CN117005577A

CN117005577A - Assembled type anti-seismic wall

Info

Publication number: CN117005577A
Application number: CN202311042308.8A
Authority: CN
Inventors: 马广州; 范志辉; 赵里凯; 郭春磊; 李开洋
Original assignee: Henan Guanshanyue Engineering Design Co ltd
Current assignee: Henan Guanshanyue Engineering Design Co ltd
Priority date: 2023-08-18
Filing date: 2023-08-18
Publication date: 2023-11-07

Abstract

The invention belongs to the technical field of assembled walls, and particularly discloses an assembled anti-seismic wall, which comprises assembled wall boards matched with each other, wherein a wall board adjusting cavity is arranged in the assembled wall boards, a wall board adjusting structure is arranged in the wall board adjusting cavity, and the wall board adjusting structure is matched with a damping connecting structure arranged in the assembled wall boards. According to the invention, the shock-absorbing connecting structure is matched with the wallboard adjusting structure to fixedly mount the assembled wallboard, so that the mounting efficiency and the mounting quality of the assembled wallboard are improved, the rigid connection mode of the existing assembled wallboard is changed through the mutual matching of the shock-absorbing connecting structures in the adjacent assembled wallboard, when the assembled wallboard is affected by shock, the shock-absorbing connecting structure absorbs the shock acting force of the assembled wallboard, the interaction force between the assembled wallboards is reduced, the problems of fracture, displacement, damage deformation and the like of the assembled wallboard are prevented, and the use safety of the assembled wallboard is improved.

Description

Assembled type anti-seismic wall

Technical Field

The invention belongs to the technical field of assembled walls, and particularly relates to an assembled anti-seismic wall.

Background

The prefabricated building mainly comprises a prefabricated concrete structure, a steel structure, a modern wood structure building and the like, and is representative of a modern industrial production mode because standardized design, industrial production, assembly construction, informatization management and intelligent application are adopted. The assembled wall body is an important component part of the assembled building, but the existing assembled wall body is connected in a rigid mode, so that the shock resistance of the existing assembled wall body is ignored, the shock resistance of the existing assembled wall body is poor, when the assembled building is affected by external factors such as vibration, the assembled wall plates in the assembled wall body are easy to squeeze each other under the action of the vibration, and the assembled wall plates are broken, shifted and damaged to deform, so that property and safety of people can be damaged.

The application publication number CN 115680151A's chinese patent discloses an assembled wall structure, including setting up the coupling mechanism between two wallboards, coupling mechanism is including setting up the connecting plate in the wallboard both sides, every connecting plate all butt simultaneously on the lateral wall of two wallboards, two all the rigid coupling that is close to each other between the connecting plate has the stopper, the stopper butt is in on the wallboard tip lateral wall, two pour concrete between the connecting plate, two be equipped with between the connecting plate be used for fixing two the fixed subassembly of connecting plate. The application has the effect of improving the firmness between two wallboards. The wallboards of the assembled wall body structure are rigidly connected through the cement matching counter-pulling screw rods, but the rigidly connected wallboards are easy to squeeze and deform when subjected to vibration, so that the wall body collapses, and the property and safety of people are damaged.

Disclosure of Invention

In order to solve the problems, the application provides an assembled anti-seismic wall body which improves the anti-seismic performance and the use safety of the assembled wall body.

Based on the above purpose, the application is realized by the following technical scheme:

the utility model provides an assembled antidetonation wall body, includes the assembled wallboard of mutually supporting, is equipped with the wallboard in the assembled wallboard and adjusts the chamber, and the wallboard is adjusted the intracavity and is equipped with wallboard and adjust the structure, and wallboard adjusts the structure and sets up the shock attenuation connection structure in assembled wallboard and cooperate.

Preferably, the shock absorption connecting structure comprises shock absorption adjusting grooves arranged on the side surfaces of all sides of the assembled wallboard, at least one shock absorption adjuster with adjustable positions is arranged in the shock absorption adjusting grooves, the shock absorption adjuster comprises a shock absorption connecting rod arranged in the shock absorption adjusting grooves, a shock absorption annular groove in clearance fit is sleeved on the shock absorption connecting rod, and shock absorption annular protrusions are arranged between the shock absorption annular grooves; the damping connecting rod is arranged at one end close to the assembled wallboard, a damping connecting cylinder in clearance fit with the damping connecting rod is arranged on the damping connecting plate, and the damping connecting cylinder and the damping connecting rod are arranged at two ends of the same side surface of the damping connecting plate; and shock absorber adjusting holes matched with the shock absorber adjusters are formed in the side surfaces of the shock absorber adjusting grooves.

Preferably, a damping adjusting column matched with the damping adjusting groove is arranged on the axle center of one side of the damping connecting plate away from the damping connecting rod, the damping adjusting column is rotationally connected with the damping connecting plate, and the damping adjusting column is connected with a limiting adjusting ring arranged in the wallboard adjusting cavity; the side of the damping adjusting groove, which is close to the wallboard adjusting cavity, is provided with a damping limiting cavity connected with the wallboard adjusting cavity, the damping limiting cavity is connected with the damping adjusting groove through a limiting partition board, and a strip-type limiting groove is arranged on the limiting partition board; the damping limiting cavity is connected with the wallboard adjusting cavity through a damping partition plate, and a strip-shaped damping groove matched with the damping adjusting column and the limiting adjusting ring is formed in the damping partition plate.

Preferably, the damping adjusting column is sleeved with a damping sleeve matched with the strip-shaped limiting groove, sleeve limiting rings matched with the damping adjusting column are arranged at two ends of the damping sleeve, the sleeve limiting rings are matched with limiting ring grooves arranged on the damping adjusting column, the damping sleeve is sleeved with a damping ring plate matched with a damping limiting cavity, two sides of the damping ring plate are symmetrically provided with damping springs matched with the damping sleeve, one end of each damping spring, away from the damping ring plate, is provided with a ring-shaped adjusting plate matched with the strip-shaped limiting groove and the strip-shaped damping groove, and the ring-shaped adjusting plate is matched with a sleeve sliding groove arranged on the damping sleeve through an adjusting ring protrusion.

