CN217537582U - Steel construction consolidates roof device for architectural design - Google Patents

Abstract

The utility model provides a roof device is consolidated to steel construction for architectural design, including building body, a plurality of support fossil fragments and roof steel structure board, wherein: the supporting keel comprises a keel upright post, a keel connecting plate and a keel inclined strut, and the upper end of the keel upright post is connected with the keel connecting plate which is transversely arranged through a fastening bolt; the roof steel structure plate comprises a first supporting steel beam, a second supporting steel beam, a first roof plate and a second roof plate, wherein two ends of the second supporting steel beam are connected with the corresponding first supporting steel beams through first connecting pieces respectively, and the first supporting steel beam is connected with a keel connecting plate and a keel inclined support; adjacent first and second roof panels are connected by a sealing connection. Compared with the traditional concrete roof, the steel structure reinforced roof device of the utility model replaces the reinforced concrete roof with the roof steel structure plate, thereby having better shock resistance and more diversified modeling; and all structural components can be prefabricated in a factory and installed on site, so that the construction period can be greatly reduced.

Description

Steel construction consolidates roof device for architectural design

Technical Field

The utility model relates to an architectural design technical field especially relates to a roof device is consolidated to steel construction for architectural design.

Background

Steel structural roofs are roof structures composed of steel materials and are one of the main building structure types. At present, the application of the steel structure roof on the large hotel and exhibition hall buildings is mature day by day, and the steel structure roof gradually becomes the mainstream building process, and is the development direction of future buildings. However, the roof structures of the existing large-scale hotels and exhibition buildings are generally formed by integrally pouring concrete, and the roof structures are single in shape and cannot meet the requirement of external attractive design of the large-scale hotels and exhibition buildings.

Compared with the traditional concrete roof, the steel structure roof has the advantages that the roof plate and the steel supporting structure are used for replacing the reinforced concrete roof, the earthquake resistance is better, and the modeling is more diversified. And because the roof plate and the steel supporting structure can be manufactured in a factory and installed on site, the construction period is greatly reduced, the construction waste is reduced, and the environment is protected. Therefore, how to provide a steel structure roof suitable for large hotels and exhibition halls is a technical problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects of the prior art, the steel structure reinforced roof device for building design is provided.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

the utility model provides a steel construction reinforcement roof device for architectural design, including building body, set up in a plurality of support keels at building body top and be the slope set up in a plurality of the roof steel structure board at support keel top, wherein:

the supporting keel comprises keel upright columns, keel connecting plates and keel inclined struts, the keel upright columns are vertically arranged at the top of the building body and are different in length, and the upper ends of the keel upright columns are connected with the keel connecting plates which are transversely arranged through fastening bolts; the far end of the keel connecting plate is welded and connected with the side wall of the lower end of a first supporting steel beam on the roof steel structure plate, and the middle part of the keel connecting plate is welded and connected with the side wall of the upper end of the first supporting steel beam through the obliquely arranged keel inclined strut;

the roof steel structure plate comprises a plurality of first supporting steel beams arranged at intervals transversely, a plurality of second supporting steel beams arranged at intervals longitudinally, and a plurality of first roof slabs and second roof slabs which are respectively assembled at the tops and the bottoms of the first supporting steel beams and the second supporting steel beams, wherein two ends of each second supporting steel beam are respectively connected with the corresponding first supporting steel beam through a first connecting piece, and the first supporting steel beams are connected with the keel connecting plate and the keel inclined strut; the adjacent first roof plate and the second roof plate are connected through a sealing connecting piece.

Further, architectural design with steel construction reinforcement roof device on, roof steel structure board still includes a plurality of longitudinal arrangement's first support side pipe, second support side pipe and third support side pipe, wherein:

the two ends of the first supporting square pipe and the second supporting square pipe are respectively connected with the lower ends of the first supporting steel beams through the first connecting pieces, and at least part of the first supporting square pipe and the second supporting square pipe are arranged at the bottom of the second supporting steel beams;

and the two ends of the third supporting square pipe are connected and corresponding to the upper ends of the first supporting steel beams through the first connecting pieces respectively, and are arranged between the two adjacent second supporting steel beams at intervals respectively.

