CN112922217B - Movable steel structure roof - Google Patents

Abstract

The application relates to a movable steel structure roof, which comprises a roof body and a connecting part, wherein the connecting part is fixedly arranged on a building body for installing the roof body, and is used for fixing the roof body on the top of the building body; the connecting part comprises a bearing frame and a contact part, and the bearing frame is arranged on the top wall of the building body along the horizontal direction; the supporting plate is arranged at one end of the extending frame far away from the direction of the supporting frame, and the supporting plate is abutted against the side wall of the roof body facing to each other; the roof body inside wall is provided with the limiting plate that is used for injecing the backup pad position, the limiting plate is provided with locating component with the backup pad jointly. This application has the effect of convenient degree and work efficiency when effectively improving constructor installation roof body.

Description

Movable steel structure roof

Technical Field

The application relates to the field of movable roofs, in particular to a movable steel structure roof.

Background

At present, a steel structure roof is a roof structure with high bearing strength and relatively economic engineering cost. In the construction that uses steel construction roof as the structure of capping, roof structure is prefabricated in advance mostly, and when the building subject completed the back, constructor accessible lifts by crane equipment hoists roof structure in the building subject top, and then in order to accomplish the construction of capping of building.

Chinese patent No. CN204781532U discloses a movable steel structure roof, which includes truss girders and color steel shingles. The truss girder is the main part of roof structure, and truss girder accessible electric operating mechanism erects in the building subject top, and after the truss girder adjusted the position, constructor accessible makes the truss girder be fixed in the building subject top with the clamping device of truss girder looks adaptation. Various steel shingles are fixed in the truss roof beam lateral wall, and adjacent various steel shingles closely cooperate to guarantee roof structure to building inside protection, shelter from the effect.

In view of the above-mentioned related technologies, the inventor thinks that there are defects that most of roof structures are integrally hoisted to the top of a building to adjust the position and fixedly mount, and the roof structures are large in size and heavy in weight, so that the roof structures are not easily positioned at the top of the building body, and the mounting efficiency of the roof structures is affected.

Disclosure of Invention

In order to improve the problem that roof structure is difficult for the location installation at the building top, this application provides a movable steel construction roof.

The application provides a movable steel structure roof adopts following technical scheme:

a movable steel structure roof comprises a roof body and a connecting part, wherein the connecting part is fixedly arranged on a building body for mounting the roof body, and is used for fixing the roof body on the top of the building body; the connecting part comprises a bearing frame and a contact piece, and the bearing frame is arranged on the top wall of the building body along the horizontal direction; the supporting plate is arranged at one end of the extending frame far away from the direction of the supporting frame, and the supporting plate is abutted against the side wall of the roof body facing to each other; the roof body inside wall is provided with the limiting plate that is used for injecing the backup pad position, the limiting plate is provided with locating component with the backup pad jointly.

By adopting the technical scheme, the bearing frame is used as a bearing main body of the roof body and is fixed at the top of the building body in advance, so that the roof body can be quickly positioned and fixed during hoisting and installation; the supporting plate is obliquely fixed on the top wall of the bearing frame through the extending frame so as to stably bear and support the roof body, and meanwhile, a constructor can conveniently adjust the position of the roof body on the basis of the supporting plate, so that the positioning speed of the roof body is improved; the limiting plate passes through the butt backup pad to inject the position of roof body in the building body top, and then reduced the roof body and appeared the position and sway, not hard up phenomenon, and be convenient for constructor carries out quick fixation to the roof body, with the further installation effectiveness that improves constructor to the roof body.

Preferably, the bottom wall of the bearing frame is provided with a plurality of groups of fixing assemblies for fixing the bearing frame on the top of the building body, and each fixing assembly comprises a butting plate, a fixing bolt and a fixing nut; the abutting plates are arranged on the bottom wall of the bearing frame, two adjacent abutting plates are used for clamping the wall of the building body together, the rod body of the fixing bolt can penetrate through the two adjacent abutting plates simultaneously, and the thread of the fixing nut is matched with the outer edge of the rod body of the fixing bolt.

