CN115233866B

CN115233866B - Building steel structure shear wall

Info

Publication number: CN115233866B
Application number: CN202210864615.3A
Authority: CN
Inventors: 贺俊峰; 彭寅琛; 蓝志刚; 池梓敏
Original assignee: Huizhou Dexin Construction Engineering Co ltd
Current assignee: Huizhou Dexin Construction Engineering Co ltd
Priority date: 2022-07-21
Filing date: 2022-07-21
Publication date: 2023-08-15
Anticipated expiration: 2042-07-21
Also published as: CN115233866A

Abstract

The invention discloses a building steel structure shear wall in the technical field of shear walls, which comprises two steel columns and two steel beams, wherein the steel beams are fixedly arranged between the two steel columns, a plurality of first steel plates are arranged at the joint of a left steel column and a lower steel beam, three second steel plates are arranged at the left end of a right steel column and the bottom end of an upper steel beam, the second steel plates are tightly attached to the first steel plates, a third steel plate is arranged at the joint of the right steel column and the upper steel beam, the left end and the bottom end of the third steel plate are tightly attached to the second steel plates, the first steel plates, the second steel plates and the third steel plates are jointly spliced into a whole, a fixing mechanism is arranged at the middle part of the second steel plate, and the fixing mechanism is used for fixing the third steel plates to the inner side of a space surrounded by the two steel columns and the two steel beams after the first steel plates, so that the whole steel plates are inconvenient to operate and the installation of stiffening ribs in the traditional steel structure shear wall is very complicated.

Description

Building steel structure shear wall

Technical Field

The invention relates to the technical field of shear walls, in particular to a building steel structure shear wall.

Background

Shear walls are also called wind-resistant walls, shock-resistant walls and structural walls. The shear wall can be seen to have the approximate function by other names, and is a structural wall surface capable of bearing loads from the horizontal direction and the vertical direction and having wind pressure resistance and earthquake resistance effects; steel plate shear walls are often used in which a monolithic embedded steel plate is welded into a frame beam.

The monoblock steel sheet size that uses among the prior art steel sheet shear force wall is great, is inconvenient for the transportation, need use large-scale construction equipment to remove, and the operation is got up very inconveniently, because the steel sheet is transported to the construction place after processing in advance and is accomplished, the size of steel sheet often has the error, needs the staff to manually cut on the spot, secondly the staff need weld the stiffening rib at the surface welding of steel sheet after the steel sheet installation is accomplished, and the operation is got up time and energy consuming, and the monoblock steel sheet operation is inconvenient and stiffening rib installation very loaded down with trivial details in the current steel construction shear force wall.

Based on the construction steel structure shear wall, the invention designs a construction steel structure shear wall, which aims to solve the problems that the whole steel plate used in the steel plate shear wall in the prior art is large in size and inconvenient to transport, large construction equipment is required to be used for moving, the operation is very inconvenient, and because the steel plate is transported to a construction site after being processed in advance, the size of the steel plate is often in error, workers are required to manually cut on site, and then the workers are required to weld stiffening ribs on the surface of the steel plate after the steel plate is installed, the operation is time-consuming and labor-consuming, and the whole steel plate in the traditional steel structure shear wall is inconvenient to operate and the stiffening ribs are very complicated to install.

Disclosure of Invention

The invention aims to provide a building steel structure shear wall for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a building steel construction shear force wall, includes two steel columns, two girder steel, the girder steel is all fixed mounting between two steel columns, the left side the junction of steel column and downside the girder steel is provided with a plurality of first steel sheets, the right side the left end of steel column and upside the bottom of girder steel all are provided with three second steel sheet, the second steel sheet all closely laminates with first steel sheet, the right side the junction of steel column and upside the girder steel is provided with the third steel sheet, the left end and the bottom of third steel sheet all closely laminate with the second steel sheet, first steel sheet, second steel sheet and third steel sheet splice into a whole jointly, the middle part of second steel sheet is provided with fixed establishment, the fixing mechanism is used for fixing the first steel plate, the second steel plate and the third steel plate to the inner side of a space surrounded by two steel columns and two steel beams after the first steel plate, the second steel plate and the third steel plate are spliced, a plurality of first stiffening ribs and a plurality of second stiffening ribs are arranged between the two steel columns through the driving mechanism, the first stiffening ribs and the second stiffening ribs are respectively arranged at the front end and the rear end of the first steel plate, the second steel plate and the third steel plate and are tightly attached to the front end and the rear end of the first steel plate, the second steel plate and the third steel plate, the first stiffening ribs are matched with holes on the surfaces of the second stiffening ribs, and the driving mechanism is used for driving the first stiffening ribs and the second stiffening ribs to move to the surfaces of the first steel plate, the second steel plate and the third steel plate after the fixing mechanism is used for fixing the first steel plate, the second steel plate and the third steel plate;