Further preferably, in the steel structural reinforced roof apparatus for architectural design, the roof steel structural plates further include a third roof plate provided at front and rear eaves thereof, a fourth roof plate, a fifth roof plate, a sixth roof plate, a seventh roof plate, and an eighth roof plate provided at left and right end positions thereof, wherein:

the outer end face of the third roof plate is provided with a groove, an LED lamp strip is installed in the groove, and the upper end and the lower end of the third roof plate are respectively connected with the outer side ends of the first roof plate and the second roof plate through sealing connecting pieces;

the fifth roof plate, the sixth roof plate, the seventh roof plate and the eighth roof plate are sequentially connected through a sealing connecting piece to form a reverse-step zigzag structure, one end of the fifth roof plate is connected with the second roof plate, and the upper end of the eighth roof plate is connected with the first roof plate.

Further preferably, the steel structure reinforced roof device for architectural design on, roof steel structure board still includes third support girder steel and fourth support square pipe, fifth support square pipe, sixth support square pipe that set up respectively in its left and right sides position, wherein:

the third supporting steel beam is transversely arranged on the outer side of the first supporting steel beam, the height of the third supporting steel beam is smaller than that of the first supporting steel beam, the lower end of the third supporting steel beam is connected with a plurality of fourth supporting square pipes, and the upper end of the third supporting steel beam is connected with a plurality of corresponding third supporting square pipes;

the fourth supporting square pipes are arranged at intervals in the longitudinal direction, one end of each fourth supporting square pipe is connected with the bottom of the third supporting steel beam, the other end of each fourth supporting square pipe is connected with the middle part of the first supporting steel beam in an inward inclined mode, and the bottom of each fourth supporting square pipe is correspondingly provided with the fifth roof plate and the sixth roof plate;

the number of the fifth supporting square pipes is a plurality of fifth supporting square pipes which are arranged at intervals in the longitudinal direction, one end of each fifth supporting square pipe is connected with the middle part of the third supporting steel beam, the other end of each fifth supporting square pipe extends downwards in an inclined mode towards the outside and is connected with the sixth supporting square pipe, and the bottoms of the fifth supporting square pipes are correspondingly provided with the sixth roof plates and the seventh roof plates;

the sixth supporting square pipe is transversely arranged at the top of the far ends of the fifth supporting square pipes, the top of the sixth supporting square pipe is connected with the corresponding third supporting square pipes, and the eighth roof plate is correspondingly arranged on the outer side of the sixth supporting square pipe.

Further preferably, in the steel structure reinforced roof apparatus for architectural design, the first, second, third, fourth, fifth, sixth, seventh and eighth roof plates are arranged in an inclined manner, the third and eighth roof plates have C-shaped cross sections, and the fourth and sixth roof plates have L-shaped cross sections.

Further preferably, in the steel structure reinforced roof apparatus for architectural design, the first roof plate, the second roof plate and the third roof plate are respectively and correspondingly installed on the third supporting square pipe and the second supporting square pipe through a plurality of first corner connectors;

and the fifth roof plate, the seventh roof plate and the eighth roof plate are correspondingly arranged on the fourth supporting square pipe, the fifth supporting square pipe and the third supporting square pipe respectively through a plurality of first corner connectors.

Further preferably, in the steel structure reinforced roof apparatus for architectural design, the joints between the first, second, third, fourth, fifth, sixth, seventh and eighth roof plates are respectively connected by corresponding sealing connectors, and the sealing connectors are connected to corresponding support square pipes by second corner connectors.

Further, on steel construction reinforcement roof device for architectural design on, roof steel structure board is still including setting up in a plurality of drainage support side pipes and the drain bar groove of its both ends, wherein:

the cross sections of the drainage support square pipes are U-shaped, the drainage support square pipes are transversely arranged on one side wall of the first support steel beam, and the other side ends of the drainage support square pipes are connected with corresponding third support square pipes;

the cross section of the drainage plate groove is U-shaped, the drainage plate groove is embedded in the drainage supporting square pipe, and two ends of the drainage plate groove are connected with the corresponding first roof plates through the sealing connecting pieces respectively.

Further preferably, on the steel structure reinforced roof device for architectural design, the roof steel structure plate further comprises a drainage filter screen plate, wherein:

the drainage filter screen plate is laid at the opening of the drainage plate groove, and two ends of the drainage filter screen plate are respectively connected with the corresponding first roof plates through the sealing connecting pieces.