By adopting the technical scheme, two adjacent abutting plates are simultaneously sleeved with the wall of the building body, so that the bearing frame is preliminarily positioned at the top of the building body; the fixing bolt is used for connecting two adjacent abutting plates simultaneously and is screwed up by the fixing nut at the outer edge of the rod body of the fixing bolt, so that the abutting plates are fixedly connected with the wall body of the building body, and the position stability of the bearing frame after being fixed is guaranteed.

Preferably, the abutting plate and the bearing frame are provided with a mounting assembly together, and the mounting assembly comprises a mounting plate and a fixing piece; the mounting panel sets up in the butt plate lateral wall, the mounting is used for fixed connection mounting panel and accepting frame.

By adopting the technical scheme, after the top wall of the mounting plate is abutted against the bottom wall of the bearing frame, the fixing piece is fixedly connected with the mounting plate and the bearing frame, so that the abutting plate is quickly fixed on the bottom wall of the bearing frame; when the wall thickness of building main part changes, constructor can dismantle the mounting panel fast and accept the structure between the frame to adjust the distance between two adjacent butt joint boards, so that accept the frame and fix a position in building body top fast.

Preferably, the locating component comprises a directional rod, a connecting plate and a locking piece, the directional rod is arranged on the limiting plate and the side wall of the supporting plate facing the bearing frame respectively, the connecting plate is sleeved on the outer edges of all the directional rods close to each other, and the locking piece is in threaded fit with the outer edges of the directional rods.

Through adopting above-mentioned technical scheme, the through-hole cover that connecting plate accessible self lateral wall was predetermine connects in adjacent all orienting rod outer fringe, and the locking piece is screwed up at orienting rod outer fringe screw to make the connecting plate connect adjacent limiting plate and backup pad simultaneously, and then reduced the phenomenon that appears relative not hard up between limiting plate and the backup pad, ensured the positional stability of roof structure at the building body top.

Preferably, the supporting plate and the roof body are provided with a clamping component together, and the clamping component comprises an attaching plate, a clamping plate and a clamping piece; the attachment plate is perpendicular to the clamping plate, the clamping plate abuts against the side wall, facing to each other, of the support plate, and the attachment plate abuts against the side wall, facing to each other, of the roof body; the clamping piece is used for fixedly connecting the clamping plate and the supporting plate, and the clamping piece can also be used for fixedly connecting the roof body and the attaching plate.

By adopting the technical scheme, after the laminating plate is abutted against the side wall facing to the roof body, the clamping piece is fixedly connected with the laminating plate and the roof body; after the clamping plate and the side wall of the supporting plate which face each other are abutted, the clamping piece is fixedly connected with the clamping plate and the supporting plate, the supporting plate and the roof body are fixedly connected into a whole in the process, and the position stability of the roof body after being fixed is further improved.

Preferably, the carrying frame and the limiting plate are provided with a counter-pulling assembly together, and the counter-pulling assembly comprises a tension steel cable, a clamping ring and a clamping piece; the one end of pulling force cable wire length direction is fixed to be set up on the accepting frame, the block ring sets up in the one end that the accepting frame direction was kept away from to the pulling force cable wire, the joint spare is fixed to be set up in the lateral wall of limiting plate orientation accepting frame, the block ring can cup joint with the joint spare.

By adopting the technical scheme, the tension steel cable is connected with the limiting plate and the bearing frame simultaneously to improve the connection strength between the roof body and the bearing frame, and when the roof body is loosened and biased relative to the building body under the action of external force, the tension steel cable can oppositely pull the roof body and the bearing frame simultaneously to further improve the position stability and the connection strength of the roof body on the building body.