Preferably, the damping ring plate comprises a pair of clearance fit damping concave plates, the inner concave surfaces of the damping concave plates are oppositely arranged, the damping concave plates are connected through concave plate springs sleeved on the damping sleeve, and the outer convex surfaces of the damping concave plates are connected with the damping springs; the concave disc spring is connected with the outer ring of the damping concave disc; the damping sleeve is provided with a concave disc moving groove matched with the damping concave disc, the concave disc moving groove is provided with a concave disc guide groove matched with the damping concave disc, and two ends of the concave disc moving groove are provided with reset springs respectively connected with the damping concave disc; the shock absorption spring is sleeved with a protective cover, and two ends of the protective cover are respectively connected with the annular adjusting plate and the shock absorption concave disc.

Preferably, a damping connecting component matched with the damping connecting rod is arranged in the damping connecting cylinder, the damping connecting component comprises a damping limiting ring, the damping limiting ring is matched with a limiting chute arranged in the damping connecting cylinder, and a plurality of limiting fixing holes matched with the damping connecting cylinder are formed in the damping limiting ring; the damping limiting ring is provided with at least two limiting adjusting blocks which are symmetrical relative to the center of the damping limiting ring, one side, close to the damping limiting ring, of each limiting adjusting block is provided with a limiting adjusting groove, a limiting adjusting shaft matched with the damping limiting ring is arranged in each limiting adjusting groove, and each limiting adjusting shaft is sleeved with a limiting spring matched with each limiting adjusting block; a fan ring limiting plate is arranged on one side, away from the assembled wallboard, of the limiting adjusting block, the fan ring limiting plate is matched with an annular limiting groove arranged on the side face of the damping ring groove, a limiting magnet attracted with the annular limiting groove is arranged on one side, close to the annular limiting groove, of the fan ring limiting plate, and the limiting magnet is arranged in a magnet hiding groove on the side face of the fan ring limiting plate; particle bulges are laid on the side surface of the fan ring limiting plate, which is close to one side of the annular limiting groove, and one end of the fan ring limiting plate, which is close to the limiting adjusting shaft, is provided with an anti-back hook matched with the annular limiting groove; one side of the limit adjusting block, which is close to the assembled wallboard, is provided with a limit baffle matched with the limit adjusting block.

Preferably, the damping connecting plate is provided with a damping positioner matched with the damping adjusting groove, the damping positioner comprises adjusting positioning blocks arranged on the side surfaces of two ends of the damping connecting plate, the adjusting positioning blocks are matched with horn-shaped sliding grooves with gaps uniformly distributed on the side surfaces of the damping adjusting groove, and the opening ends of adjacent horn-shaped sliding grooves are connected; the side surface of the damping adjusting groove is provided with a damping chute connected with the horn-shaped chute, and the damping chute is vertically connected with one end of the horn-shaped chute, which is far away from the wallboard adjusting cavity; the damping connecting plate is provided with a damping adjusting hole matched with the damping adjusting column, the damping adjusting hole is matched with an anti-drop ring groove arranged on the damping adjusting column, the damping adjusting column is sleeved with an adjusting spring, one end of the adjusting spring is connected with the damping connecting plate, the other end of the adjusting spring is connected with a movable adjusting plate which is in sliding connection with the damping adjusting column, and the movable adjusting plate is matched with the limiting partition plate; the adjusting positioning block is connected with a limiting block which is arranged on the damping adjusting column and matched with the movable adjusting plate through a connecting rope; the end part of the shock absorption adjusting column is provided with a limiting plate matched with the shock absorption adjusting hole; the shock absorption adjusting groove is internally provided with an assembling mark matched with the horn-shaped chute.

Preferably, the wallboard adjusting structure comprises an adjusting cylinder arranged in the wallboard adjusting cavity, both ends of the adjusting cylinder are rotationally connected with the wallboard adjusting cavity through adjusting bearings, the adjusting cylinder is matched with an assembly adjusting hole formed in the assembled wallboard, one end of the adjusting cylinder is provided with an inner angle adjusting groove, an inner angle adjusting column is arranged in the inner angle adjusting groove, one end of the inner angle adjusting column, far away from the adjusting cylinder, is provided with an inner angle adjusting plate, and an adjusting handle matched with the assembly adjusting hole is arranged on the inner angle adjusting plate; the assembly adjusting hole is internally provided with an assembly bearing matched with the inner angle adjusting column, the assembly bearing is matched with an assembly adjusting ring arranged in the assembly adjusting hole, the assembly adjusting ring is internally provided with a plurality of adjusting sliding grooves matched with the assembly bearing, two ends of the assembly adjusting ring are respectively provided with an inner concave ring plate matched with the assembly bearing, and the inner concave ring plates are in clearance fit with the inner angle adjusting column.

Preferably, the two sides of the wallboard adjusting cavity are provided with assembly adjusting plates matched with the adjusting cylinders, the assembly adjusting plates are provided with damping cylinders which are in one-to-one correspondence with the damping adjusting grooves, the assembly adjusting plates are connected through the damping cylinders, the damping cylinders are provided with arch adjusting plates matched with the damping adjusting columns, the tops of the arch adjusting plates are provided with damping shafts matched with the damping cylinders, one sides of the arch adjusting plates, which are far away from the damping cylinders, are provided with position adjusting grooves matched with the damping adjusting columns, adjusting balls are arranged in the position adjusting grooves and are matched with position adjusting holes arranged in the position adjusting grooves in a clearance mode, the adjusting balls are provided with large circular ring grooves matched with the position adjusting holes, small circular ring grooves matched with the position adjusting grooves, and ring groove concave wheels are sleeved in the small circular ring grooves; the adjusting ball is provided with an adjusting sleeve hinged with the adjusting ball through a ball hinge, the adjusting sleeve is in threaded connection with an adjusting connecting rod arranged on the damping adjusting column, and the adjusting connecting rod is hinged with the damping adjusting column through the ball hinge; the position adjusting groove is a major arc adjusting groove with one side open.

