CN112900754B

CN112900754B - Roof structure is invertd to antiskid assembled

Info

Publication number: CN112900754B
Application number: CN202110100791.5A
Authority: CN
Inventors: 叶胜军; 钱元弟
Original assignee: China MCC17 Group Co Ltd
Current assignee: China MCC17 Group Co Ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2022-03-22
Anticipated expiration: 2041-01-26
Also published as: CN112900754A

Abstract

The invention discloses an anti-skid assembled inverted roof structure, which belongs to the field of buildings and comprises a first inverted roof plate structure and a second inverted roof plate structure which have the same structure and are arranged side by side, wherein the top ends of the first inverted roof plate structure and the second inverted roof plate structure are provided with driving structures, and one side of the first inverted roof plate structure or one side of the second inverted roof plate structure is fixed with a leakage-proof material injection structure through screws. According to the novel anti-slip anti-overflow device, due to the matching design of the structural design of the novel plate body main body and the anti-leakage material injection structure, the anti-slip anti-overflow device is convenient to install the top heat preservation material and the waterproof layer material, the concrete is convenient to inject, the concrete is prevented from falling off due to the mode of filling the concrete, the convenience in use of the device is greatly improved, and due to the design of the assembly driving structure, the device is convenient to automatically pull and assemble plate bodies in different directions, so that the convenience in assembly of the plate bodies is greatly improved.

Description

Roof structure is invertd to antiskid assembled

Technical Field

The invention belongs to the technical field of building construction, relates to pile foundation construction, and particularly relates to an anti-skidding assembled inverted roof structure.

Background

The inverted roof is a heat-insulating roof with a heat-insulating layer positioned on a waterproof layer. Its advantage is because insulation material's guard action, makes the waterproof layer avoid outdoor temperature drastic change, the harm that ultraviolet radiation effect and constructor trampled etc. and bring to prolonged waterproof material's life greatly, effectively solved the problem that the roofing leaked, however, the easy landing of heated board and waterproof construction and concrete when current device was built at the higher housing surface of gradient, be not convenient for use, and lack the drive performance of convenient assembly between the plate body.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides an anti-skid assembled inverted roof structure, which aims to solve the existing problems: the existing device is inconvenient to use because the insulation board, the waterproof structure and the concrete easily slide off when the building surface with higher gradient is built.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention relates to an anti-skid assembled inverted roof structure, which comprises a first inverted roof plate structure and a second inverted roof plate structure which have the same structure and are arranged side by side, wherein the first inverted roof plate structure and the second inverted roof plate structure are used for forming internal carrying concrete and limiting anti-skid and anti-overflow of a top waterproof layer and a top heat-insulating layer;

the assembly driving structure is positioned at the top ends of the first inverted roof plate structure and the second inverted roof plate structure and is used for forming automatic bidirectional driving, so that the first inverted roof plate structure and the second inverted roof plate structure are stressed and synchronously displaced to the middle position of the assembly driving structure, and the assembly and the fitting of the first inverted roof plate structure and the second inverted roof plate structure are completed;

still annotate the material structure including the leak protection, the leak protection is annotated the material structure and is fixed in one side of first inversion roofing plate structure or the second inversion roofing plate structure through the screw, and this leak protection is annotated the material structure and is used for accomplishing and carries out convenient concrete injection to first inversion roofing plate structure or the inside concrete injection that carries on of second inversion roofing plate structure to form good concrete leak protection and prevent the derivation that solidifies.

Furthermore, the first inverted roof panel structure and the second inverted roof panel structure respectively comprise a sliding base material bottom plate, an internally-installed concrete injection plate, an access conduit, a containing carrying groove, an internally-installed reinforcing rib, a material accumulation anti-skidding groove and an anti-overflow baffle; the top fixedly connected with of slip matrix bottom plate built-in concrete notes flitch, the inboard of built-in concrete notes flitch has been seted up and has been held the groove of carrying, the one end welding of built-in concrete notes flitch has the access pipe, the interior skin weld who holds the groove of carrying has built-in strengthening rib, all be fixed with the anti-overflow baffle around the built-in concrete notes flitch top, a plurality of long-pending material antiskid groove have been seted up on the top of built-in concrete notes flitch.