as a further scheme of the invention, the fixing mechanism comprises a first fixing groove formed on one side of two steel columns, which are close to each other, a second fixing groove formed on one side of two steel beams, which are close to each other, a first clamping block is fixedly arranged on the left end and the bottom end of each first steel plate, the left ends of the three first clamping blocks on the left end penetrate through the left first fixing groove and are connected with the left first fixing groove in a sliding manner, the bottom ends of the three first clamping blocks on the bottom end penetrate through the second fixing groove on the lower side and are connected with the second fixing groove on the lower side in a sliding manner, the rest first clamping blocks penetrate through the adjacent first steel plates and are connected with the second fixing groove on the lower side in a sliding manner, a second clamping block is fixedly arranged on the left end and the bottom end of each second steel plate, the left end of each second clamping block penetrates through the left first fixing groove on the left side and is connected with the left fixing groove on the left end, the bottom end of each second clamping block penetrates through the second fixing groove on the lower side and is connected with the second fixing groove on the lower side in a sliding manner, the other second clamping blocks respectively penetrate through the adjacent first steel plate and second steel plate and are connected with the adjacent first steel plate in a sliding way, the left end and the bottom end of the third steel plate are fixedly provided with third clamping blocks, the third clamping blocks penetrate through the adjacent second steel plate and are connected with the adjacent second steel plate in a sliding way, the top ends of the upper three second steel plates and the right ends of the right three second steel plates are connected with first clamping plates in a sliding way, the top ends of the upper three first clamping plates penetrate through the upper second fixing groove and are connected with the upper second fixing groove in a sliding way, the right ends of the right three first clamping plates penetrate through the right first fixing groove and are connected with the right first fixing groove in a sliding way, the top ends of the third steel plates are connected with second clamping plates in a sliding way, the top ends of the second clamping plates penetrate through the upper second fixing groove and are connected with the upper second fixing groove in a sliding way, the right ends of the third steel plates are connected with the third clamping plates in a sliding way, the right end of the third clamping plate penetrates through the right first fixing groove and is connected with the right first fixing groove in a sliding mode, the first clamping plate, the second clamping plate and the third clamping plate are connected through a telescopic mechanism, and the telescopic mechanism is used for driving the first clamping plate, the second clamping plate and the third clamping plate to be respectively inserted into the adjacent first fixing groove and second fixing groove after the first steel plate, the second steel plate and the third steel plate are spliced;

as a further scheme of the invention, the telescopic mechanism comprises a first screw rod and a second connecting rod which are rotationally connected with the middle part of a second steel plate, wherein a first bevel gear is fixedly arranged at one end of the first screw rod, which is close to the second connecting rod, and the middle part of the second connecting rod;

as a further scheme of the invention, the transmission mechanism comprises first rectangular grooves formed in the left ends of the upper three second connecting rods and the bottom ends of the right three second connecting rods, rectangular blocks are fixedly arranged at the top ends of the right ends of the upper three second connecting rods and the right three second connecting rods, the rectangular blocks penetrate through adjacent first rectangular grooves and are connected with the adjacent first rectangular grooves in a sliding mode, second rectangular grooves are formed in the left ends of the left side fourth connecting rods and the bottom ends of the lower side fourth connecting rods, and the rectangular blocks at the top right side and the top rectangular blocks at the top right side penetrate through the two second rectangular grooves respectively and are connected with the two second rectangular grooves in a sliding mode;

as a further scheme of the invention, the driving mechanism comprises two first driving grooves which are formed in one side, close to each other, of two steel columns, first sliding rods are fixedly arranged at the left end and the right end of each first stiffening rib, the lengths of the first sliding rods are sequentially shortened from top to bottom, four stop blocks are fixedly arranged at the inner sides of the first driving grooves, the stop blocks are sequentially matched with the lengths of the first sliding rods from top to bottom, the top ends of the stop blocks are connected with sliding blocks in a sliding manner through extension springs, one ends, close to the first sliding rods, of the sliding blocks are wedge-shaped, the first sliding rods are positioned between the stop blocks and the sliding blocks, a rotating shaft is rotatably connected to the middle part of the steel column at the left side, elastic ropes are fixedly arranged at the bottom ends of the first sliding rods, the other ends of the elastic ropes pass through the bottom ends of the stop blocks and are wound on the outer sides of the rotating shaft, two second driving grooves are formed in one sides, close to each other, of the two steel beams, second sliding rods are fixedly arranged at the upper end and the lower end of each second stiffening rib, the second sliding rods are sequentially shortened from right to left, the connecting structure of each second sliding rod and each second driving groove is identical to that of each first sliding rod and each first driving groove, unlocking mechanisms are arranged at the right ends of the steel columns on the left side, the unlocking mechanisms are used for unlocking the first stiffening ribs from the bottom ends of the steel beams on the upper side when the fixing mechanisms fix the first steel plates, the second steel plates and the third steel plates, rotating mechanisms are arranged in the middle of the rotating shafts and used for driving the rotating shafts to rotate in the unlocking process of the unlocking mechanisms, storage boxes are fixedly arranged at the front side and the rear side of the right ends of the two steel beams, and pushing plates are connected to the inner sides of the storage boxes in a sliding mode through compression springs;

as a further scheme of the invention, the rotating mechanism comprises mounting grooves which are formed in the right sides of the upper side and the lower side of the first fixing groove and are respectively provided with a mounting rod which is rotationally connected with the middle part of the mounting groove, a telescopic rod is fixedly arranged on one side of the mounting rod, which is close to the rotating shaft, of the mounting rod, a rotating rack is rotationally connected with one end of the telescopic rod, which is close to the rotating shaft, and is slidably connected with the inner wall of the mounting groove, a rotating gear is fixedly arranged on the middle part of the rotating shaft, the rotating gear is meshed with the rotating rack, a push rod is fixedly arranged on one side, which is far away from the telescopic rod, of the mounting rod, and a pushing mechanism is arranged on one end, which is far away from the mounting rod, of the push rod, and is used for pushing the push rod to rotate around the mounting rod in the moving process of the first clamping plate;

as a further scheme of the invention, the pushing mechanism comprises a T-shaped plate, wherein the left end of an upper steel beam is in sliding connection with the bottom of the right end of an upper push rod through a compression spring, the left end of the T-shaped plate is tightly attached to the bottom of the right end of the upper push rod, the bottom of the right side steel column is in sliding connection with a Z-shaped plate through the compression spring, and the bottom of the Z-shaped plate is tightly attached to the left side of the top end of the lower push rod;

as a further scheme of the invention, the unlocking mechanism comprises two L-shaped rods which are connected with the right end of the left steel column in a sliding way, the two L-shaped rods are connected through a tension spring, the bottom end of the T-shaped plate is conical, and the top ends of the L-shaped rods are matched with the bottom end of the T-shaped plate.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the fixing mechanism is arranged, the first steel plate, the second steel plate and the third steel plate are paved in a space surrounded by the steel columns and the steel beams, and then the first clamping plate, the second clamping plate and the third clamping plate are driven to move towards the adjacent steel columns and the steel beams respectively through the telescopic mechanism until the first steel plate, the second steel plate and the third steel plate are tightly propped and fixed, so that a worker does not need to use a large-scale instrument to carry the whole steel plate any more, and convenience is provided for the transportation of the steel plates; the staff can adjust the whole size of the device at will, the problem that the whole steel plate is inconvenient to operate in the traditional steel structure shear wall is solved, and the problem that the whole steel plate is required to be cut on site due to the fact that the whole steel plate is processed in advance is avoided.