Preferably, the adjusting cylinders are sleeved with damping adjusting cylinders corresponding to the damping cylinders respectively, the damping adjusting cylinders are connected through adjusting ring plates, ring plate convex rings are arranged on two sides of each adjusting ring plate, the ring plate convex rings are matched with adjusting ring grooves arranged on the side surfaces of the damping adjusting cylinders, adjusting balls matched with the adjusting ring grooves are uniformly distributed on the ring plate convex rings, the damping adjusting cylinders are rotationally connected with the adjusting cylinders through damping adjusting springs, adjusting chains connected with the damping cylinders are arranged on the damping adjusting cylinders, and the adjusting chains are connected with adjusting links arranged on the damping cylinders; the assembly adjusting plate is provided with a cylinder adjusting groove matched with the shock absorption cylinder, an adjusting rack is arranged in the cylinder adjusting groove and is matched with a synchronous concave wheel arranged at the end part of the shock absorption cylinder, the synchronous concave wheel is connected with the shock absorption cylinder through a synchronous rotating shaft, and the synchronous rotating shaft is connected with a reset spring arranged in the cylinder adjusting groove; the assembly adjusting plate is cross-shaped, and the intersection point of the assembly adjusting plate is matched with the adjusting cylinder; the damping cylinders are arranged at the end parts of the assembly adjusting plates, and the damping cylinders are symmetrical relative to the center of the adjusting cylinders; the two ends of the arched adjusting plates are provided with restoring springs connected with the assembled adjusting plates, and the arched adjusting plates are connected through buffer springs; the two ends of the arched adjusting plate are provided with adjusting rollers which are matched with track adjusting grooves arranged in the wallboard adjusting cavity; the end of the arch-shaped adjusting plate is provided with temporary fixing holes which are matched with detachable temporary fixing bolts arranged on the assembled wallboard.

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

(1) According to the invention, the shock-absorbing connecting structure is matched with the wallboard adjusting structure to fixedly mount the assembled wallboard, so that the mounting efficiency and the mounting quality of the assembled wallboard are improved, the rigid connection mode of the existing assembled wallboard is changed through the mutual matching of the shock-absorbing connecting structures in the adjacent assembled wallboard, when the assembled wallboard is affected by shock, the shock-absorbing connecting structure absorbs the shock acting force of the assembled wallboard, the interaction force between the assembled wallboards is reduced, the problems of fracture, displacement, damage deformation and the like of the assembled wallboard are prevented, and the shock resistance and the use safety of the assembled wallboard are improved; the damping connection structure is adjusted through the wallboard adjusting structure, so that the damping connection structure is suitable for damping connection of assembled wallboards with different specifications, and the application range of the damping connection structure is improved.

(2) The shock absorption connecting structure is characterized in that the shock absorption adjusting grooves are formed in each side face of the assembled wall plate, so that the shock absorption adjuster is hidden in the assembled wall plate after being installed, and gaps are avoided in the installed assembled wall body; the shock attenuation regulator is realized through setting up clearance fit's shock attenuation connecting rod and shock attenuation connecting cylinder on the shock attenuation connecting plate, and the shock attenuation connecting rod cooperatees with the shock attenuation connecting cylinder, through adjusting the angle of shock attenuation connecting plate, can be connected with the shock attenuation regulator in the adjacent assembled wallboard, realizes the connection fixed to adjacent assembled wallboard through the connecting piece with the specification, can obviously reduce the assembled wall body in the quantity of spare part in the work progress, reduces the construction degree of difficulty, promotes the efficiency of construction.

(3) The shock absorption annular plate on the shock absorption sleeve is matched with the shock absorption spring and the annular adjusting plate to absorb the shock acting force received by the assembled wallboard in the shock absorption limiting cavity, when the assembled wallboard is subjected to shock, the shock absorption connecting rod and the shock absorption connecting cylinder drive the shock absorption adjusting column to move, the shock absorption adjusting column drives the annular adjusting plate to move in the shock absorption limiting cavity through the shock absorption sleeve, the shock absorption sleeve enters and exits the shock absorption limiting cavity through the strip type limiting groove, the annular adjusting plate cannot freely enter and exit the shock absorption limiting cavity under the blocking of the limiting partition plate or the shock absorption partition plate, the shock acting force is transmitted to the shock absorption spring, the shock acting force is absorbed by the shock absorption spring, the mutual extrusion among the assembled wallboards is prevented, the assembled wallbody is damaged, and the safety and the stability of the assembled wallbody are improved; the sleeve limiting ring limits the damping sleeve on the proper position of the damping adjusting column, and the damping treatment on the assembled wallboard is realized on the premise that the damping sleeve does not influence the damping sleeve to drive the damping ring plate to move along the damping limiting cavity.

(4) The shock absorption annular plate is realized by a pair of shock absorption concave plates matched with concave plate springs in clearance fit, and the concave plate springs among the shock absorption concave plates further absorb shock received by the assembled wall body, so that shock received by the assembled wall body is absorbed to the greatest extent, the possibility of damage to the assembled wall body is further reduced, and the use safety and shock absorption performance of the assembled wall body are further improved; the concave plate movable groove is arranged to enable the damping concave plate to move in the limiting position of the damping sleeve, so that the damping concave plate is prevented from moving greatly, the damping effect of the damping ring plate is reduced, the assembly type wall plates are prevented from being extruded, and the damping performance of the assembly type wall body is prevented from being influenced; the concave disc guide groove prevents the damping concave disc from rotating in the concave disc movable groove, and influences the capability of the damping annular plate to continuously absorb the vibration acting force.

(5) The damping connecting assembly is convenient for the damping connecting cylinder to be combined with the damping connecting rod, so that the connecting difficulty of the assembled wallboard is reduced, and the assembly efficiency of the assembled wallboard is obviously improved; the damping limiting rings of the damping connecting assembly are fixed in the damping connecting cylinder through the limiting fixing holes, so that proper number of damping limiting rings can be conveniently selected according to assembly type wallboards with different specifications and sizes, the strength of the damping connecting assembly is ensured, and the use cost is reduced; the damping limiting ring is fixed in the damping ring groove through symmetrically arranged limiting adjusting blocks, so that the damping connecting cylinder and the damping connecting rod are connected; when the limiting adjusting block moves along with the damping limiting ring and the damping connecting rod, the limiting adjusting block rotates along a limiting adjusting shaft in the limiting adjusting groove when passing through the damping ring bulge, and after passing through the damping ring bulge and reaching a proper damping ring groove, the limiting adjusting block resets into the damping ring groove under the action of a limiting spring to connect the damping connecting cylinder with the damping connecting rod; when the assembly type wall plate is subjected to vibration, the limiting adjusting block moves in the damping ring groove, and the fan ring limiting plate is matched with the annular limiting groove to prevent the limiting adjusting block from being separated from the damping ring groove, so that the stability of the assembly type wall plate is ensured; the spacing regulating groove that one side set up cooperates spacing regulating spindle for spacing regulating block only can rotate along a direction of spacing regulating spindle, thereby prevent spacing regulating block activity along shock attenuation connecting rod at will, thereby avoid shock attenuation connecting cylinder and shock attenuation connecting rod to break away from.