Furthermore, the leakage-proof material injection structure comprises a discharge pipe, a circulating cooling flow block, an internally-installed carrying pipe, a blocking carrying plate, a reserved groove, a concrete flow pipe, a moisture-preserving and heat-preserving flow pipe, a water storage tank, a water pump, a water guide pipe and an injection connecting pipe; circulating cooling flow blocks are welded at two ends of the built-in carrying pipes, a reserved groove is formed in each circulating cooling flow block, a blocking carrying plate is welded at one side of the inside of each circulating cooling flow block, and a plurality of moisturizing and heat-preserving circulation pipes are fixed on the peripheral side of each blocking carrying plate; the concrete flow pipe is fixedly connected to the inner side of the built-in carrying pipe, one end of the concrete flow pipe is fixedly connected with the injection connecting pipe, and the other end of the concrete flow pipe is fixedly connected with the discharge pipe; the top end of each circulating cooling flow block is inserted with a water guide pipe, and the other end of each water guide pipe is fixedly connected with a water pump; the bottom end of the water pump is fixedly connected with the water storage tank.

Furthermore, the assembly driving structure comprises an assembly carrying frame, a control module, a guide sliding rail, a carrying central block, a synchronous pulling plate, a positioning connecting pin, a matching displacement rod, a first displacement sliding block, a second displacement sliding block, a hydraulic piston cylinder, an L-shaped carrying plate, an inner loading and unloading force column, a spring and a contact clamping push plate; the top end of the assembling and carrying frame is fixedly connected with a control module, the inner side of the assembling and carrying frame is welded with a carrying center block, two ends of two sides of the carrying center block are welded with guide slide rails, the top end of the carrying center block is rotatably connected with a synchronous pull plate, two sides of the top end of the synchronous pull plate are welded with positioning connecting pins, the outer side of the guide slide rail at one end is connected with a first displacement slide block in a sliding manner, the outer side of the guide slide rail at the other end is connected with a second displacement slide block in a sliding manner, the top end of the first displacement slide block and the top end of the second displacement slide block are welded with matching positioning rods, the first displacement slide block and the synchronous pull plate are respectively sleeved with the positioning connecting pins and the matching positioning rods at the synchronous pull plate through the matching displacement rods for connection, and the second displacement slide block and the synchronous pull plate are respectively sleeved with the positioning connecting pins and the matching positioning rods at the synchronous pull plate through the matching displacement rods for connection, the inner side of the second displacement slide block is fixedly connected with a hydraulic piston cylinder through a screw, the output end of the hydraulic piston cylinder is connected with a carrying center block, the control module is electrically connected with the hydraulic piston cylinder, the bottom end of the first displacement slide block and the bottom end of the second displacement slide block are both fixedly connected with an L-shaped carrying plate through screws, inner loading and unloading force columns are welded on two sides of one end of the L-shaped carrying plate, springs are fixedly connected to the inner sides of the inner loading and unloading force columns, one ends of the inner loading and unloading force columns are further in sliding connection with a contact clamping push plate, and one ends of the springs are attached to one ends of the contact clamping push plate.

Furthermore, the top welding of carrying the center block has the extension to carry the post, the roller bearing has been cup jointed in the outside that extends to carry the post, synchronous pulling plate passes through roller bearing with carrying the center block and is connected.

Furthermore, the contact clamping push plate is attached to the inner sides of the anti-overflow baffle at the first inverted roof panel structure and the anti-overflow baffle at the second inverted roof panel structure, and the contact clamping push plate is fixedly connected with the anti-overflow baffle at the first inverted roof panel structure and the anti-overflow baffle at the second inverted roof panel structure through screws.

Further, the two sides of the interior of the first displacement slide block and the two sides of the interior of the second displacement slide block are both provided with a guide chute, and the guide chutes and the guide slide rails are in clearance fit.