Further, on steel construction reinforcement roof device for architectural design, still include a plurality of groups roof protection rope structure, every group roof protection rope structure by stainless steel wire rope, set up respectively in bolt tensioner and the support post at stainless steel wire rope both ends constitute, wherein:

the lower end of each support upright is welded and connected to the top of the corresponding first support steel beam, and the upper end of each support upright is welded with a connecting block;

one end of the bolt tensioner is hinged with the connecting block, and the other end of the bolt tensioner is fixedly connected with the stainless steel wire rope.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

(1) The roof steel structure plate consisting of the first supporting steel beam, the second supporting steel beam and the plurality of roof plates is arranged at the top of the building body according to a certain shape by adopting the supporting keel, the stability and the integrity of the roof structure are enhanced by the plurality of supporting square tubes, and the roof plates are better connected by adopting corner connectors and sealing connectors;

(2) The drainage plate grooves are formed in the roof steel structure plate and are fixedly installed on the first supporting steel beams and the third supporting square tubes through the drainage supporting square tubes, and the drainage filter screen plate is arranged at the opening of each drainage plate groove, so that the drainage plate grooves are prevented from being directly exposed outside, and the integral integrity of the surface of the roof steel structure plate is guaranteed;

(3) Compared with the traditional concrete roof, the steel structure reinforced roof device replaces the reinforced concrete roof with the roof steel structure plate, so that the steel structure reinforced roof device has better shock resistance and more diversified shapes; and because each structural component can be unified at the mill prefabrication, the field installation, but the time limit for a project greatly reduced, but because the reuse of steel, can the greatly reduced construction waste, more green can be widely used in large-scale hotel and exhibition hall building.

Drawings

Fig. 1 is a schematic view of the overall structure of a steel structure roof reinforcing device for architectural design of the present invention;

FIG. 2 is a schematic view of a partially enlarged structure of a portion A of the steel structure reinforced roof apparatus for architectural design according to the present invention;

fig. 3 is a schematic longitudinal sectional structural view of the steel structure roof reinforcing device for architectural design of the present invention;

FIG. 4 is a schematic cross-sectional view of the eave position of the steel structure reinforced roof apparatus for architectural design according to the present invention;

fig. 5 is a schematic longitudinal sectional structural view of two side end positions of the steel structure reinforced roof device for architectural design according to the present invention;

wherein the reference symbols are:

100-a building body; 200-supporting keels, 201-keel upright columns, 202-keel connecting plates, 203-fastening bolts and 204-keel inclined struts;

300-roof steel structure slab, 301-first supporting steel beam, 302-first connecting member, 303-second supporting steel beam, 304-first supporting square pipe, 305-second supporting square pipe, 306-third supporting square pipe, 307-first roof slab, 308-second roof slab, 309-310-sealing connecting member, 311-third roof slab, 312-fourth supporting square pipe, 313-third supporting steel beam, 314-fifth supporting square pipe, 315-sixth supporting square pipe, 316-fourth roof slab, 317-fifth roof slab, 318-sixth roof slab, 319-seventh roof slab, 320-eighth roof slab, 321-second corner connector, 322-drainage supporting square pipe, 323-drainage plate groove, 324-drainage filter screen plate;

400-roof protection rope structure, 401-support upright post, 402-connecting block, 403-bolt tensioner and 404-stainless steel wire rope.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious 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 some embodiments, as shown in fig. 1, a steel structure reinforced roof apparatus for architectural design is provided, which includes a building body 100, a plurality of support keels 200, and a roof steel structure plate 300. The building body 100 is a large hotel or a large exhibition hall building with an artistic design on the top. The plurality of support keels 200 are disposed on the top of the building body 100, and the roof steel structural plate 300 is obliquely disposed on the top of the plurality of support keels 200 according to a certain shape design.