(6) The shock absorption positioner realizes the guiding and positioning of the shock absorption regulator by guiding the shock absorption connection plate, transfers the shock absorption regulator to the appointed position in the shock absorption regulation groove, is convenient for combining the shock absorption regulator with the shock absorption regulator on the adjacent assembled wall plate, is convenient and rapid for assembling the assembled wall plate into an assembled wall body, and improves the assembly efficiency of the assembled wall body; the damping positioner moves in the damping chute through the adjusting positioning block on the damping connecting plate, the position of the damping positioner in the damping adjusting chute is adjusted, after the damping positioner moves to a proper position through the marking mark in the damping adjusting chute, the adjusting positioning block guides the damping connecting plate into the horn-shaped chute along the horn-shaped chute, the position of the damping regulator is fixed and positioned, and the adjacent assembled wall plates are assembled into an assembled wall body conveniently and rapidly; the damping adjusting holes are matched with the damping adjusting columns, so that the damping connecting plates conveniently rotate along the damping adjusting columns through the damping adjusting holes, the angles of the damping connecting cylinders and the damping connecting rods are adjusted, and the damping connecting cylinders and the damping connecting rods are conveniently connected with the damping connecting rods and the damping connecting cylinders in adjacent assembled wallboards respectively; the anti-drop ring groove facilitates the rotation of the shock absorption connecting plate along the shock absorption adjusting column, and facilitates the connection of the shock absorption adjuster with the shock absorption adjuster of the adjacent assembled wallboard.

(7) The wallboard adjusting structure drives the adjusting cylinder to rotate along the adjusting bearing through the adjusting cylinder in the wallboard adjusting cavity and drives the inner angle adjusting column to rotate along the assembling bearing in the assembling adjusting hole through rotating the adjusting handle on the inner angle adjusting plate, and the adjusting cylinder is driven to rotate along the adjusting bearing through the inner angle adjusting groove, so that the rotating adjusting action of the adjusting cylinder is realized; when the adjusting cylinder is fixed, the adjusting handle is pressed, the assembly bearing slides along the adjusting chute in the assembly adjusting ring, so that the assembly bearing moves to the adjusting cylinder side in the assembly adjusting ring, the inner angle adjusting column penetrates into the inner angle adjusting groove, the inner angle adjusting plate enters into the assembly adjusting hole, the adjusting handle enters into the handle groove of the assembly adjusting hole, the adjusting handle is prevented from rotating, and the adjusting cylinder is further fixed in the wallboard adjusting cavity, so that the aim of fixing the adjusting cylinder is fulfilled; the concave annular plate can prevent the assembly bearing from falling off from the assembly adjusting ring.

(8) The assembly adjusting plates fixed in the wallboard adjusting cavities are provided with end parts corresponding to the damping adjusting grooves, so that the damping cylinders on the assembly adjusting plates are in one-to-one correspondence with the damping adjusting grooves, and the corresponding adjustment of the damping adjusters in the damping adjusting grooves is realized through the damping cylinders; the two ends of the damping cylinder are connected with a cylinder body adjusting groove on the assembly adjusting plate through synchronous concave wheels on the rotating shaft, and the position and stability of the damping cylinder are ensured through an adjusting chain and a restoring spring; when the arched regulating plate is regulated by the damping regulating column, the arched regulating plate performs angle regulation through the damping shaft, so that the impact of external acting force on the arched regulating plate is reduced; the position adjusting groove is convenient for adjusting the position of the adjusting ball on the arched adjusting plate, and the adjusting ball can be conveniently moved to a proper position; when the adjusting ball moves in the position adjusting groove, the groove concave wheel in the small circular groove rotates at the opening of the position adjusting groove, the large circular groove of the adjusting ball enters the position adjusting hole when the adjusting ball moves to the position adjusting hole at a proper position, and the large circular groove is clamped in the position adjusting hole, so that the adjusting ball is fixed to the position adjusting hole, and the aim of fixing the adjusting ball to a designated position is fulfilled; the adjusting ball is connected with the adjusting screw on the damping adjusting column through the adjusting sleeve, so that acting force transmitted by the damping adjusting column is conveniently absorbed and relieved.

(9) The damping adjusting cylinder is matched with the damping adjusting spring, the damping adjusting cylinder absorbs acting force received by the damping adjusting cylinder through the damping adjusting spring, the damping adjusting cylinder drives the damping adjusting cylinder to rotate on the adjusting cylinder through tightening the damping adjusting spring, and the damping cylinder is driven to move along the cylinder adjusting groove through the adjusting chain, so that the position of the damping cylinder on the assembly adjusting plate is adjusted, the wallboard adjusting structure is in a stable damping state, and acting force caused by vibration through the assembled wallboard is effectively reduced; the adjusting rack is matched with the synchronous concave wheel to enable the damping cylinder to move stably in a cylinder adjusting groove of the adjusting plate; the reset spring pulls the synchronous rotating shaft to drive the damping cylinder to reset along the cylinder adjusting groove when the adjusting chain is loosened; the assembly adjusting plate is cross-shaped and is provided with four end parts, so that the assembly adjusting plate is convenient to correspond to the four damping adjusting grooves of the assembly type wallboard; when the arched regulating plate rotates along the shock absorbing shaft, the restoring spring buffers acting force, and after the external acting force disappears, the restoring spring releases acting force, so that the arched regulating plate is convenient to reset along the shock absorbing shaft, and the wallboard regulating structure achieves the aim of automatic reset regulation; the buffer spring can transmit the vibration acting force received by each arch-shaped adjusting plate to the adjacent arch-shaped adjusting plates, and the influence of external acting force on the arch-shaped adjusting plates is further reduced in a sharing mode.

In summary, the invention fixedly installs the assembled wall board by the shock absorption connecting structure and the wall board adjusting structure, improves the installation efficiency and the installation quality of the assembled wall board, changes the rigid connection mode of the existing assembled wall board by the mutual coordination of the shock absorption connecting structures in the adjacent assembled wall boards, and reduces the interaction force among the assembled wall boards by the shock absorption connecting structure when the assembled wall body is affected by shock, thereby preventing the problems of fracture, displacement, damage deformation and the like of the assembled wall board, and improving the shock resistance and the use safety of the assembled wall body; the damping connection structure is adjusted through the wallboard adjusting structure, so that the damping connection structure is suitable for damping connection of assembled wallboards with different specifications, and the application range of the damping connection structure is improved.