Furthermore, one end of the guide sliding rail is attached to the inner side of the assembling and carrying frame, and the guide sliding rail is fixedly connected with the assembling and carrying frame through screws.

Compared with the prior art, the anti-skid assembled inverted roof structure has the advantages that the structural design of the novel plate body main body and the matched design of the anti-leakage material injection structure are adopted, so that the anti-skid assembled inverted roof structure is convenient to install, anti-skid and anti-overflow for top heat insulation materials and waterproof layer materials, and meanwhile, the concrete is convenient to inject and prevented from falling off due to the mode of filling the concrete in the device, and the use convenience of the device is greatly improved; in addition, the device is convenient for automatically pulling and assembling the plate bodies in different directions through the design of the assembly driving structure, so that the convenient assembly performance of the plate bodies is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is an exploded view of the inverted roof panel structure of the present invention;

FIG. 3 is a front view of the leak-proof injection structure of the present invention;

FIG. 4 is a partial cross-sectional view of the leak-proof injection structure of the present invention;

FIG. 5 is a partial front view of the assembly driver structure of the present invention;

fig. 6 is a side view of a portion of an assembly vehicle structure according to the present invention.

In the figure: 1. a first inverted roof panel structure; 2. a second inverted roof panel structure; 3. assembling a driving structure; 4. a leakage-proof material injection structure; 5. sliding the base plate; 6. a concrete injecting plate is arranged in the box body; 7. accessing a catheter; 8. a housing mounting groove; 9. a reinforcing rib is arranged inside; 10. a material accumulation anti-slip groove; 11. an anti-overflow baffle; 12. a discharge pipe; 13. circulating the cooling flow block; 14. a carrying pipe is arranged in the device; 15. blocking the carrying plate; 16. reserving a groove; 17. a concrete flow pipe; 18. a moisturizing and heat-preserving circulation pipe; 19. a water storage tank; 20. a water pump; 21. a water conduit; 22. injecting into a connecting pipe; 23. assembling a carrying frame; 24. a control module; 25. a guide rail; 26. carrying a center block; 27. synchronously pulling the movable plate; 28. positioning the connecting pin; 29. a displacement rod is matched; 30. a first displacement slide; 31. a second displacement block; 32. a hydraulic piston cylinder; 33. an L-shaped carrying plate; 34. an internal load-unload column; 35. a spring; 36. contacting the clamping push plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the anti-skid fabricated inverted roof structure of the present invention comprises a first inverted roof plate structure 1, a second inverted roof plate structure 2, an assembly driving structure 3 and a material-leakage-preventing injection structure 4, wherein the first inverted roof plate structure 1 is located on one side of the second inverted roof plate structure 2, the first inverted roof plate structure 1 and the second inverted roof plate structure 2 have the same structure, the assembly driving structure 3 is located at the top ends of the first inverted roof plate structure 1 and the second inverted roof plate structure 2, and the material-leakage-preventing injection structure 4 is fixed on one side of the first inverted roof plate structure 1 by screws;

the first inverted roof panel structure 1 and the second inverted roof panel structure 2 both comprise a sliding base material bottom plate 5, an internally-installed concrete injection plate 6, an access conduit 7, an accommodating carrying groove 8, an internally-installed reinforcing rib 9, a material accumulation anti-skidding groove 10 and an anti-overflow baffle 11; the top end of the sliding base material bottom plate 5 is fixedly connected with an internal concrete injection plate 6, the inner side of the internal concrete injection plate 6 is provided with a containing carrying groove 8, one end of the internal concrete injection plate 6 is welded with an access pipe 7, the inner surface of the containing carrying groove 8 is welded with a built-in reinforcing rib 9, the periphery of the top end of the internal concrete injection plate 6 is fixedly provided with an anti-overflow baffle 11, the top end of the internal concrete injection plate 6 is provided with a plurality of material accumulation anti-slip grooves 10, the first inverted roof plate structure 1 and the second inverted roof plate structure 2 are used for forming internal carrying concrete, and anti-slip limitation and anti-overflow limitation on the installation of a top waterproof layer and a heat insulation layer are achieved;