Specifically, as shown in fig. 2 and 3, the support grid 200 includes a grid post 201, a grid web 202, and a grid brace 204. The lower extreme of fossil fragments stand 201 bury underground perpendicularly in the top of building body 100, and a plurality of fossil fragments stand 201 differ in size to satisfy the installation of specific figurative roof steel structural plate 300 and fix, it is higher if the support fossil fragments 200 at middle part, correspond roof steel structural plate 300 middle ridge position, the support fossil fragments 200 at both ends are lower, correspond roof steel structural plate 300 both ends eave position. The upper end of the keel upright 201 is connected with the keel connecting plate 202 which is transversely arranged through a fastening bolt 203; the distal end welded connection of fossil fragments connecting plate 202 the lower extreme lateral wall of first support girder steel 301 on the roof steel structure board 300, and its middle part is through slope arrangement fossil fragments bracing 204 welded connection the upper end lateral wall of first support girder steel 301 for support fixed roof steel structure board 300.

As shown in fig. 2, 3 and 4, the roof steel structure panel 300 is a steel structure roof of the building body 100, and mainly includes a plurality of first supporting steel beams 301 arranged at intervals in a transverse direction, a plurality of second supporting steel beams 303 arranged at intervals in a longitudinal direction, a plurality of first roof panels 307 respectively assembled and arranged on the tops of the first supporting steel beams 301 and the second supporting steel beams 303, and a plurality of second roof panels 308 respectively assembled and arranged on the bottoms of the first supporting steel beams 301 and the second supporting steel beams 303.

The two ends of the second supporting steel beam 303 are connected with the corresponding first supporting steel beam 301 through first connecting pieces 302 respectively, and the first connecting pieces 302 are L-shaped connecting plates and are installed and fixed in a screw or welding mode. For guaranteeing the stability of first support girder steel 301 structure, will first support girder steel 301 is connected fossil fragments connecting plate 202 and fossil fragments bracing 204 are consolidated through fossil fragments bracing 204. In addition, the adjacent first and second roof plates 307 and 308 are connected by a sealing connector 310, and the sealing connector 310 adopts a conventional sealing and fixing structure, which performs the fixing and sealing functions.

In some of these embodiments, as shown in fig. 2, 3 and 4, the roof steel structural panel 300 further includes a plurality of longitudinally arranged first square supporting tubes 304, second square supporting tubes 305 and third square supporting tubes 306.

The two ends of the first square supporting pipe 304 and the second square supporting pipe 305 are connected to the lower end of the first steel supporting beam 301 through the first connecting piece 302, and at least part of the first square supporting pipe 304 and the second square supporting pipe 305 are arranged at the bottom of the second steel supporting beam 303.

In addition, a plurality of the two ends of the third supporting square pipe 306 are respectively connected and corresponding to the upper end of the first supporting steel beam 301 through the first connecting piece 302, and are respectively arranged at intervals between the two adjacent second supporting steel beams 303.

In some embodiments, as shown in fig. 2 and 5, the roof steel structural panel 300 further includes a third roof panel 311 disposed at front and rear side eaves positions thereof, and fourth, fifth, sixth, seventh and eighth roof panels 316, 317, 318, 319 and 320 disposed at left and right side end positions thereof, and the fourth, fifth, sixth, seventh and eighth roof panels 316, 317, 318, 319 and 320 constitute an eaves structure of an inverted step type at the bottom as shown in fig. 2.

As shown in fig. 1, 2 and 4, a groove is formed on the outer end surface of the third roof plate 311, a LED strip is mounted in the groove, and the upper and lower ends of the third roof plate 311 are connected to the outer ends of the first and second roof plates 307 and 308 by sealing connectors 310. The LED strip is mounted on the outer end surface of the third roof plate 311, so that the landscape effect of the roof apparatus at night can be improved.

The fifth, sixth, seventh and eighth roof panels 317, 318, 319 and 320 are connected in turn by a sealing connector 310 to form a reversed step type zigzag structure, one end of the fifth roof panel 317 is connected to the second roof panel 308, and the upper end of the eighth roof panel 320 is connected to the first roof panel 307.

In addition, as shown in fig. 2 and 5, in order to achieve the structural stability of the zigzag eave structure, the roof steel structure panel 300 further includes third and fourth supporting steel beams 313, fourth supporting square tubes 312, fifth supporting square tubes 314, and sixth supporting square tubes 315 respectively disposed at left and right end positions thereof. And the third support steel beam 313, the fourth support square pipe 312, the fifth support square pipe 314 and the sixth support square pipe 315 are used for supporting and fixing corresponding roof plates respectively.