Drawings

FIG. 1 is a schematic view of the structure of the present invention in embodiment 1;

FIG. 2 is a schematic view of the internal structure of the fabricated wallboard of example 1;

FIG. 3 is a schematic view showing the structure of a damper regulator in embodiment 1;

FIG. 4 is a schematic structural view of the annular adjusting plate in example 1;

FIG. 5 is a schematic view of the shock absorbing sleeve of embodiment 1;

FIG. 6 is a schematic structural view of a vibration damping ring plate in embodiment 1;

FIG. 7 is a schematic view of the shock link of embodiment 1;

FIG. 8 is a schematic view of the shock absorbing attachment assembly of embodiment 1;

FIG. 9 is a schematic diagram of the structure of the limit adjusting block in embodiment 1;

FIG. 10 is a side view of the limit adjustment block of example 1;

FIG. 11 is a schematic structural view of the wallboard adjusting structure in example 1;

FIG. 12 is a schematic view of the structure of the regulating cylinder in embodiment 1;

FIG. 13 is a schematic view showing the structure of the assembled adjusting ring in embodiment 1;

fig. 14 is a schematic structural view of the tuning ball in example 1.

In the figure, an assembled wallboard 1, a wallboard adjusting structure 2, a damper adjuster 3, a damper adjusting groove 4, a wallboard adjusting cavity 201, a damper cylinder 202, an arched adjusting plate 203, a restoring spring 204, an adjusting cylinder 205, a cylinder adjusting groove 206, an assembled adjusting plate 207, an adjusting connecting rod 208, an adjusting sleeve 209, a damper shaft 210, a synchronizing concave wheel 211, a damper spring 212, an adjusting chain 213, an inner angle adjusting column 214, an adjusting handle 215, an inner angle adjusting plate 216, an inner angle adjusting groove 217, an adjusting bearing 218, a damper adjusting spring 219, a damper adjusting cylinder 220, an assembled bearing 221, an assembled adjusting ring 222, an inner concave ring plate 223, an adjusting chute 224, an adjusting ball 225, a large circular groove 226, small circular ring groove 227, shock absorbing connecting cylinder 301, anti-drop circular groove 302, shock absorbing connecting rod 303, shock absorbing connecting plate 304, shock absorbing adjusting hole 305, shock absorbing adjusting column 306, annular adjusting plate 307, shock absorbing spring 308, shock absorbing circular plate 309, shock absorbing sleeve 310, sleeve sliding groove 311, sleeve limiting ring 312, shock absorbing concave disc 313, concave disc spring 314, concave disc movable groove 315, shock absorbing circular protrusion 316, shock absorbing circular groove 317, annular limiting groove 318, shock absorbing limiting ring 319, limiting fixing hole 320, limiting adjusting block 321, limiting adjusting groove 322, limiting adjusting shaft 323, fan ring limiting plate 324, limiting spring 325, limiting partition plate 401, shock absorbing limiting cavity 402, shock absorbing partition plates 403, 404.

Detailed Description

The present invention is further illustrated by the following specific examples, which are not intended to limit the scope of the invention.

Example 1

The assembled anti-seismic wall body has the structure shown in fig. 1-14, wherein an adjusting chain 213 and an assembling adjusting plate 207 are not shown in fig. 12, and a ring groove concave wheel is not shown in fig. 14, and the assembled anti-seismic wall body comprises an assembled wall plate 1 which is matched with each other, a wall plate adjusting cavity 201 is arranged in the assembled wall plate 1, a wall plate adjusting structure 2 is arranged in the wall plate adjusting cavity 201, and the wall plate adjusting structure 2 is matched with a shock absorption connecting structure arranged in the assembled wall plate 1.

The shock absorption connecting structure comprises shock absorption adjusting grooves 4 arranged on the side surfaces of each side of the assembled wallboard 1, at least one shock absorption adjuster 3 with adjustable positions is arranged in the shock absorption adjusting grooves 4, the shock absorption adjuster 3 comprises a shock absorption connecting rod 303 arranged in the shock absorption adjusting grooves 4, a shock absorption annular groove 317 in clearance fit is sleeved on the shock absorption connecting rod 303, and shock absorption annular grooves 317 are provided with shock absorption annular protrusions 316; a shock absorption connecting plate 304 is arranged at one end of the shock absorption connecting rod 303, which is close to the assembled wallboard 1, a shock absorption connecting cylinder 301 which is in clearance fit with the shock absorption connecting rod 303 is arranged on the shock absorption connecting plate 304, and the shock absorption connecting cylinder 301 and the shock absorption connecting rod 303 are arranged on the same side surface of the shock absorption connecting plate 304; the side surface of the shock absorption adjusting groove 4 is provided with a shock absorber adjusting hole matched with the shock absorption adjuster 3.

A shock absorption adjusting column 306 matched with the shock absorption adjusting groove 4 is arranged on the axle center of one side of the shock absorption connecting plate 304 far away from the shock absorption connecting rod 303, and the shock absorption adjusting column 306 is rotationally connected with the shock absorption connecting plate 304; a damping limiting cavity 402 connected with the wallboard adjusting cavity 201 is arranged on one side of the damping adjusting groove 4 close to the wallboard adjusting cavity 201, the damping limiting cavity 402 is connected with the damping adjusting groove 4 through a limiting partition 401, and a strip-shaped limiting groove is arranged on the limiting partition 401; the damping limiting cavity 402 is connected with the wallboard adjusting cavity 201 through a damping partition plate 403, and a strip-shaped damping groove matched with the damping adjusting column 306 is formed in the damping partition plate 403.

The damping adjusting column 306 is sleeved with a damping sleeve 310 matched with the strip-shaped limiting groove, sleeve limiting rings 312 matched with the damping adjusting column 306 are arranged at two ends of the damping sleeve 310, the damping sleeve 310 is sleeved with damping ring plates 309 matched with the damping limiting cavity 402, damping springs 308 matched with the damping sleeve 310 are symmetrically arranged on two sides of the damping ring plates 309, one end, away from the damping ring plates 309, of each damping spring 308 is provided with a ring-shaped adjusting plate 307 matched with the strip-shaped limiting groove and the strip-shaped damping groove, and the ring-shaped adjusting plates 307 are matched with sleeve sliding grooves 311 arranged on the damping sleeve 310 through adjusting ring protrusions.