the arrangement of the material accumulation anti-slip groove 10 enables the surface of the built-in concrete material injection plate 6 to form stepped flow separation, and increases the placing friction force, so that the positioning stability of the liquidized material is improved in the filling process or the material placing process, the possibility of sliding and falling is avoided, the limit of various carrying materials is completed by the anti-overflow baffle 11, the overtravel in the material injection process is avoided, the design that the built-in reinforcing ribs 9 are carried in the carrying grooves 8 is utilized, the device has good stress supporting hardness, the arrangement of the carrying grooves 8 is utilized to form the injection positioning of the concrete, and the concrete is prevented from leaking;

the anti-leakage material injection structure 4 comprises a discharge pipe 12, a circulating cooling flow block 13, an internally-installed carrying pipe 14, a blocking carrying plate 15, a reserved groove 16, a concrete flow pipe 17, a moisturizing and heat-preserving flow pipe 18, a water storage tank 19, a water pump 20, a water guide pipe 21 and an injection connecting pipe 22; the two ends of the built-in carrying pipe 14 are welded with circulating cooling flow blocks 13, a reserved groove 16 is formed in each circulating cooling flow block 13, one side of the inside of each circulating cooling flow block 13 is welded with a separation carrying plate 15, a plurality of moisture-preserving and heat-preserving circulation pipes 18 are fixed on the peripheral side face of each separation carrying plate 15, each concrete flow pipe 17 is fixedly connected to the inner side of the built-in carrying pipe 14, one end of each concrete flow pipe 17 is fixedly connected with an injection connecting pipe 22, the other end of each concrete flow pipe 17 is fixedly connected with a discharge pipe 12, a water guide pipe 21 is inserted into the top end of each circulating cooling flow block 13, the other end of each water guide pipe 21 is fixedly connected with a water pump 20, the bottom end of each water pump 20 is fixedly connected with a water storage tank 19, and the anti-leakage injection structure 4 is used for completing convenient and anti-leakage concrete injection into the first inverted roof panel structure 1 or the first inverted roof panel structure 2, so that good anti-solidification and derivation of concrete is formed;

the discharge pipe 12 is connected with the access conduit 7, the discharge pipe 12 and the access conduit 7 are fixed by screws, so that the stable connection and the convenient separation during injection are facilitated, the external concrete is guided to the inside of the moisture-preserving and heat-preserving circulation pipe 18 by the injection connecting pipe 22, so that the concrete is injected into the carrying groove 8 through the moisture-preserving and heat-preserving circulation pipe 18 and the discharge pipe 12, the liquid in the water storage tank 19 is pumped out by the water pump 20 at one end during the injection process, the liquid is injected into the circulating cooling flow block 13 in the same direction, the liquid in the carrying groove 16 on the inner side of the circulating cooling flow block 13 in the same direction is accumulated, the suction force is generated by the water pump 20 at the other end, the carrying liquid in the carrying groove 16 is driven to flow back into the water storage tank 19 through the concrete circulation pipe 17, the carrying separation of the separation carrying groove 15 is utilized, and the cooling liquid is prevented from entering the inside of the concrete circulation pipe 17, by utilizing the heat transfer principle, the cooling liquid flows through the outer side of the concrete flow pipe 17 to adsorb external heat, so that the solidification of the internally circulated concrete before entering is avoided;