Specifically, the third support steel beam 313 is transversely disposed at the outer side of the first support steel beam 301, the height of the third support steel beam is smaller than that of the first support steel beam 301, the lower end of the third support steel beam is connected with the fourth support square tube 312, and the upper end of the third support steel beam is connected with the third support square tube 306. The fourth supporting square pipes 312 are arranged at intervals in the longitudinal direction, one end of each of the fourth supporting square pipes 312 is connected to the bottom of the third supporting steel beam 313, the other end of each of the fourth supporting square pipes 312 is connected to the middle of the first supporting steel beam 301 in an inward inclined manner, and the fifth roof plate 317 and the sixth roof plate 318 are correspondingly arranged at the bottoms of the fourth supporting square pipes 312.

The number of the fifth supporting square pipes 314 is a plurality of pipes arranged at intervals in the longitudinal direction, one end of each of the fifth supporting square pipes 314 is connected to the middle of the third supporting steel beam 313, the other end of each of the fifth supporting square pipes 314 extends downwards in an outward inclined manner to be connected to the sixth supporting square pipe 315, and the sixth roof plate 318 and the seventh roof plate 319 are correspondingly arranged at the bottom of each of the fifth supporting square pipes 314. The sixth supporting square pipe 315 is transversely disposed on the top of the distal end of the fifth supporting square pipes 314, the top of the sixth supporting square pipe is connected to the corresponding third supporting square pipes 306, and the eighth roof plate 320 is correspondingly disposed on the outer side of the sixth supporting square pipe 315.

In one embodiment, as shown in fig. 1, 2 and 5, the first, second, third, fourth, fifth, sixth, seventh and eighth roof panels 307, 308, 311, 316, 317, 318, 319 and 320 are inclined, 311, 320, and 320, respectively, the third and eighth roof panels are C-shaped in cross-section, 316 and 318, 320, 318, L-shaped in cross-section.

The first, second and third roof plates 307, 308 and 311 are respectively installed on the third and second square support tubes 306 and 305 by a plurality of first corner connectors 309. The fifth, seventh and eighth roof panels 317, 319 and 320 are respectively installed on the fourth, fifth and third square support tubes 312, 314 and 306 by a plurality of first gusset connectors 309.

The joints between the first, second, third, fourth, fifth, sixth, seventh and eighth roof panels 307, 308, 311, 316, 317, 318, 319 and 320 are connected by the corresponding sealing connectors 310, respectively, and the sealing connectors 310 are connected to the corresponding support square tubes by the second corner connectors 321.

In one embodiment, as shown in fig. 1 and 3, the roof steel structural panel 300 further includes a plurality of drainage support square pipes 322 and drainage plate grooves 323 disposed at both side ends thereof. The cross sections of the drainage support square pipes 322 are U-shaped, the drainage support square pipes are transversely arranged on one side wall of the first support steel beam 301, and the other side ends of the drainage support square pipes are connected with corresponding third support square pipes 306; the cross section of the drainage plate groove 323 is U-shaped, which is embedded in the drainage support square pipe 322, and both ends of the drainage plate groove are connected to the corresponding first roof plates 307 through the sealing connection member 310.

In addition, the roof steel structural panel 300 further includes a drainage filter net panel 324, wherein: the drainage filter screen 324 is laid at the opening of the drainage plate groove 323, and both ends of the drainage filter screen are connected to the corresponding first roof plates 307 through the sealing connectors 310. The drainage filter screen plate 324 is arranged at the opening of the drainage plate groove 323, so that the drainage plate groove 323 is prevented from being directly exposed outside, and the integral integrity of the surface of the roof steel structure plate is ensured.

In some embodiments, as shown in fig. 3, 4 and 5, in order to facilitate installation, replacement and maintenance of the steel roof structural panels 300, the roof reinforcing device further includes several groups of roof protection rope structures 400, wherein each group of roof protection rope structures 400 is composed of a stainless steel wire rope 404, bolt tensioners 403 respectively arranged at two ends of the stainless steel wire rope 404, and a support column 401.

Specifically, the lower end of the support column 401 is welded to the top of the corresponding first support steel beam 301, and the upper end thereof is welded with a connecting block 402; one end of the bolt tensioner 403 is hinged with the connecting block 402, and the other end is fixedly connected with the stainless steel wire rope 404.