Preferably, the roof body and the receiving frame are provided with a stabilizing assembly together, and the stabilizing assembly comprises a bottom supporting column, a top connecting column and a sleeve joint barrel; the bottom bracing column is arranged on the top wall of the bearing frame, and the sleeving barrel is in threaded fit with the outer edge of the bottom bracing column; the top connection column is arranged on the side wall of the roof body facing the bottom support column, and the sleeve connection barrel can also be in threaded fit with the outer edge of the top connection column to fixedly connect the bottom support column and the top connection column which are close to each other.

Through adopting above-mentioned technical scheme, a cup joint section of thick bamboo can screw up in end brace post, top connection post outer fringe simultaneously to fixed connection accepts frame and roof body, and further inject the roof body and accepted the position of frame relatively on vertical, and further improved the positional stability after the roof body installation.

Preferably, the roof body includes first roof, second roof and side board, the side board sets up in the lateral wall of first roof towards the second roof, the lateral wall of second roof towards first roof is provided with the subsider that the side board of being convenient for pushed into.

By adopting the technical scheme, after the roof body is split into the first top plate and the second top plate, the roof body has smaller volume and lighter weight, so that constructors can conveniently and quickly position and install the roof body on the top of the building body; the side board can support in the subsider of adaptation with it, and then so that first roof and second roof closely cooperate to positional stability and joint strength after first roof and the connection of second roof are ensured.

Preferably, the first top plate is provided with an interference piece in the settling tank, and the interference piece is tightly attached between the second top plate and the side plate.

Through adopting above-mentioned technical scheme, the interference piece supports tightly between first roof and side board through the compression deformation of self, and then has further improved the positional stability of side board in the subsider to the joint strength after first roof is assembled with the second roof has further been improved.

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

1. the connecting part is used for supporting the roof body, so that the roof plate body can be quickly positioned and adjusted in displacement above the building body, and the working efficiency and convenience of construction personnel in mounting the roof body are greatly improved;

2. roof body split becomes first roof and second roof in order to install respectively, and volume and quality when this process has effectively reduced roof body integral erection, and then the constructor of being more convenient for regulates and control the roof body in the installation to the convenient degree and the work efficiency of constructor installation roof body have further been improved.

Drawings

Fig. 1 is a schematic structural view of a movable steel structure roof according to an embodiment of the present application;

FIG. 2 is a schematic longitudinal sectional view of the connection between the receiving frame and the roof body;

FIG. 3 is an exploded schematic view of the positional relationship of the first top panel, the second top panel and the interference piece;

figure 4 is an exploded view of the connection of the uptake and the building body;

fig. 5 is an exploded view of the connection of the uptake, extension and roof body.

Description of reference numerals: 1. a roof body; 11. a first top plate; 111. a side plate; 12. a second top plate; 121. a settling tank; 122. an interference piece; 13. a limiting plate; 2. a connecting portion; 21. a receiving frame; 22. a contact member; 221. an extension frame; 222. a support plate; 3. a fixing assembly; 31. abutting against the plate; 32. fixing the bolt; 33. fixing a nut; 4. mounting the component; 41. mounting a plate; 42. a fixing member; 5. a positioning assembly; 51. an orientation bar; 52. a connecting plate; 53. a locking member; 6. a clamping component; 61. laminating the plates; 62. a clamping plate; 63. a clamping and fixing piece; 7. a counter-pull assembly; 71. a tension wire rope; 72. clamping a ring; 73. a clamping piece; 8. a stabilizing assembly; 81. a bottom bracing column; 82. jacking the column; 83. a sleeve joint barrel.

Detailed Description

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

The embodiment of the application discloses movable steel construction roof. Referring to fig. 1 and 2, a movable steel structure roof includes a roof body 1 and a connection part 2. Connecting portion 2 sets up in the building body top that is used for installing roof body 1, and constructor passes through overhead hoist with roof body 1 handling to building body top back, and connecting portion 2 can dock with roof body 1 to improve the convenient degree in the location at building body top of roof body 1, and then improve roof body 1's installation effectiveness.