the assembling driving structure 3 comprises an assembling carrying frame 23, a control module 24, a guide sliding rail 25, a carrying central block 26, a synchronous pulling plate 27, a positioning connecting pin 28, a matching displacement rod 29, a first displacement sliding block 30, a second displacement sliding block 31, a hydraulic piston cylinder 32, an L-shaped carrying plate 33, an internal unloading force column 34, a spring 35 and a contact clamping push plate 36, wherein the top end of the assembling carrying frame 23 is fixedly connected with the control module 24, the inner side of the assembling carrying frame 23 is welded with the carrying central block 26, two ends of two sides of the carrying central block 26 are welded with the guide sliding rail 25, the top end of the carrying central block 26 is rotatably connected with the synchronous pulling plate 27, two sides of the top end of the synchronous pulling plate 27 are welded with the positioning connecting pin 28, the outer side of the guide sliding rail 25 at one end is slidably connected with the first displacement sliding block 30, the outer side of the guide sliding rail 25 at the other end is slidably connected with the second displacement sliding block 31, the top end of the first displacement slide block 30 and the top end of the second displacement slide block 31 are welded with matching positioning rods, the first displacement slide block 30 and the synchronous pull plate 27 are respectively connected with a positioning connecting pin 28 and a matching positioning rod at the synchronous pull plate 27 through a matching displacement rod 29 in a sleeved mode, the second displacement slide block 31 and the synchronous pull plate 27 are also connected with the positioning connecting pin 28 and the matching positioning rod at the synchronous pull plate 27 through the matching displacement rod 29 in a sleeved mode, the inner side of the second displacement slide block 31 is fixedly connected with a hydraulic piston cylinder 32 through a screw, the output end of the hydraulic piston cylinder 32 is connected with a carrying central block 26, the control module 24 is electrically connected with the hydraulic piston cylinder 32, the bottom end of the first displacement slide block 30 and the bottom end of the second displacement slide block 31 are both fixedly connected with an L-shaped carrying plate 33 through screws, and both sides of one end of the L-shaped carrying plate 33 are welded with inner assembling and disassembling force columns 34, the inner side of the inner loading and unloading force column 34 is fixedly connected with a spring 35, one end of the inner loading and unloading force column 34 is also in sliding connection with a contact clamping push plate 36, one end of the spring 35 is attached to one end of the contact clamping push plate 36, and the assembly driving structure 3 is used for forming automatic bidirectional driving, so that the first inverted roof panel structure 1 and the second inverted roof panel structure 2 are stressed and synchronously displaced to the middle position of the assembly driving structure 3, and the assembly and attachment of the first inverted roof panel structure 1 and the second inverted roof panel structure 2 are completed;

an extension carrying column is welded at the top end of the carrying central block 26, a roller bearing is sleeved on the outer side of the extension carrying column, and the synchronous pulling plate 27 is connected with the carrying central block 26 through the roller bearing, so that the synchronous displacement derivation power transmission is formed conveniently;

one end of the guide slide rail 25 is attached to the inner side of the assembly carrying frame 23, the guide slide rail 25 is fixedly connected with the assembly carrying frame 23 through screws, two sides of the interior of the first displacement slide block 30 and two sides of the interior of the second displacement slide block 31 are respectively provided with a matched guide chute, the matched guide chutes and the guide slide rail 25 are in clearance fit, so that displacement guide and stroke sliding of the first displacement slide block 30 and the second displacement slide block 31 are conveniently formed, a contact clamping push plate 36 is driven to complete synchronous displacement, the contact clamping push plate 36 is attached to the inner sides of the anti-overflow baffles 11 at the first inverted roof panel structure 1 and the anti-overflow baffles 11 at the second inverted roof panel structure 2, the contact clamping push plate 36 is fixedly connected with the anti-overflow baffles 11 at the first inverted roof panel structure 1 and the anti-overflow baffles 11 at the second inverted roof panel structure 2 through screws, so that the first inverted roof panel structure 1 and the second inverted roof panel structure 2 are conveniently pulled to slide and displace, thereby forming the assembly and fixation;

when the first inverted roof panel structure 1 and the second inverted roof panel structure 2 are not provided with waterproof boards, insulation boards and filled concrete, the control module 24 is used for controlling the hydraulic piston cylinder 32 to complete output, when the first inverted roof panel structure 1 and the second inverted roof panel structure 2 are required to be close to assembly, the hydraulic piston cylinder 32 is used for driving the contraction of the output end, the second displacement slide block 31 is made to slide towards the carrying central block 26, the synchronous pulling plate 27 is pushed to rotate by the connection transmission of the matching displacement rod 29, the positioning connecting pin 28 at the other end drives the first displacement slide block 30 to complete synchronous contraction sliding through the matching displacement rod 29 while the synchronous pulling plate 27 rotates, the synchronous pulling plate is close to the carrying central block 26 and is pushed by synchronous stress at both ends, and the clamping push plate 36 is used for being in contact with screws on the inner sides of the first inverted roof panel structure 1 and the second inverted roof panel structure 2 for fixing, make be convenient for drive the structure 3 with the assembly and tear first inversion roof panel structure 1 and the second inversion roof panel structure 2 apart or install in first inversion roof panel structure 1 or the arbitrary one direction of second inversion roof panel structure 2 on, thereby make and all can accomplish the drive on a plurality of directions, utilize the slip in the tight push pedal 36 of contact clamp including loading and unloading power post 34, the leading-in spring 35 department of the counter-force that will stimulate the in-process production, in order to improve the life-span of this structure.