The damping ring plate 309 comprises a pair of clearance fit damping concave plates 313, the inner concave surfaces of the damping concave plates 313 are oppositely arranged, the damping concave plates 313 are connected through concave plate springs 314 sleeved on the damping sleeve 310, and the outer convex surfaces of the damping concave plates 313 are connected with the damping springs 308; the concave disc spring 314 is connected with the outer ring of the damping concave disc 313; the damping sleeve 310 is provided with a concave disc movable groove 315 matched with the damping concave disc 313, and the concave disc movable groove 315 is provided with a concave disc guide groove matched with the damping concave disc 313; the damping spring 308 is sleeved with a protective cover with two ends respectively connected with the annular adjusting plate 307 and the damping concave disc 313.

The damping connecting cylinder 301 is internally provided with a damping connecting component matched with the damping connecting rod 303, the damping connecting component comprises a damping limiting ring 319, the damping limiting ring 319 is matched with a limiting chute arranged in the damping connecting cylinder 301, and the damping limiting ring 319 is provided with a plurality of limiting fixing holes 320 matched with the damping connecting cylinder 301; the damping limiting ring 319 is provided with at least two limiting adjusting blocks 321 which are symmetrical relative to the center of the damping limiting ring 319, one side, close to the damping limiting ring 319, of each limiting adjusting block 321 is provided with a limiting adjusting groove 322, a limiting adjusting shaft 323 matched with the damping limiting ring 319 is arranged in each limiting adjusting groove 322, and a limiting spring 325 matched with each limiting adjusting block 321 is sleeved on each limiting adjusting shaft 323; the side of the limiting adjusting block 321 far away from the assembled wallboard 1 is provided with a fan ring limiting plate 324, and the fan ring limiting plate 324 is matched with an annular limiting groove 318 arranged on the side surface of the damping ring groove 317.

The damping connecting plate 304 is provided with a damping positioner matched with the damping adjusting groove 4, the damping positioner comprises adjusting positioning blocks arranged on the side surfaces of two ends of the damping connecting plate 304, the adjusting positioning blocks are matched with horn-shaped sliding grooves with gaps uniformly distributed on the side surfaces of the damping adjusting groove 4, and the opening ends of adjacent horn-shaped sliding grooves are connected; a damping chute connected with the horn-shaped chute is arranged on the side surface of the damping adjusting groove 4, and the damping chute is vertically connected with one end of the horn-shaped chute, which is far away from the wallboard adjusting cavity 201; the shock-absorbing connecting plate 304 is provided with a shock-absorbing adjusting hole 305 matched with a shock-absorbing adjusting column 306, and the shock-absorbing adjusting hole 305 is matched with an anti-drop ring groove 302 arranged on the shock-absorbing adjusting column 306.

The wallboard adjusting structure 2 comprises an adjusting cylinder 205 arranged in the wallboard adjusting cavity 201, wherein both ends of the adjusting cylinder 205 are rotationally connected with the wallboard adjusting cavity 201 through adjusting bearings 218, the adjusting cylinder 205 is matched with an assembly adjusting hole arranged on the assembled wallboard 1, one end of the adjusting cylinder 205 is provided with an inner angle adjusting groove 217, an inner angle adjusting column 214 is arranged in the inner angle adjusting groove 217, one end of the inner angle adjusting column 214, far away from the adjusting cylinder 205, is provided with an inner angle adjusting plate 216, and the inner angle adjusting plate 216 is provided with an adjusting handle 215 matched with the assembly adjusting hole; the assembly adjusting hole is internally provided with an assembly bearing 221 matched with the inner angle adjusting column 214, the assembly bearing 221 is matched with an assembly adjusting ring 222 arranged in the assembly adjusting hole, the assembly adjusting ring 222 is internally provided with a plurality of adjusting sliding grooves 224 matched with the assembly bearing 221, two ends of the assembly adjusting ring 222 are respectively provided with an inner concave ring plate 223 matched with the assembly bearing 221, and the inner concave ring plates 223 are in clearance fit with the inner angle adjusting column 214.

The two sides of the wallboard adjusting cavity 201 are respectively provided with an assembling adjusting plate 207 matched with the adjusting cylinders 205, the assembling adjusting plates 207 are provided with damper cylinders 202 corresponding to the damper adjusting grooves 4 one by one, the assembling adjusting plates 207 are connected through the damper cylinders 202, the damper cylinders 202 are provided with arch adjusting plates 203 matched with the damper adjusting columns 306, the top points of the arch adjusting plates 203 are provided with damper shafts 210 matched with the damper cylinders 202, one side of the arch adjusting plates 203 away from the damper cylinders 202 is provided with a position adjusting groove matched with the damper adjusting columns 306, adjusting balls 225 are arranged in the position adjusting groove, the adjusting balls 225 are matched with position adjusting holes arranged in the position adjusting groove in a clearance mode, the adjusting balls 225 are provided with large circular ring grooves 226 matched with the position adjusting holes, small circular ring grooves 227 matched with the position adjusting grooves, and ring groove concave wheels are sleeved in the large circular ring grooves 226 and the small circular ring grooves 227; the adjusting ball 225 is provided with an adjusting sleeve 209 hinged with the adjusting ball 225, the adjusting sleeve 209 is in threaded connection with an adjusting connecting rod 208 arranged on a shock absorption adjusting column 306, and the adjusting connecting rod 208 is hinged with the shock absorption adjusting column 306.

The damping adjusting cylinder 220 corresponding to the damping cylinder 202 is sleeved on the adjusting cylinder 205, the damping adjusting cylinders 220 are all in rotary connection with the adjusting cylinder 205 through damping adjusting springs 219, an adjusting chain 213 connected with the damping cylinder 202 is arranged on the damping adjusting cylinder 220, and the adjusting chain 213 is connected with an adjusting chain ring arranged on the damping cylinder 202; the assembly adjusting plate 207 is provided with a cylinder adjusting groove 206 matched with the shock absorber 202, an adjusting rack is arranged in the cylinder adjusting groove 206 and matched with a synchronous concave wheel 211 arranged at the end part of the shock absorber 202, the synchronous concave wheel 211 is connected with the shock absorber 202 through a synchronous rotating shaft, and the synchronous rotating shaft is connected with a reset spring arranged in the cylinder adjusting groove 206; the assembly adjusting plate 207 is cross-shaped, and the intersection point of the assembly adjusting plate 207 is matched with the adjusting cylinder 205; the damping cylinders 202 are symmetrical relative to the center of the adjusting cylinder 205; the two ends of the arch-shaped adjusting plate 203 are provided with restoring springs 204 connected with the assembling adjusting plate 207, and the arch-shaped adjusting plates 203 are connected through buffer springs 212.