According to the invention, the driving mechanism is arranged, when the steel plate is fixed, the driving mechanism starts to pull the first stiffening rib downwards until the first stiffening rib cannot move downwards any more, at the moment, the first stiffening rib is aligned with the hole on the surface of the second stiffening rib, the driving mechanism pulls the second stiffening rib to move leftwards until the second stiffening rib cannot move leftwards any more, at the moment, the first stiffening rib and the second stiffening rib are fixed to the front end and the rear end of the first steel plate, the second steel plate and the second steel plate, so that the first stiffening rib and the second stiffening rib are automatically fixed when the steel plate is installed, the operation steps of workers are greatly reduced, the construction efficiency is improved, the labor is saved, convenience is provided for the installation of the stiffening rib, and the problem that the installation of the stiffening rib in the traditional steel structure shear wall is very complicated is solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view showing the connection structure of a first steel plate, a second steel plate and a third steel plate according to the present invention;

FIG. 3 is a schematic cross-sectional view of the internal structure of the front view of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3B according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 3C according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 3D according to the present invention;

FIG. 8 is a schematic diagram of a step section of the side view internal structure of the present invention;

FIG. 9 is an enlarged schematic view of the structure of FIG. 8E according to the present invention;

FIG. 10 is a schematic view of a connection structure of a first driving slot and a first sliding rod according to the present invention;

FIG. 11 is an enlarged schematic view of the structure of FIG. 10 at F in accordance with the present invention;

FIG. 12 is a schematic view of the T-shaped plate and L-shaped rod connection structure of the present invention;

FIG. 13 is a schematic cross-sectional view of the internal structure of the side view of the present invention;

fig. 14 is an enlarged view of the structure of fig. 13 at G according to the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. a steel column; 2. a steel beam; 3. a first steel plate; 4. a second steel plate; 5. a third steel plate; 6. a first stiffener; 7. a second stiffener; 8. a first fixing groove; 9. a second fixing groove; 10. a first clamping block; 11. a second clamping block; 12. a third clamping block; 13. a first clamping plate; 14. a second clamping plate; 15. a third clamping plate; 16. a first screw; 17. a second connecting rod; 18. a first bevel gear; 19. a third screw; 20. a fourth connecting rod; 21. a second bevel gear; 22. a third bevel gear; 23. a rotating lever; 24. a fourth bevel gear; 25. a first rectangular groove; 26. rectangular blocks; 27. a second rectangular groove; 28. a first driving groove; 29. a first slide bar; 30. a stop block; 31. a slide block; 32. a rotating shaft; 33. an elastic rope; 34. a second driving groove; 35. a second slide bar; 36. a storage box; 37. a push plate; 38. a mounting groove; 39. a mounting rod; 40. a telescopic rod; 41. rotating the rack; 42. rotating the gear; 43. a push rod; 44. a T-shaped plate; 45. a Z-shaped plate; 46. an L-shaped rod.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a building steel construction shear force wall, including two steel columns 1, two girder steel 2, girder steel 2 is all fixed mounting between two steel columns 1, the junction of left side steel column 1 and downside girder steel 2 is provided with a plurality of first steel sheets 3, the left end of right side steel column 1 and the bottom of upside girder steel 2 all are provided with three second steel sheet 4, second steel sheet 4 all closely laminates with first steel sheet 3, the junction of right side steel column 1 and upside girder steel 2 is provided with third steel sheet 5, the left end and the bottom of third steel sheet 5 all closely laminate with second steel sheet 4, first steel sheet 3, second steel sheet 4 and third steel sheet 5 splice into a whole jointly, the middle part of second steel sheet 4 is provided with fixed establishment, the fixing mechanism is used for fixing the first steel plate 3, the second steel plate 4 and the third steel plate 5 to the inner side of a space surrounded by the two steel columns 1 and the two steel beams 2 after the first steel plate 3, the second steel plate 4 and the third steel plate 5 are spliced, a plurality of first stiffening ribs 6 and a plurality of second stiffening ribs 7 are arranged between the two steel columns 1 through the driving mechanism, the plurality of first stiffening ribs 6 and the plurality of second stiffening ribs 7 are respectively positioned at the front end and the rear end of the first steel plate 3, the front end and the rear end of the second steel plate 4 and the rear end of the third steel plate 5 and are tightly attached to the front end and the rear end of the first stiffening ribs 6 and the rear end of the second stiffening ribs 7, the first stiffening ribs 6 are matched with holes on the surfaces of the second stiffening ribs 7, and the driving mechanism is used for driving the first stiffening ribs 6 and the second stiffening ribs 7 to move to the surfaces of the first steel plate 3, the second steel plate 4 and the third steel plate 5 after the fixing mechanism is completed;