Claims

1. The utility model provides a roofing structure is invertd to antiskid assembled, its characterized in that: the anti-skid roof structure comprises a first inverted roof plate structure (1) and a second inverted roof plate structure (2) which have the same structure and are arranged side by side, wherein the first inverted roof plate structure (1) and the second inverted roof plate structure (2) are used for forming internal carrying concrete and limiting skid resistance and overflow resistance of a top waterproof layer and a heat insulation layer;

the assembly driving structure (3) is positioned at the top ends of the first inverted roof plate structure (1) and the second inverted roof plate structure (2), and the assembly driving structure (3) is used for forming automatic bidirectional driving, so that the first inverted roof plate structure (1) and the second inverted roof plate structure (2) are stressed and synchronously displaced to the middle position of the assembly driving structure (3), and the assembly and fitting of the first inverted roof plate structure (1) and the second inverted roof plate structure (2) are completed;

the anti-leakage concrete pouring structure is characterized by further comprising an anti-leakage material pouring structure (4), wherein the anti-leakage material pouring structure (4) is fixed to one side of the first inverted roof plate structure (1) or one side of the second inverted roof plate structure (2) through screws, and the anti-leakage material pouring structure (4) is used for conveniently pouring concrete into the first inverted roof plate structure (1) or the second inverted roof plate structure (2) so as to form good concrete anti-leakage and anti-solidification guide-out;

the first inverted roof plate structure (1) and the second inverted roof plate structure (2) respectively comprise a sliding base material bottom plate (5), an internally-installed concrete injection plate (6), an access conduit (7), a containing and carrying groove (8), a built-in reinforcing rib (9), a material accumulation anti-skidding groove (10) and an anti-overflow baffle (11); the top end of the sliding base material plate (5) is fixedly connected with an internally-installed concrete material injection plate (6), the inner side of the internally-installed concrete material injection plate (6) is provided with a containing carrying groove (8), one end of the internally-installed concrete material injection plate (6) is welded with an access pipe (7), the inner surface of the containing carrying groove (8) is welded with a built-in reinforcing rib (9), the periphery of the top end of the internally-installed concrete material injection plate (6) is fixedly provided with an anti-overflow baffle (11), and the top end of the internally-installed concrete material injection plate (6) is provided with a plurality of accumulated material anti-skidding grooves (10);

the anti-leakage material injection structure (4) comprises a discharge pipe (12), a circulating cooling flow block (13), an internally-installed carrying pipe (14), a blocking carrying plate (15), a reserved groove (16), a concrete flow pipe (17), a moisture-preserving and heat-preserving flow pipe (18), a water storage tank (19), a water pump (20), a water guide pipe (21) and an injection connecting pipe (22); the two ends of the built-in carrying pipe (14) are welded with circulating cooling flow blocks (13), a reserved groove (16) is formed in each circulating cooling flow block (13), a blocking carrying plate (15) is welded on one side of the inside of each circulating cooling flow block (13), and a plurality of moisturizing and heat-insulating circulation pipes (18) are fixed on the peripheral side of each blocking carrying plate (15); the concrete flow pipe (17) is fixedly connected to the inner side of the built-in carrying pipe (14), one end of the concrete flow pipe is fixedly connected with the injection connecting pipe (22), and the other end of the concrete flow pipe is fixedly connected with the discharge pipe (12); the top end of each circulating cooling flow block (13) is inserted with a water guide pipe (21), and the other end of each water guide pipe (21) is fixedly connected with a water pump (20); the bottom end of the water pump (20) is fixedly connected with the water storage tank (19);