The method for assembling the anti-seismic wall body comprises the following steps of;

step one: the preparation work before the assembly type wallboard 1 is connected;

measuring and calculating the number of the assembled wall plates 1 according to the installation position of the assembled wall bodies, selecting a proper number of shock absorption regulators 3 according to the installation requirement of the assembled wall bodies, adding the shock absorption regulators 3 through part holes which are arranged on the assembled wall plates 1 and matched with the shock absorption regulating grooves 4, the shock absorption limiting cavities 402, the strip type limiting grooves and the strip type shock absorption grooves, arranging the annular regulating plates 307, the shock absorption springs 308 and the shock absorption ring plates 309 of the added shock absorption regulators 3 in the shock absorption limiting cavities 402, adding regulating balls 225 with regulating sleeves 209 through the strip type limiting grooves and the strip type shock absorption grooves, placing the regulating balls 225 into the position regulating grooves through spherical holes at the end parts of the arched regulating plates 203, enabling small circular ring grooves 227 to be matched with openings of the position regulating grooves, enabling the regulating balls 225 to move in the position regulating grooves conveniently, enabling large circular ring grooves 226 to enter large circular ring grooves 225 to be positioned in the position regulating holes, enabling the large circular ring grooves 225 to be positioned in the position regulating holes 226 to be fixed to the position regulating holes, and fixing the large ring grooves 225 to achieve the position of the position regulating holes; the adjusting link 208 is rotated such that the adjusting link 208 is in threaded engagement with the adjusting sleeve 209.

Then according to the installation requirement, adjust the position of shock attenuation regulator 3 through the shock attenuation locator, utilize the instrument to draw shock attenuation connecting plate 304 to make it move to the shock attenuation spout that is perpendicular with loudspeaker type spout along loudspeaker type spout, move shock attenuation regulator 3 along shock attenuation spout direction, adjust the locating piece along shock attenuation spout and remove, annular regulating plate 307 and shock attenuation annular plate 309 on the shock attenuation sleeve 310 roll in the spacing chamber 402 of shock attenuation, shock attenuation sleeve 310 passes through sleeve spacing ring 312 and rotates on shock attenuation adjusting post 306, shock attenuation regulator 3 moves to appointed position, loosen shock attenuation connecting plate 304, the locating piece enters into appointed loudspeaker type spout along the opening of loudspeaker type spout in, adjust all shock attenuation regulators 3 to suitable position according to above-mentioned method, after the shock attenuation regulator 3 adjusts, through the assembly mouth that sets up on assembly wallboard 1 with wallboard regulating chamber 201 and adjusting sleeve 209 fine setting, the assembly mouth is with the spacing chamber 402 one-to-one, adjust the joint length of connecting rod 208 and adjusting sleeve 209 through the assembly mouth, after the adjustment, through welding adjusting rod 208 with adjusting sleeve 306's articulated department, adjust the shock attenuation post's joint structure 2 is adjusted to the shock attenuation ball, the shock attenuation structure is adjusted to the complete shock attenuation structure 2 of adjusting ball 2.

Step two: the mounting and fixing of the assembled wallboard 1;

the positions of the shock absorption connecting cylinder 301 and the shock absorption connecting rod 303 are measured and calculated when the assembled wallboard 1 is connected with an assembled building, a building assembly groove is formed in the marked part, the shock absorption adjusting column 306 is fixed in the building assembly groove, the shock absorption connecting plate 304, the shock absorption connecting cylinder 301 and the shock absorption connecting rod 303 on the shock absorption adjusting column 306 are reserved, and the building spring matched with the shock absorption connecting plate 304 is sleeved on the shock absorption adjusting column 306, so that the shock absorption connecting cylinder 301 and the shock absorption connecting rod 303 on the assembled building correspond to the shock absorption connecting cylinder 301 and the shock absorption connecting rod 303 of the assembled wallboard 1, and the assembled wallboard 1 is convenient to install in the assembled building.

During the installation process of the assembly type wallboard 1, firstly, the construction tool is utilized to limit the damper regulator 3 in the damper regulating groove 4, the adjacent assembly type wallboard 1 is moved to the position to be installed, the limit of the damper regulator 3 is loosened, under the action of the damper spring 308, the damper regulating column 306 pushes the damper connecting plate 304 to move outwards, the damper connecting cylinder 301 and the damper connecting rod 303 are close to the adjacent assembly type wallboard 1, the damper connecting cylinder 301 is combined with the damper connecting rod 303 in the adjacent assembly type wallboard 1, in the combination process, the damper connecting rod 303 extrudes the limit regulating block 321, the damper connecting rod is folded in the damper limiting ring 319 along the limit regulating shaft 323, the damper connecting cylinder 301 is conveniently combined with the damper connecting rod 303, after the damper connecting rod 303 stops, the damper connecting rod 303 is finely regulated through the damper regulating hole on the side surface of the damper regulating groove 4, the damper connecting rod 303 is promoted to extend into the appointed depth of the damper connecting cylinder 301, the damper connecting rod 301 is enabled to be more stable, the rear annular limiting plate 324 is positioned in the 317 through the annular ring boss 316, the lower limit regulating block 321 is enabled to extend into the annular groove 317 along the annular groove 322, and the annular groove 322 is enabled to be connected with the annular groove 322 in the annular groove 317 in a combined mode, and the annular groove 322 is enabled to be connected with the annular groove 322 in a mode of the annular groove 317 by the annular groove to be combined with the annular groove 317; the shock-absorbing stopper 319 is fixed in the shock-absorbing connecting cylinder 301 through the stopper fixing hole 320.

