located at the bottom of the second frame body (231), a third groove (2331) is formed in the bottom of the second supporting leg, and an ethylene propylene diene monomer rubber strip (51) is assembled in the third groove (2331) and used for supporting the top surface of the glass panel (1) and is sealed by a sealant (52);

the middle connecting column (223) of the aluminum alloy base (22) is connected with the second frame body (231) of the aluminum alloy glass pressing plate (23) through an inner hexagonal pan head screw (55).

3. The concealed draw bar glass daylighting roof of claim 2, wherein: the vertical supporting structure further comprises a vertical steel keel (21), one end of the vertical steel keel is connected with the base structure, and the other end of the vertical steel keel is connected with the first frame body (221) of the aluminum alloy base (22) through an inner hexagonal pan head screw (55) and is vertically welded with the steel glass support plate (31).

4. The concealed draw bar glass daylighting roof of claim 1, wherein: the steel glass support plate (31) comprises a first branch (311) and a second branch (312), a fourth groove (3111) is formed in the first branch (311), a fifth groove (3121) is formed in the second branch (312), and threads are arranged on the inner walls of the fourth groove (3111) and the fifth groove (3121) and are opposite in thread direction; the steel glass support plate (31) is in threaded fit with the stainless steel pull rod (32) and is used for connecting two adjacent glass panels (1).

5. The concealed draw rod glass daylighting roof according to claim 1, wherein the steel glass support plate (31) comprises a third branch (313), a sixth groove (3131) is formed in the third branch (313), and the inner wall of the sixth groove (3131) is threaded and is in threaded engagement with the stainless steel draw rod (32) for connecting the glass panel (1) to the edge.

6. The concealed draw bar glass daylighting roof of claim 4, wherein the stainless steel assembly comprises:

a first stainless steel member (41) in a straight shape; a first countersunk head machine-made screw hole is formed in the first stainless steel piece (41);

the second stainless steel piece (42) is of an inverted T shape and comprises a cross bar (421) and a connecting rod (422), and a waist-shaped hole (4221) is formed in the connecting rod (422) and used for penetrating through the stainless steel pull rod (32); a second countersunk head machine-made screw hole is formed in the connecting rod (422);

the first countersunk head machine screw hole and the second countersunk head machine screw hole are connected through an inner hexagonal countersunk head screw (56).

7. The concealed draw bar glass daylighting roof of claim 6, wherein: rubber cushion blocks (43) are respectively arranged between the first stainless steel piece (41), the second stainless steel piece (42) and the glass panel (1).

8. The concealed draw bar glass daylighting roof of claim 1, wherein: the silicon rubber strip (54) penetrates through the stainless steel pull rod (32), a gap between every two adjacent glass panels (1) is filled in the second direction, and the glass panels are sealed by adopting a sealant (52).

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