the assembling driving structure (3) comprises an assembling carrying frame (23), a control module (24), a guide sliding rail (25), a carrying central block (26), a synchronous pulling plate (27), a positioning connecting pin (28), a matching displacement rod (29), a first displacement sliding block (30), a second displacement sliding block (31), a hydraulic piston cylinder (32), an L-shaped carrying plate (33), an internal loading and unloading force column (34), a spring (35) and a contact clamping push plate (36); the top end of the assembling carrying frame (23) is fixedly connected with a control module (24), and the inner side of the assembling carrying frame (23) is welded with a carrying central block (26); the two ends of two sides of the carrying center block (26) are welded with the guide sliding rails (25), the top end of the carrying center block (26) is rotatably connected with the synchronous pull plate (27), the two sides of the top end of the synchronous pull plate (27) are welded with the positioning connecting pins (28), one end of the guide sliding rails (25) is connected with the first displacement sliding block (30) in a sliding mode, the other end of the guide sliding rails (25) is connected with the second displacement sliding block (31) in a sliding mode, the top end of the first displacement sliding block (30) and the top end of the second displacement sliding block (31) are welded with the matching positioning rods, the first displacement sliding block (30) and the synchronous pull plate (27) are respectively connected with the positioning connecting pins (28) and the matching positioning rods at the synchronous pull plate (27) through the matching displacement rods (29), and the second displacement sliding block (31) and the synchronous pull plate (27) are respectively connected with the synchronous pull plate (27) through the matching displacement rods (29), and the synchronous pull plate (27) are respectively connected with the synchronous pull plate (27) in a sleeving mode ) A positioning connecting pin (28) is connected with a matching positioning rod, the inner side of the second displacement slide block (31) is fixedly connected with a hydraulic piston cylinder (32) through a screw, the output end of the hydraulic piston cylinder (32) is connected with the carrying central block (26), the control module (24) is electrically connected with the hydraulic piston cylinder (32), the bottom end of the first displacement slide block (30) and the bottom end of the second displacement slide block (31) are fixedly connected with an L-shaped carrying plate (33) through screws, both sides of one end of the L-shaped carrying plate (33) are welded with inner loading and unloading force columns (34), the inner side of the inner loading and unloading force column (34) is fixedly connected with a spring (35), one end of the inner loading and unloading force column (34) is also connected with a contact clamping push plate (36) in a sliding way, one end of the spring (35) is attached to one end of the contact clamping push plate (36).

2. The anti-skid fabricated inverted roofing structure according to claim 1, wherein: the top welding of carrying on central piece (26) has the extension to carry on the post, the roller bearing has been cup jointed in the outside that extends to carry on the post, synchronous pulling plate (27) pass through roller bearing with carrying on central piece (26) and be connected.

3. The anti-skid fabricated inverted roofing structure according to claim 1, wherein: the utility model discloses a roof structure, including first inversion roof panel structure (1), contact clamping push plate (36) and first inversion roof panel structure (1) department prevent overflow baffle (11) inboard and the inboard laminating of the anti-overflow baffle (11) of second inversion roof panel structure (2) department, contact clamping push plate (36) and first inversion roof panel structure (1) department prevent overflow baffle (11) and second inversion roof panel structure (2) department prevent overflow baffle (11) all through screw fixed connection.

4. The anti-skid fabricated inverted roofing structure according to claim 1, wherein: the inside both sides of first displacement slider (30) and the inside both sides of second displacement slider (31) have all been seted up and have been joined in marriage the guide runner, join in marriage guide runner and guide slide rail (25) and be clearance fit.

5. The anti-skid fabricated inverted roofing structure according to claim 1, wherein: one end of the guide sliding rail (25) is attached to the inner side of the assembling and carrying frame (23), and the guide sliding rail (25) is fixedly connected with the assembling and carrying frame (23) through screws.