the fixing mechanism comprises a first fixing groove 8 which is arranged on one side of two steel columns 1 which are close to each other, a second fixing groove 9 which is arranged on one side of two steel beams 2 which are close to each other, a first clamping block 10 which is fixedly arranged on the left end and the bottom end of a first steel plate 3, the left ends of the three first clamping blocks 10 on the left end penetrate through the left side first fixing groove 8 and are connected with the left side first fixing groove in a sliding way, the bottom ends of the three first clamping blocks 10 on the bottom end penetrate through the lower side second fixing groove 9 and are connected with the lower side second fixing groove in a sliding way, the rest first clamping blocks 10 penetrate through the adjacent first steel plates 3 and are connected with the lower side second fixing groove in a sliding way, a second clamping block 11 is fixedly arranged on the left end and the bottom end of a second steel plate 4, the left end of the left end second clamping block 11 penetrates through the left side first fixing groove 8 and is connected with the left end second clamping block 11 in a sliding way, the bottom end of the bottom end second clamping block 11 penetrates through the lower side second fixing groove 9 and is connected with the lower side second fixing groove in a sliding way, the rest of the second clamping blocks 11 respectively penetrate through the adjacent first steel plate 3 and the second steel plate 4 and are connected with the same in a sliding way, the left end and the bottom end of the third steel plate 5 are fixedly provided with third clamping blocks 12, the third clamping blocks 12 penetrate through the adjacent second steel plate 4 and are connected with the same in a sliding way, the top ends of the upper three second steel plates 4 and the right ends of the right three second steel plates 4 are connected with first clamping plates 13 in a sliding way, the top ends of the upper three first clamping plates 13 penetrate through the upper second fixing grooves 9 and are connected with the same in a sliding way, the right ends of the right three first clamping plates 13 penetrate through the right first fixing grooves 8 and are connected with the same in a sliding way, the top ends of the third steel plates 5 are connected with second clamping plates 14 in a sliding way, the top ends of the second clamping plates 14 penetrate through the upper second fixing grooves 9 and are connected with the same in a sliding way, the right ends of the third clamping plates 5 are connected with the third clamping plates 15 in a sliding way, the right ends of the third clamping plates 15 penetrate through the right first fixing grooves 8 and are connected with the same in a sliding way, the first clamping plate 13, the second clamping plate 14 and the third clamping plate 15 are connected through a telescopic mechanism, and the telescopic mechanism is used for driving the first clamping plate 13, the second clamping plate 14 and the third clamping plate 15 to be respectively inserted into the adjacent first fixing groove 8 and second fixing groove 9 after the first steel plate 3, the second steel plate 4 and the third steel plate 5 are spliced;

in the initial state, the first stiffening ribs 6 are all positioned at the bottom end of the upper steel beam 2 and cannot move downwards due to the limit of the driving mechanism, the second stiffening ribs 7 are all positioned at the left end of the right steel column 1 and cannot move leftwards due to the limit of the driving mechanism, and the second stiffening ribs 7 are respectively positioned at the front end of the front first stiffening rib 6 and the rear end of the rear first stiffening rib 6;

during operation, the first steel plates 3 are stacked and paved at the included angle between the left steel column 1 and the lower steel beam 2, at this time, three first clamping blocks 10 on the left are inserted into the first left fixing groove 8, three first clamping blocks 10 on the lower are inserted into the second lower fixing groove 9, the rest first clamping blocks 10 are respectively inserted into the side walls of the adjacent first steel plates 3, then three second steel plates 4 are vertically arranged on the right side of the first steel plates 3, at this time, three second clamping blocks 11 on the right are respectively inserted into the right ends of the three first steel plates 3 on the right, the bottom ends of the second steel plates 4 on the bottom are tightly attached to the lower steel beam 2, the bottom end second clamping blocks 11 are inserted into the inner side of the second lower fixing groove 9, the other three second steel plates 4 are transversely arranged at the top ends of the first steel plates 3, at this time, the left end second clamping blocks 11 are respectively inserted into the inner side of the first left fixing groove 8, then the third steel plates 5 are respectively placed at the top ends of the three first steel plates 3 on the upper side, the third steel plates 5 and the second steel plates 4 on the right side are integrally spliced with the first steel plates 4 on the first steel columns 4 on the left and the side of the first steel plates 3;

the upper three first clamping plates 13 and the second clamping plates 14 are driven to move upwards through the telescopic mechanism until the top ends of the upper three first clamping plates 13 and the second clamping plates 14 pass through the upper second fixing groove 9 and cannot move upwards any more, then the right three first clamping plates 13 and the third clamping plates 15 are driven to move rightwards through the telescopic mechanism until the right ends of the right three first clamping plates 13 and the right ends of the right three clamping plates 15 pass through the right first fixing groove 8 and cannot move rightwards any more, at the moment, the first clamping plates 13, the second clamping plates 14 and the third clamping plates 15 tightly push and fix the first steel plate 3, the second steel plate 4 and the third steel plate 5, as shown in fig. 2, a large-scale instrument is not needed to be used for carrying the whole steel plate by a worker, so that the transportation cost of the steel plate is greatly reduced, and convenience is provided for the transportation of the steel plate; by arranging the first clamping plate 13, the second clamping plate 14 and the third clamping plate 15, a worker can adjust the whole size of the device at will, so that the problem that the whole steel plate is inconvenient to operate in the traditional steel structure shear wall due to the fact that the whole steel plate is required to be cut on site due to the fact that the whole steel plate is processed in advance has deviation is avoided, the workload of the worker is greatly reduced, and the applicability and the practicability of the device are improved;

when the fixing of the first steel plate 3, the second steel plate 4 and the third steel plate 5 is completed, the driving mechanism starts to unlock the first stiffening rib 6 at the bottom end of the upper steel beam 2 and pulls the first stiffening rib 6 downwards until the first stiffening rib 6 can not move downwards any more, at this time, the first stiffening rib 6 is aligned with the hole on the surface of the second stiffening rib 7, so that the second stiffening rib 7 is in an unlocked state and moves leftwards under the driving of the driving mechanism until the second stiffening rib 7 can not move leftwards any more, as shown in fig. 1, at the moment, the first stiffening rib 6 and the second stiffening rib 7 are fixed to the front end and the rear end of the first steel plate 3, the second steel plate 4 and the second steel plate 4, thereby realizing that the first stiffening rib 6 and the second stiffening rib 7 are automatically fixed when the steel plate installation is completed, greatly reducing the operation steps of workers, improving the construction efficiency, saving the labor and providing convenience for the installation of the stiffening ribs in the traditional steel structure shear wall.