Referring to fig. 3, in the present embodiment, the roof body 1 is a double-slope roof structure, and the roof body 1 includes a first top plate 11, a second top plate 12 and a side plate 111. When the length of the roof body 1 is long enough, the roof body 1 may further include a third top plate, a fourth top plate, or even an nth top plate. In the handling installation of roof body 1, constructor can install first roof 11 earlier, handling installation second roof 12 again, later closely cooperates first roof 11 and second roof 12 to accomplish the whole installation of roof body 1.

Referring to fig. 3, the side plate 111 is integrally formed on a side wall of the first top plate 11 facing the second top plate 12, and an outer peripheral dimension of the side plate 111 is smaller than an outer peripheral dimension of the first top plate 11. The side wall of the second top plate 12 facing the first top plate 11 is provided with a settling tank 121, and the inner diameter dimension of the settling tank 121 is matched with the outer peripheral dimension line of the side wall plate. When the side wall of the first top plate 11 with the side plate 111 and the side wall of the second top plate 12 with the settling tank 121 are close to each other and tightly attached to each other, the side plate 111 tightly abuts against the inner cavity of the settling tank 121, so that the first top plate 11 and the second top plate 12 are tightly matched to form a whole.

Referring to fig. 3, an interference member 122 is adhered to the first top plate 11 in each settling tank 121, and in this embodiment, the interference member 122 may be a flexible and easily deformable rubber sleeve. The interference member 122 is tightly attached to the inside of the settling tank 121, and after the side plate 111 abuts against the inner cavity of the settling tank 121, the interference member 122 can be compressed and deformed to abut against the space between the first top plate 11 and the side plate 111, so as to improve the tightness and the sealing performance of the connection between the first top plate 11 and the second top plate 12.

Referring to fig. 2 and 4, the connecting portion 2 includes a receiving frame 21 and an abutting member 22, the receiving frame 21 is disposed on the top of the building body through the fixing component 3, and the abutting member 22 is disposed on the top wall of the receiving frame 21 in an inclined manner for receiving the roof body 1. In this embodiment, the receiving frame 21 is a horizontal steel frame formed by welding a plurality of steel bars, the length dimension of the receiving frame 21 is adapted to the length dimension of the building body, and the width dimension of the receiving frame 21 is adapted to the width dimension of the building body.

Referring to fig. 4, the fixing assembly 3 includes abutting plates 31, fixing bolts 32 and fixing nuts 33, the abutting plates 31 are vertically disposed on the bottom wall of the receiving frame 21 through the mounting assembly 4, and two adjacent abutting plates 31 are parallel to each other for commonly clamping the wall of the building body.

Referring to fig. 4, the mounting assembly 4 includes a mounting plate 41 and a fixing member 42, and in the present embodiment, the fixing member 42 is a bolt. The mounting plate 41 is disposed and welded to the side walls of the two adjacent abutting plates 31 that are away from each other, and the side wall of the mounting plate 41 facing the receiving frame 21 is coplanar with the side wall of the abutting plate 31 facing the receiving frame 21. When the top wall of the mounting plate 41 abuts against the bottom wall of the receiving frame 21, the rod body of the fixing member 42 can penetrate through the mounting plate 41 and be screwed into the predetermined threaded groove of the bottom wall of the receiving frame 21, so that the mounting plate 41 is fixedly connected with the receiving frame 21, and the abutting plate 31 is stably fixed on the bottom wall of the receiving frame 21.

Referring to fig. 4, after two adjacent abutting plates 31 clamp the wall of the building body together, the constructor can make the rod body of the fixing bolt 32 penetrate through the two adjacent abutting plates 31 and the wall of the building body, and then screw the fixing nut 33 on the outer edge of the rod body of the fixing bolt 32, so that the receiving frame 21 is stably fixed on the top wall of the building body.