Compared with the traditional concrete roof, the steel structure reinforced roof device of the utility model replaces reinforced concrete with steel plates or section steel, has better shock resistance and more diversified shapes; and because each structural component can be unified at the mill prefabrication, the field installation, but the time limit for a project greatly reduced, but because the reuse of steel, can the greatly reduced construction waste, more green can be widely used in large-scale hotel and exhibition hall building.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," "connecting," and "connecting" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be directly connected, and "upper," "lower," "left," and "right" are only used to indicate relative positional relationships, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed;

secondly, in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

finally, the above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a roof device is consolidated to steel construction for architectural design, its characterized in that, including building body (100), set up in a plurality of support fossil fragments (200) at building body (100) top and be the slope and set up in a plurality of roof steel structural slab (300) at support fossil fragments (200) top, wherein:

the supporting keel (200) comprises keel uprights (201), keel connecting plates (202) and keel diagonal braces (204), the keel uprights (201) are vertically arranged at the top of the building body (100) and are different in length, and the upper ends of the keel uprights are connected with the keel connecting plates (202) which are transversely arranged through fastening bolts (203); the far end of the keel connecting plate (202) is welded and connected with the lower end side wall of a first supporting steel beam (301) on the roof steel structure plate (300), and the middle part of the keel connecting plate is welded and connected with the upper end side wall of the first supporting steel beam (301) through the obliquely arranged keel inclined support (204);

the roof steel structure plate (300) comprises a plurality of first support steel beams (301) which are transversely arranged at intervals, a plurality of second support steel beams (303) which are longitudinally arranged at intervals, and a plurality of first roof plates (307) and second roof plates (308) which are respectively assembled and arranged at the tops and the bottoms of the first support steel beams (301) and the second support steel beams (303), wherein two ends of each second support steel beam (303) are respectively connected with the corresponding first support steel beam (301) through a first connecting piece (302), and the first support steel beam (301) is connected with the keel connecting plate (202) and the keel inclined support (204); the adjacent first (307) and second (308) roof panels are connected by a sealing connection (310).

2. The steel structure reinforced roof arrangement for architectural design according to claim 1, wherein the roof steel structure panel (300) further comprises a plurality of longitudinally arranged first square supporting tubes (304), second square supporting tubes (305) and third square supporting tubes (306), wherein:

the two ends of the first supporting square pipes (304) and the second supporting square pipes (305) are respectively connected with the lower ends of the first supporting steel beams (301) through the first connecting pieces (302), and at least part of the first supporting square pipes (304) and the second supporting square pipes (305) are arranged at the bottoms of the second supporting steel beams (303);

and the two ends of the third supporting square pipe (306) are respectively connected and corresponding to the upper end of the first supporting steel beam (301) through the first connecting piece (302), and are respectively arranged between the adjacent two second supporting steel beams (303) at intervals.

3. The steel-structured reinforced roof system for architectural design according to claim 2, wherein the roof steel structure panels (300) further comprise a third roof panel (311) provided at front and rear eaves positions thereof, a fourth roof panel (316), a fifth roof panel (317), a sixth roof panel (318), a seventh roof panel (319), and an eighth roof panel (320) provided at left and right end positions thereof, wherein:

the outer end face of the third roof plate (311) is provided with a groove, an LED lamp strip is installed in the groove, and the upper end and the lower end of the third roof plate (311) are respectively connected with the outer side ends of the first roof plate (307) and the second roof plate (308) through sealing connectors (310);

the fifth roof panel (317), the sixth roof panel (318), the seventh roof panel (319), and the eighth roof panel (320) are sequentially connected by a sealing connector (310) to form a reverse step type zigzag structure, one end of the fifth roof panel (317) is connected to the second roof panel (308), and the upper end of the eighth roof panel (320) is connected to the first roof panel (307).