As a further scheme of the invention, the telescopic mechanism comprises a first screw rod 16 and a second connecting rod 17 which are rotationally connected in the middle of a second steel plate 4, wherein a first bevel gear 18 is fixedly arranged at one end of the first screw rod 16 close to the second connecting rod 17 and the middle of the second connecting rod 17 and is meshed with each other, one end of the first screw rod 16 far away from the second connecting rod 17 passes through a first clamping plate 13 and is in threaded connection with the first clamping plate 13, two third screw rods 19 and two fourth connecting rods 20 are rotationally connected at the middle of the third steel plate 5, the top end of an upper third screw rod 19 passes through a second clamping plate 14 and is in threaded connection with the second clamping plate, the right end of the right third screw rod 19 passes through a third clamping plate 15 and is in threaded connection with the third clamping plate, the right end of the upper third screw rod 19 and the right end of the left fourth connecting rod 20 are fixedly arranged with a second bevel gear 21 and are meshed with each other, a left end of the right third screw rod 19 and the top end of the lower fourth connecting rod 20 are fixedly arranged with a third bevel gear 22 and are mutually meshed with each other, the front ends of the left end of the second steel plate 4 and the bottom end of the second steel plate 4 are rotationally connected with a rotating rod 23, and the right end of the fourth connecting rod 24 is rotationally connected with the fourth connecting rod 24 and the fourth connecting rod 17 is fixedly arranged at the right end of the fourth connecting rod 20 and is in threaded connection with the fourth connecting rod 17, and the fourth connecting rod 17 is synchronously meshed with the bevel gear mechanism;

when the device works, two rotating rods 23 are rotated, the two rotating rods 23 rotate to drive a first bevel gear 18 to rotate through a fourth bevel gear 24, the first bevel gear 18 rotates to drive a left first screw 16, a bottom first screw 16, a left second connecting rod 17 and a bottom second connecting rod 17 to rotate, the left second connecting rod 17 rotates to drive three upper second connecting rods 17 to synchronously rotate through a transmission mechanism, the three upper second connecting rods 17 rotate to drive three upper first screws 16 to synchronously rotate through the first bevel gear 18, the three upper first screws 16 synchronously rotate to drive three upper first clamping plates 13 to synchronously move upwards through threads, the three upper second connecting rods 17 rotate to drive a left fourth connecting rod 20 to rotate through the transmission mechanism, the left fourth connecting rod 20 rotates to drive the upper third screw rod 19 to rotate through the third bevel gear 22, the upper third screw rod 19 rotates to drive the second clamping plate 14 to move upwards through the screw action, the lower second connecting rod 17 rotates to drive the right three second connecting rods 17 to synchronously rotate through the transmission mechanism, and the right three first screw rods 16 and the right third screw rods 19 synchronously rotate to drive the right three first clamping plates 13 and the right three third clamping plates 15 to move rightwards through the screw action in the same way until the first clamping plates 13, the second clamping plates 14 and the third clamping plates 15 can not move any more, so that power is provided for the movement of the first clamping plates 13, the second clamping plates 14 and the third clamping plates 15, and convenience is provided for the fixation of the first steel plates 3, the second steel plates 4 and the third steel plates 5.

As a further scheme of the invention, the transmission mechanism comprises first rectangular grooves 25 formed at the left ends of the upper three second connecting rods 17 and at the bottom ends of the right three second connecting rods 17, rectangular blocks 26 are fixedly arranged at the right ends of the upper three second connecting rods 17 and at the top ends of the right three second connecting rods 17, the rectangular blocks 26 penetrate through adjacent first rectangular grooves 25 and are connected with the adjacent first rectangular grooves in a sliding manner, second rectangular grooves 27 are formed at the left ends of the left fourth connecting rods 20 and at the bottom ends of the lower fourth connecting rods 20, and the top right rectangular blocks 26 respectively penetrate through the two second rectangular grooves 27 and are connected with the two second rectangular grooves in a sliding manner;

during operation, the second connecting rod 17 rotates to drive the rectangular block 26 to rotate, the rectangular block 26 rotates to drive the adjacent second connecting rod 17 to synchronously rotate through the adjacent first rectangular groove 25, and meanwhile, the second connecting rod 17 and the rectangular block 26 rotate to drive the fourth connecting rod 20 to rotate through the second rectangular groove 27, so that after the first steel plate 3, the second steel plate 4 and the third steel plate 5 are spliced, the second connecting rod 17 and the fourth connecting rod 20 can synchronously rotate, operation steps are reduced, and convenience is brought to use of workers.