Referring to fig. 2 and 4, the abutting member 22 includes an extending frame 221 and a supporting plate 222, the extending frame 221 is obliquely welded to the top wall of the receiving frame 21, and the supporting plate 222 is vertically welded to one end of the extending frame 221 away from the receiving frame 21. After the roof body 1 is positioned on the top of the building body, the supporting plate 222 abuts against the side walls of the roof body 1 facing each other, so as to stably support the roof body 1, thereby ensuring the positioning stability of the roof body 1 above the building body.

Referring to fig. 5, the limiting plates 13 equal to the supporting plates 222 are vertically welded to the inner side wall of the roof body 1, and when the supporting plates 222 abut against the mutually facing side walls of the roof body 1 and the roof body 1 is adjusted to the fitting position above the building body, the limiting plates 13 abut against the mutually facing side walls of the supporting plates 222, so as to reduce the phenomenon that the roof body 1 is further displaced downward.

Referring to fig. 5, the position limiting plate 13 adjacent to each other and the support plate 222 are provided with a positioning assembly 5, and the positioning assembly 5 includes a directional lever 51, a connection plate 52 and a locking member 53. In the present embodiment, the orientation rod 51 is a screw rod, the orientation rod 51 is vertically welded to the sidewall of the support plate 222 facing the receiving frame 21, and the orientation rod 51 is also welded to the sidewall of the support plate 222 facing the receiving frame 21. The locking member 53 is a hexagonal nut, and the locking member 53 can be screwed on the outer edge of the orientation lever 51. The connecting plate 52 can be sleeved on the outer edge of all the adjacent directional rods 51 at the same time, and then the locking piece 53 can be screwed on the outer edge of the directional rod 51 to fixedly connect the adjacent supporting plate 222 and the limiting plate 13.

Referring to fig. 5, the supporting plate 222 and the roof body 1 are further provided with a clamping component 6, and the clamping component 6 is located at one end of the supporting plate 222 away from the limiting plate 13. The fastening assembly 6 includes an attachment plate 61, a fastening plate 62 and a fastening member 63, in this embodiment, the fastening member 63 is a bolt. Attaching plate 61 and joint board 62 mutually perpendicular, attaching plate 61 offsets towards the lateral wall that roof body 1 oriented each other, and joint board 62 offsets with the lateral wall that backup pad 222 oriented each other. Afterwards, the constructor can penetrate the rod body of the clamping piece 63 through the attaching plate 61 and screw the rod body in a thread groove preset in the inner side wall of the roof body 1, so that the attaching plate 61 is fixedly connected with the roof body 1. The constructor can also make the rod of the fastener 63 penetrate the fastening plate 62 and screw the rod in a predetermined screw groove on the outer side wall of the support plate 222, so that the fastening plate 62 is fixedly connected with the support plate 222, the support plate 222 is fixedly connected with the roof body 1, and the position stability of the roof body 1 above the building body is further improved.

Referring to fig. 5, the limit plate 13 and the receiving frame 21 are provided with a counter-pull assembly 7, and the counter-pull assembly 7 includes a tension steel cable 71, a snap ring 72 and a snap member 73. In this embodiment, the pull cable 71 is an aircraft carrier arresting cable, one end of the pull cable 71 in the length direction is tied and fixed to the top wall of the receiving frame 21, and the snap ring 72 is sleeved on one end of the pull cable 71 away from the receiving frame 21. The clamping piece 73 is a steel hook, and the clamping piece 73 is welded on the side wall of the limiting plate 13 far away from the supporting plate 222. Constructors can sleeve the clamping ring 72 on the outer edge of the clamping piece 73, and then apply a counter-pulling acting force between the bearing frame 21 and the limiting plate 13 through the pulling steel cable 71 so as to ensure the position stability of the roof structure on the building body.