4. The steel structure-reinforced roof apparatus for architectural design according to claim 3, wherein the roof steel structure panel (300) further comprises a third supporting steel beam (313) and a fourth supporting square tube (312), a fifth supporting square tube (314), and a sixth supporting square tube (315) respectively disposed at left and right side end positions thereof, wherein:

the third supporting steel beam (313) is transversely arranged on the outer side of the first supporting steel beam (301), the height of the third supporting steel beam is smaller than that of the first supporting steel beam (301), the lower end of the third supporting steel beam is connected with a plurality of fourth supporting square pipes (312), and the upper end of the third supporting steel beam is connected with a plurality of corresponding third supporting square pipes (306);

the number of the fourth supporting square pipes (312) is a plurality of pipes which are arranged at intervals in the longitudinal direction, one end of each pipe is connected with the bottom of the third supporting steel beam (313), the other end of each pipe is connected with the middle part of the first supporting steel beam (301) in an inward inclined mode, and the bottom of each of the fourth supporting square pipes (312) is correspondingly provided with the fifth roof plate (317) and the sixth roof plate (318);

the number of the fifth supporting square pipes (314) is a plurality of pipes which are arranged at intervals in the longitudinal direction, one end of each fifth supporting square pipe is connected with the middle part of the third supporting steel beam (313), the other end of each fifth supporting square pipe extends downwards in an outward inclined mode to be connected with the sixth supporting square pipe (315), and the bottom of each fifth supporting square pipe (314) is correspondingly provided with the sixth roof plate (318) and the seventh roof plate (319);

the sixth supporting square pipe (315) is transversely arranged at the top of the far end of the fifth supporting square pipes (314), the top of the sixth supporting square pipe is connected with the corresponding third supporting square pipes (306), and the outside of the sixth supporting square pipe (315) is correspondingly provided with the eighth roof plate (320).

5. The steel structure reinforced roof structure for architectural design according to claim 4, wherein the roof panels of the first, second, third, fourth, fifth, sixth, seventh and eighth roof panels (307, 308, 311, 316, 317, 318, 319, 320) are arranged in an inclined manner as a whole, and the third and eighth roof panels (311, 320) have a C-shaped cross section, and the fourth and sixth roof panels (316, 318) have an L-shaped cross section.

6. The steel structure reinforced roof system for architectural design according to claim 4, wherein the first roof plate (307), the second roof plate (308), and the third roof plate (311) are correspondingly installed on the third supporting square pipe (306) and the second supporting square pipe (305) by a plurality of first corner connectors (309), respectively;

the fifth roof plate (317), the seventh roof plate (319), and the eighth roof plate (320) are respectively and correspondingly installed on the fourth supporting square pipe (312), the fifth supporting square pipe (314), and the third supporting square pipe (306) by a plurality of first corner connectors (309).

7. The steel-structured reinforced roof arrangement for architectural design according to claim 4, wherein the joints between the first (307), second (308), third (311), fourth (316), fifth (317), sixth (318), seventh (319) and eighth (320) roof plates are connected by corresponding said sealing connectors (310), respectively, and the sealing connectors (310) are connected to the corresponding support square tubes by second corner connectors (321).

8. The steel structure reinforced roof structure for architectural design of claim 1, wherein said roof steel structure panel (300) further comprises a plurality of drainage support square tubes (322) and drainage panel grooves (323) provided at both side ends thereof, wherein:

the cross sections of the drainage support square pipes (322) are U-shaped, the drainage support square pipes are transversely arranged on one side wall of the first support steel beam (301), and the other side end of each drainage support square pipe is connected with a corresponding third support square pipe (306);

the cross section of the drainage plate groove (323) is U-shaped, the drainage plate groove is embedded in the drainage support square pipe (322), and two ends of the drainage plate groove are respectively connected with the corresponding first roof plates (307) through the sealing connecting piece (310).

9. The steel structure reinforced roof structure for architectural design as set forth in claim 8, wherein said roof steel structure panel (300) further comprises a drainage filter mesh panel (324), wherein:

the drainage filter screen plate (324) is laid at the opening of the drainage plate groove (323), and two ends of the drainage filter screen plate are respectively connected with the corresponding first roof plate (307) through the sealing connecting piece (310).

10. The steel structure reinforced roof device for architectural design according to claim 1, further comprising a plurality of sets of roof protection cable structures (400), wherein each set of roof protection cable structures (400) is composed of a stainless steel wire rope (404), bolt tensioners (403) respectively disposed at two ends of the stainless steel wire rope (404), and a support column (401), wherein:

the lower end of each support upright column (401) is connected to the top of the corresponding first support steel beam (301) in a welding mode, and the upper end of each support upright column is welded with a connecting block (402);

one end of the bolt tensioner (403) is hinged with the connecting block (402), and the other end of the bolt tensioner is fixedly connected with the stainless steel wire rope (404).

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