As a further scheme of the invention, the driving mechanism comprises two first driving grooves 28 which are formed in one side, close to each other, of two steel columns 1, a first sliding rod 29 is fixedly arranged at the left end and the right end of each first stiffening rib 6, the lengths of the first sliding rods 29 from top to bottom are sequentially shortened, four stop blocks 30 are fixedly arranged at the inner sides of the first driving grooves 28, the stop blocks 30 are sequentially matched with the lengths of the first sliding rods 29 from top to bottom, the top ends of the stop blocks 30 are slidably connected with sliding blocks 31 through extension springs, one ends, close to the first sliding rods 29, of the sliding blocks 31 are wedge-shaped, the first sliding rods 29 are arranged between the stop blocks 30 and the sliding blocks 31, a rotating shaft 32 is rotatably connected to the middle part of the left steel column 1, an elastic rope 33 is fixedly arranged at the bottom end of the left first sliding rod 29, the other ends of the elastic ropes 33 pass through the bottom ends of the stop blocks 30 and are wound on the outer sides of the rotating shaft 32, two second driving grooves 34 are formed in one side, close to each other, of each steel beam 2, a second sliding rod 35 is fixedly arranged at the upper end and the lower end of each second stiffening rib 7, the second sliding rods 35 are sequentially shortened from right to left, the connecting structure of each second sliding rod 35 and each second driving groove 34 is identical to that of each first sliding rod 29 and each first driving groove 28, an unlocking mechanism is arranged at the right end of each left steel column 1 and used for unlocking the first stiffening rib 6 from the bottom end of each upper steel beam 2 when the fixing mechanism is used for fixing the first steel plates 3, the second steel plates 4 and the third steel plates 5, a rotating mechanism is arranged in the middle of each rotating shaft 32 and used for driving the rotating shaft 32 to rotate in the unlocking process of the unlocking mechanism, a storage box 36 is fixedly arranged at the front side and the rear side of the right end of each steel beam 2, and a push plate 37 is connected to the inner side of each storage box 36 in a sliding mode through a compression spring;

in the initial state, the second slide bars 35 are all positioned at the inner side of the storage box 36 and squeeze the push plate 37, and the first stiffening ribs 6 block the second stiffening ribs 7, so that the push plate 37 cannot push the second slide bars 35 and the second stiffening ribs 7 to move;

when in work, the left rotating shaft 32 is driven to rotate by the rotating mechanism in the process of upward movement of the left first clamping plate 13, the left rotating shaft 32 rotates to slowly wind the left elastic ropes 33 to the outer side of the rotating shaft 32, so that the left elastic ropes 33 are in a tight state, the lower elastic ropes 33 are in the same way as the above until the left first clamping plate 13 can not move upward any more, at the moment, the first stiffening ribs 6 are in an unlocking state, the left elastic ropes 33 pull the first slide bars 29 to move downwards under the guiding and elastic force of the check blocks 30, the first slide bars 29 move downwards to drive the first stiffening ribs 6 to move downwards, the check blocks 30 which are not matched with the first slide bars 29 in length are bypassed in the downward movement process until the first slide bars 29 respectively fall to the top ends of the check blocks 30 which are matched with the first slide bars, the corresponding slide blocks 31 are extruded in the downward movement process of the first slide bars 29, the inclined surface of the slide block 31 is extruded to give way to the first slide bar 29 until the corresponding first slide bar 29 passes over the slide block 31, at this time, the slide block 31 moves to the initial position under the action of elastic force and limits the first slide bar 29, so that the first slide bar 29 can not move up and down any more, thereby realizing the fixation of the first slide bar 29 and the first stiffening rib 6, at this time, the first stiffening rib 6 aligns with the hole on the surface of the second stiffening rib 7, the second stiffening rib 7 is not blocked by the first stiffening rib 6 any more and moves to the first stiffening rib 6 under the pushing of the push plate 37 until the second slide bar 35 moves into the second driving groove 34, and as the above, the second slide bar 35 and the second stiffening rib 7 move leftwards under the pulling of the lower elastic rope 33 until the second slide bar 35 is limited by the stop block 30 and the slide block 31, at this time, the first stiffening rib 6 and the second stiffening rib 7 are all installed, the first stiffening rib 6 and the second stiffening rib 7 are automatically installed when the first clamping plate 13 is installed, so that the operation steps of workers are greatly reduced, the construction efficiency is improved, the labor is saved, convenience is brought to the installation of the stiffening ribs, and the problem that the installation of the stiffening ribs in the traditional steel structure shear wall is very complicated is solved.

As a further scheme of the invention, the rotating mechanism comprises a mounting groove 38 which is formed in the right side of the upper side and the lower side of the first fixing groove 8 and the right side of the second fixing groove 9, a mounting rod 39 which is rotationally connected with the middle part of the mounting groove 38, a telescopic rod 40 which is fixedly arranged on one side of the mounting rod 39, which is close to the rotating shaft 32, a rotating rack 41 which is rotationally connected with one end of the telescopic rod 40, which is close to the rotating shaft 32, and the rotating rack 41 is slidingly connected with the inner wall of the mounting groove 38, a rotating gear 42 which is fixedly arranged on the middle part of the rotating shaft 32, the rotating gear 42 is meshed with the rotating rack 41, a push rod 43 is fixedly arranged on one side of the mounting rod 39, which is far away from the telescopic rod 40, and a pushing mechanism which is used for pushing the push rod 43 to rotate around the mounting rod 39 in the moving process of the first clamping plate 13;

during operation, the first clamping plate 13 at the left end moves upwards, the right end of the push rod 43 at the left side is pushed to move upwards by the pushing mechanism, the telescopic rod 40 and the mounting rod 39 are driven to rotate around the mounting rod 39 in the moving process of the push rod 43 at the left side, the rotary rack 41 is pushed to move downwards in the rotating process of the telescopic rod 40 around the rotating shaft 32, the telescopic rod 40 stretches and contracts while rotating, the rotary rack 41 is pushed to move downwards to drive the rotating shaft 32 to rotate by the rotary gear 42, and accordingly the rotating shaft 32 is driven to rotate while the first clamping plate 13 at the bottom end moves rightwards, and the rotating process of the rotating shaft 32 at the bottom end is driven to rotate by the first clamping plate 13 at the bottom end is the same as that described above.