Referring to fig. 5, the roof body 1 and the receiving frame 21 are provided with a stabilizing assembly 8, and the stabilizing assembly 8 includes a bottom bracing column 81, a top connection column 82 and a sleeve 83. In this embodiment, the bottom brace 81 is a screw rod, and the bottom brace 81 is vertically welded to the top wall of the receiving frame 21. The sleeve joint cylinder 83 is a cylinder body with a thread groove on the inner side wall, and the thread of the adjusting cylinder is matched with the outer edge of the bottom support column 81. The top connection column 82 is also a screw rod, and the top connection column 82 is vertically welded to the side wall of the roof body 1 facing the bottom support column 81.

Referring to fig. 5, when the roof body 1 is positioned above the building body, the top struts 82 and the bottom struts 81 close to each other are symmetrical to each other, and the top struts 82 and the bottom struts 81 close to each other are in clearance fit. Constructors can screw one end of the sleeve joint cylinder 83 far away from the direction of the bottom bracing column 81 to the outer edge of the top bracing column 82, so that the top bracing column 82 is fixedly connected with the bottom bracing column 81, and the position stability of the roof body 1 positioned at the top of the building body is further improved.

The implementation principle of a movable steel structure roof of the embodiment of the application is as follows: the constructor can hoist the first top plate 11 to the upper part of the building body and lower the first top plate 11 to the side wall of the support plate 222 facing to the first top plate 11. The first top board 11 slides downwards until the limiting board 13 abuts against the side wall of the supporting board 222 facing each other, so that the first top board 11 is quickly positioned on the top of the building body.

The connecting plate 52 is simultaneously sleeved on the outer edges of all the adjacent orientation rods 51, and the locking piece 53 is screwed on the outer edge of each orientation rod 51, so that the connecting plate 52 is fixedly connected with the adjacent limiting plate 13 and the supporting plate 222. The attaching plate 61 is abutted against the roof body 1 and fixed by the fastener 63, and the fastening plate 62 is abutted against the supporting plate 222 and fixed by the fastener 63, so that the supporting plate 222 is fixedly connected with the roof body 1.

The clamping ring 72 is sleeved on the outer edge of the clamping piece 73, so that the pull steel cable 71 is simultaneously connected with the limiting plate 13 and the bearing frame 21, and the connection strength between the first top plate 11 and the bearing frame 21 is improved. The sleeve joint cylinder 83 is screwed upwards, so that the sleeve joint cylinder 83 is screwed on the outer edge of the top joint column 82 in a threaded manner, the top joint column 82 and the bottom bracing column 81 are fixedly connected into a whole, the connection strength of the first top plate 11 and the connection column is further improved, and the position stability of the first top plate 11 mounted at the top of the building body is guaranteed.

After the second top plate 12 abuts against the side walls of the supporting plate 222 facing each other, the constructor can slide the second top plate 12 to make the side plates 111 abut against the inner cavity of the settling tank 121, so that the first top plate 11 and the second top plate 12 are tightly matched, and the fixing step of the second top plate 12 is equal to that of the first top plate 11. This process is through split roof body 1, reduces roof body 1's volume and quality to improve constructor installation roof body 1's convenient degree, and then effectively improved constructor installation roof body 1's work efficiency.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a movable steel construction roof which characterized in that: the roof comprises a roof body (1) and a connecting part (2), wherein the connecting part (2) is fixedly arranged on a building body for installing the roof body (1), and the connecting part (2) is used for fixing the roof body (1) on the top of the building body; the connecting part (2) comprises a bearing frame (21) and an abutting part (22), and the bearing frame (21) is arranged on the top wall of the building body along the horizontal direction; the contact piece (22) comprises an extension frame (221) and a support plate (222), the extension frame (221) is obliquely arranged on the top wall of the bearing frame (21), the support plate (222) is arranged at one end, far away from the bearing frame (21), of the extension frame (221), and the support plate (222) is abutted to the side wall, facing each other, of the roof body (1); the roof is characterized in that a limiting plate (13) used for limiting the position of the supporting plate (222) is arranged on the inner side wall of the roof body (1), and a positioning assembly (5) is arranged on the limiting plate (13) and the supporting plate (222) together.