As a further scheme of the invention, the pushing mechanism comprises a T-shaped plate 44, the left end of the upper steel beam 2 is connected with the bottom of the right end of the upper push rod 43 in a sliding way through a compression spring, the left end of the T-shaped plate 44 is tightly attached to the bottom of the right end of the upper push rod 43, the bottom end of the right steel column 1 is connected with a Z-shaped plate 45 in a sliding way through the compression spring, and the bottom end of the Z-shaped plate 45 is tightly attached to the left side of the top end of the lower push rod 43;

in operation, the first clamping plate 13 at the left end moves upwards to press the T-shaped plate 44, the T-shaped plate 44 moves upwards to enable the left end of the T-shaped plate to push the right end of the left push rod 43 to move upwards, the second clamping plate 14 at the bottom end moves rightwards to push the Z-shaped plate 45 to move rightwards, the Z-shaped plate 45 moves rightwards to push the top end of the bottom push rod 43 to move rightwards, and therefore the push rod 43 is driven to move in the moving process of the first clamping plate 13.

As a further scheme of the invention, the unlocking mechanism comprises two L-shaped rods 46 which are slidably connected with the right end of the left steel column 1, the two L-shaped rods 46 are connected through a tension spring, the bottom end of the T-shaped plate 44 is conical, and the top ends of the L-shaped rods 46 are matched with the bottom end of the T-shaped plate 44;

in the initial state, the first stiffening rib 6 is positioned at the top end of the horizontal end of the L-shaped rod 46 and is limited by the L-shaped rod 46 and cannot move downwards;

in operation, the T-shaped plate 44 moves upward so that the bottom end of the T-shaped plate 44 no longer blocks the L-shaped rods 46, the two L-shaped rods 46 are close to each other under the action of the tension spring, the two L-shaped rods 46 are close to each other so that the horizontal ends of the L-shaped rods 46 are removed from the bottom ends of the first stiffening ribs 6, the first stiffening ribs 6 are unlocked, and the first stiffening ribs 6 are automatically unlocked when the first clamping plate 13 cannot move any more.

Claims

1. The utility model provides a building steel construction shear force wall, includes two steel column (1), two girder steel (2), its characterized in that: the steel beam (2) is fixedly installed between two steel columns (1), the left side the junction of steel column (1) and downside steel beam (2) is provided with a plurality of first steel sheet (3), the right side the left end and the upside of steel column (1) the bottom of steel beam (2) all is provided with three second steel sheet (4), second steel sheet (4) all closely laminate with first steel sheet (3), the right side steel column (1) and upside the junction of steel beam (2) is provided with third steel sheet (5), the left end and the bottom of third steel sheet (5) all closely laminate with second steel sheet (4), the middle part of first steel sheet (3), second steel sheet (4) and third steel sheet (5) splice into a whole jointly, the middle part of second steel sheet (4) is provided with fixed establishment, fixed establishment is used for when first steel sheet (3), second steel sheet (4) and third steel sheet (5) splice the back, with the inside be fixed to two steel rib (1) and two (6) and two steel rib (6) are in a plurality of second steel rib (6), a plurality of stiffening mechanisms (7) are located between a plurality of steel rib (6) and two steel rib (1) are formed respectively The front end and the rear end of the second steel plate (4) and the rear end of the third steel plate (5) are tightly attached to the front end and the rear end of the third steel plate, the first stiffening rib (6) is matched with holes on the surfaces of the second stiffening rib (7), and the driving mechanism is used for driving the first stiffening rib (6) and the second stiffening rib (7) to move to the surfaces of the first steel plate (3), the second steel plate (4) and the third steel plate (5) and fix after the fixing mechanism is used for fixing the first steel plate, the second steel plate (4) and the third steel plate (5);

the fixing mechanism comprises a first fixing groove (8) which is formed in one side, close to each other, of two steel columns (1), a second fixing groove (9) is formed in one side, close to each other, of two steel beams (2), a first clamping block (10) is fixedly arranged at the left end and the bottom end of each first steel plate (3), the left ends of the three first clamping blocks (10) penetrate through the left first fixing groove (8) and are connected with the left first fixing groove in a sliding mode, the bottom ends of the three first clamping blocks (10) penetrate through a lower second fixing groove (9) and are connected with the lower second fixing groove in a sliding mode, the rest of the first clamping blocks (10) penetrate through adjacent first steel plates (3) and are connected with the second fixing groove in a sliding mode, the left ends and the bottom ends of the second steel plates (4) are fixedly arranged with second clamping blocks (11), the left ends of the second clamping blocks (11) penetrate through the left first fixing groove (8) and are connected with the left ends of the left first clamping blocks, the bottom ends of the second clamping blocks (11) penetrate through the lower second fixing groove (9) and are connected with the second clamping blocks (12) in a sliding mode, the rest of the second clamping blocks (4) penetrate through the second steel plates (12) and are connected with the left ends of the second steel plates (4) in a sliding mode respectively, the top ends of the upper three second steel plates (4) and the right ends of the right three second steel plates (4) are both in sliding connection with a first clamping plate (13), the top ends of the upper three first clamping plates (13) are all penetrated through and are in sliding connection with an upper second fixing groove (9), the right ends of the right three first clamping plates (13) are all penetrated through and are in sliding connection with a right first fixing groove (8), the top ends of the third steel plates (5) are in sliding connection with a second clamping plate (14), the top ends of the second clamping plates (14) are penetrated through and are in sliding connection with an upper second fixing groove (9), the right ends of the third steel plates (5) are in sliding connection with a third clamping plate (15), the right ends of the third clamping plates (15) are penetrated through and are in sliding connection with a right first fixing groove (8), the right ends of the first clamping plates (13), the second clamping plates (14) and the third clamping plates (15) are all penetrated through telescopic mechanisms, and the telescopic mechanisms are used for fixing the first clamping plates (3), the second clamping plates (14) and the third clamping plates (15) after the first clamping plates (4), the second clamping plates (14) and the third clamping plates (15) are inserted into the first clamping plates (9) and the second clamping plates (15) which are fixedly connected to the first clamping plates (9) respectively;