2. A movable steel structural roof as claimed in claim 1, wherein: the bottom wall of the bearing frame (21) is provided with a plurality of groups of fixing assemblies (3) for fixing the bearing frame (21) on the top of the building body, and each fixing assembly (3) comprises a bearing plate (31), a fixing bolt (32) and a fixing nut (33); the butt joint board (31) sets up in accepting frame (21) diapire, two adjacent butt joint board (31) are used for the wall body of centre gripping building body jointly, two adjacent butt joint board (31) can be run through simultaneously to the body of rod of fixing bolt (32), fixation nut (33) screw-thread fit is in the body of rod outer fringe of fixing bolt (32).

3. A movable steel structural roof as claimed in claim 2, wherein: the abutting plate (31) and the bearing frame (21) are provided with a mounting assembly (4) together, and the mounting assembly (4) comprises a mounting plate (41) and a fixing piece (42); the mounting plate (41) is arranged on the outer side wall of the abutting plate (31), and the fixing piece (42) is used for fixedly connecting the mounting plate (41) and the bearing frame (21).

4. A movable steel structural roof as claimed in claim 1, wherein: positioning assembly (5) include directional lever (51), connecting plate (52) and locking piece (53), directional lever (51) set up respectively in limiting plate (13), backup pad (222) towards the lateral wall of accepting frame (21), connecting plate (52) cup joint in all directional lever (51) outer margins that are close to each other, locking piece (53) screw-thread fit is in directional lever (51) outer margin.

5. A movable steel structure roof according to claim 4, characterized in that: the supporting plate (222) and the roof body (1) are provided with a clamping component (6) together, and the clamping component (6) comprises a joint plate (61), a clamping plate (62) and a clamping piece (63); the attaching plate (61) is perpendicular to the clamping plate (62), the clamping plate (62) abuts against the side wall, facing to each other, of the support plate (222), and the attaching plate (61) abuts against the side wall, facing to each other, of the roof body (1); the clamping piece (63) is used for fixedly connecting the clamping plate (62) and the support plate (222), and the clamping piece (63) can also be used for fixedly connecting the roof body (1) and the attaching plate (61).

6. A movable steel structural roof according to claim 4, wherein: the bearing frame (21) and the limiting plate (13) are provided with a counter-pulling assembly (7) together, and the counter-pulling assembly (7) comprises a tension steel cable (71), a clamping ring (72) and a clamping piece (73); tensile force cable wire (71) length direction's one end is fixed to be set up on accepting frame (21), joint ring (72) set up in tensile force cable wire (71) keep away from the one end of accepting frame (21) direction, joint spare (73) are fixed to be set up in limiting plate (13) towards the lateral wall of accepting frame (21), joint ring (72) can cup joint with joint spare (73).

7. The movable steel structure roof as claimed in claim 1, wherein: the roof body (1) and the bearing frame (21) are jointly provided with a stabilizing assembly (8), and the stabilizing assembly (8) comprises a bottom supporting column (81), a top connecting column (82) and a sleeve joint barrel (83); the bottom support column (81) is arranged on the top wall of the bearing frame (21), and the sleeve joint cylinder (83) is in threaded fit with the outer edge of the bottom support column (81); the top connection column (82) is arranged on the side wall of the roof body (1) facing to the bottom support column (81), the sleeve connection tube (83) can also be in threaded fit with the outer edge of the top connection column (82) to fixedly connect the bottom support column (81) and the top connection column (82) which are close to each other.

8. A movable steel structure roof as claimed in claim 7, wherein: roof body (1) includes first roof (11), second roof (12) and side board (111), side board (111) set up in the lateral wall of first roof (11) orientation second roof (12), the lateral wall of second roof (12) orientation first roof (11) is provided with the subsider (121) that are convenient for side board (111) to go into.

9. The movable steel structure roof as claimed in claim 8, wherein: the first top plate (11) is provided with an interference piece (122) in the settling tank (121), and the interference piece (122) is tightly attached between the second top plate (12) and the side plate (111).

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