the telescopic mechanism comprises a first screw rod (16) and a second connecting rod (17) which are rotationally connected in the middle of a second steel plate (4), wherein a first bevel gear (18) is fixedly installed at one end of the first screw rod (16) close to the second connecting rod (17) and the middle of the second connecting rod (17) and is meshed with each other, one end of the first screw rod (16) far away from the second connecting rod (17) penetrates through a first clamping plate (13) and is connected with threads of the first clamping plate, two third screw rods (19) and two fourth connecting rods (20) are rotationally connected in the middle of the third steel plate (5), the top ends of the third screw rods (19) penetrate through a second clamping plate (14) and are in threaded connection with the second clamping plate, the right end of the third screw rod (19) penetrates through a third clamping plate (15) and is in threaded connection with the second clamping plate, the bottom end of the third screw rod (19) and the right end of the left fourth connecting rod (20) are fixedly installed with a second bevel gear (21) and are meshed with each other, the top ends of the third screw rod (19) and the fourth connecting rod (20) are rotationally connected with the top ends of the third screw rod (23) and the right end of the fourth connecting rod (4) which are rotationally connected with each other, the fourth bevel gears (24) are all meshed with the first bevel gears (18), and a transmission mechanism is arranged at the end part of the second connecting rod (17) and used for driving the adjacent second connecting rod (17) and the adjacent fourth connecting rod (20) to synchronously rotate when the second connecting rod (17) rotates;

the transmission mechanism comprises first rectangular grooves (25) formed in the left ends of the upper three second connecting rods (17) and the bottom ends of the right three second connecting rods (17), rectangular blocks (26) are fixedly arranged at the right ends of the upper three second connecting rods (17) and the top ends of the right three second connecting rods (17), the rectangular blocks (26) penetrate through the adjacent first rectangular grooves (25) and are connected with the adjacent first rectangular grooves in a sliding mode, second rectangular grooves (27) are formed in the left ends of the left side fourth connecting rods (20) and the bottom ends of the lower side fourth connecting rods (20), and the rectangular blocks (26) at the right ends of the top ends and the rectangular blocks (26) at the top ends penetrate through the two second rectangular grooves (27) and are connected with the two second rectangular grooves in a sliding mode;

the driving mechanism comprises two first driving grooves (28) which are formed in one side, close to each other, of two steel columns (1), first sliding rods (29) are fixedly arranged at the left end and the right end of each first stiffening rib (6), the lengths of the first sliding rods (29) are sequentially shortened from top to bottom, four stop blocks (30) are fixedly arranged on the inner sides of the first driving grooves (28), the stop blocks (30) are sequentially matched with the lengths of the first sliding rods (29) from top to bottom, sliding blocks (31) are slidably connected to the top ends of the stop blocks (30) through extension springs, one ends, close to the first sliding rods (29), of the sliding blocks (31) are wedge-shaped, the first sliding rods (29) are positioned between the stop blocks (30) and the sliding blocks (31), a rotating shaft (32) is rotatably connected to the middle of each steel column (1), ropes (33) are fixedly arranged at the bottom ends of the first sliding rods (29) on the left side, the other ends of the elastic ropes (33) are sequentially wound on the bottom ends of the stop blocks (30) through the rotating shafts (32), stiffening ribs (35) are sequentially shortened from the two sides, two stiffening ribs (35) are sequentially arranged on the two sides, close to the second sliding rods (35) are sequentially driven from the two sides of the second sliding rods (2), the connecting structure of second slide bar (35) and second drive groove (34) is the same with the connecting structure of first slide bar (29) and first drive groove (28), and the left side the right-hand member of steel column (1) is provided with release mechanism, release mechanism is used for when fixed establishment is fixed first steel sheet (3), second steel sheet (4) and third steel sheet (5) accomplish, unlocks the bottom of first stiffening rib (6) from upside girder steel (2), the middle part of pivot (32) is provided with rotary mechanism, rotary mechanism is used for driving pivot (32) rotation when release mechanism carries out the in-process of unblock, and both sides all fixed mounting have receiver (36) around girder steel (2) right-hand member, the inboard of receiver (36) is all through compression spring sliding connection has push pedal (37).

2. A structural steel shear wall according to claim 1, wherein: the utility model provides a rotary mechanism includes mounting groove (38) that the right side of the upside of left side first fixed slot (8) and downside second fixed slot (9) all was seted up, the installation pole (39) that all rotates to be connected in the middle part of mounting groove (38), one side that installation pole (39) is close to pivot (32) all fixed mounting has telescopic link (40), one end that telescopic link (40) is close to pivot (32) all rotates and is connected with rotation rack (41), rotation rack (41) all is connected with the inner wall slip of mounting groove (38), the middle part of pivot (32) all fixed mounting has rotation gear (42), rotation gear (42) meshes with rotation rack (41), one side that installation pole (39) kept away from telescopic link (40) all fixed mounting has push rod (43), one end that push rod (43) kept away from installation pole (39) is provided with pushing mechanism, pushing mechanism is used for pushing push rod (43) and rotates around installation pole (39) when first cardboard (13) removes the in-process.

3. A structural steel shear wall according to claim 2, wherein: the pushing mechanism comprises a T-shaped plate (44) which is slidably connected with the left end of an upper steel beam (2) through a compression spring, the left end of the T-shaped plate (44) is tightly attached to the bottom of the right end of an upper push rod (43), the right side is provided with a Z-shaped plate (45) which is slidably connected with the bottom end of the steel column (1) through the compression spring, and the bottom end of the Z-shaped plate (45) is tightly attached to the left side of the top end of the lower push rod (43).

4. A structural steel shear wall according to claim 3, wherein: the unlocking mechanism comprises two L-shaped rods (46) which are connected with the right end of the left steel column (1) in a sliding mode, the two L-shaped rods (46) are connected through a tension spring, the bottom end of the T-shaped plate (44) is conical, and the top ends of the L-shaped rods (46) are matched with the bottom end of the T-shaped plate (44).