Step three: adjusting the wallboard adjusting structure 2;

after the assembly type wallboard 1 is installed, an assembly type wall body is formed, the limit on the arch-shaped adjusting plate 203 is released, the adjusting handle 215 on the inner angle adjusting plate 216 is rotated, the adjusting handle 215 rotates and adjusts the adjusting cylinder 205 through the inner angle adjusting column 214 in the inner angle adjusting groove 217, the adjusting cylinder 205 rotates in the wallboard adjusting cavity 201 along the adjusting bearing 218, the adjusting cylinder 205 gradually tightens the damping adjusting spring 219 to drive the damping adjusting cylinder 220 to rotate on the adjusting cylinder 205 along the adjusting cylinder groove, the damping adjusting cylinder 220 drives the damping cylinder 202 to move along the cylinder adjusting groove 206 through the adjusting chain 213, the synchronous concave wheels 211 on the synchronous rotating shaft of the damping cylinder 202 are meshed with the adjusting racks, the moving stability of the damping cylinder 202 is guaranteed, the position of the damping cylinder 202 in the assembly adjusting plate 207 is adjusted, the position of the arch-shaped adjusting plate 203 is kept at a proper position through the cooperation of the restoring spring 204 and the damping springs 212, and the damping adjusting sleeves 209 and the adjusting connecting rods 208 are conveniently absorbed and relieved.

After the adjustment of the adjustment cylinder 205 is completed, the adjustment handle 215 is pressed, the assembly bearing 221 moves to the adjustment cylinder 205 along the adjustment sliding groove 224, the inner concave ring plate 223 prevents the assembly bearing 221 from separating from the assembly adjustment ring 222, the inner angle adjustment column 214 moves into the inner angle adjustment groove 217, after the adjustment handle 215 enters into the handle groove of the assembly adjustment hole, the handle groove fixes the inner angle adjustment plate 216 through the adjustment handle 215, the inner angle adjustment plate 216 fixes the adjustment cylinder 205 through the inner angle adjustment column 214, the purpose of adjusting the wallboard adjustment structure 2 is achieved, finally, post treatment is carried out on the assembled wall body after the assembly is completed, and therefore, the assembly wall body installation is completed.

In the assembly type wall body installation process, in order to increase the intensity of the assembly type wall board 1, reinforcing ribs combined with the assembly type building are added in the assembly type wall board, and the reinforcing ribs are in clearance fit with the shock absorption regulator 3 in the shock absorption regulating groove 4, so that the stable intensity of the assembly type wall board 1 is greatly improved.

After the assembly type wall plate 1 is installed, in the use process, when the assembly type wall body is affected by vibration such as earthquake, the adjacent assembly type wall plates 1 are mutually extruded, stretched or misplaced, and the shock absorption connection structures connected with the adjacent assembly type wall plates 1 absorb the vibration in a buffering way, so that the interaction force between the adjacent assembly type wall plates 1 is reduced or counteracted, the safety and the stability of the assembly type wall plate 1 are improved, the influence caused by the factors such as the earthquake is greatly weakened, the concrete process of shock absorption is that the shock drives the shock absorption connection plate 304 to move through the shock absorption connection cylinder 301 and the shock absorption connection rod 303, the shock absorption connection plate 304 drives the shock absorption adjustment column 306 to move in the shock absorption adjustment groove 4 under the limit of the anti-drop ring groove 302, the shock absorption adjusting column 306 drives the shock absorption sleeve 310 to enter and exit the shock absorption adjusting groove 4 in the shock absorption limiting cavity 402 through the strip-shaped limiting groove, or enter and exit the wallboard adjusting cavity 201 in the shock absorption limiting cavity 402 through the strip-shaped shock absorption groove on the shock absorption baffle 403, the shock absorption adjusting column 306 drives the annular adjusting plates 307 on two sides of the shock absorption annular plate 309 to contact with the limiting baffle 401 or the shock absorption baffle 403 through the shock absorption sleeve 310, the shock absorption adjusting column 306 continues to move under vibration, the annular adjusting plate 307 moves towards the shock absorption annular plate 309 along the sleeve sliding groove 311, the shock absorption spring 308 contracts, the shock absorption adjusting column 306 primarily absorbs vibration received by the shock absorption adjusting column 308, the shock absorption spring 308 extrudes the concave disc spring 314 through the shock absorption concave disc 313, the concave disc spring 314 contracts, and the vibration received by the shock absorption adjusting column 306 continues to be absorbed, and the influence of the vibration received by the assembled wallboard 1 is further reduced.

The shock attenuation adjusting column 306 that removes transmits the vibrations effort to the adjusting connection rod 208 articulated with shock attenuation adjusting column 306, shock attenuation adjusting column 306 promotes adjusting connection rod 208 and adjusting sleeve 209 motion, arch regulating plate 203 is rotatory along shock absorption axle 210, arch regulating plate 203 transmits vibrations to buffer spring 212 and restoring spring 204, buffer spring 212 and restoring spring 204 absorb the vibrations effort that receives, utilize each arch regulating plate 203 cooperation buffer spring 212 and restoring spring 204 to cushion and absorb the vibrations effort that receives, thereby reduce the probability that arch regulating plate 203 moved fast in the shock attenuation adjusting chamber, can effectively absorb the vibrations that buffer assembly type wallboard 1 passed through shock attenuation adjusting column 306, reduce the interact effort between assembly type wallboard 1, promote the shock resistance of assembly type wall.

Example 2

A method of assembling an anti-seismic wall comprising the steps of;

Step two: the mounting and fixing of the assembled wallboard 1;

Step three: adjusting the wallboard adjusting structure 2;

Example 3

An assembled earthquake-resistant wall, different from embodiment 1 in that: the shock absorbing adjustment post 306 is connected with a limit adjustment ring disposed within the wallboard adjustment chamber 201.

Example 4

An assembled earthquake-resistant wall, different from embodiment 1 in that: the two ends of the concave plate moving groove 315 are provided with return springs respectively connected with the damping concave plate 313.

Example 5

An assembled earthquake-resistant wall, different from embodiment 1 in that: the end of the shock absorption adjusting column 306 is provided with an anti-drop ring plate matched with the shock absorption adjusting hole 305.

Example 6

An assembled earthquake-resistant wall, different from embodiment 1 in that: both ends of the arched adjusting plate 203 are provided with adjusting rollers which are matched with track adjusting grooves arranged in the wallboard adjusting cavity 201.

The above description is merely illustrative of the preferred embodiments of the present invention and is not intended to limit the invention to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims

1. The utility model provides an assembled antidetonation wall body, includes the assembled wallboard of mutually supporting, its characterized in that, be equipped with wallboard regulation chamber in the assembled wallboard, wallboard regulation intracavity is equipped with wallboard regulation structure, and wallboard regulation structure cooperatees with the shock attenuation connection structure that sets up in the assembled wallboard.

2. The fabricated anti-seismic wall of claim 1, wherein the shock absorbing connection structure comprises shock absorbing adjustment grooves arranged on the side surfaces of the fabricated wall plate, at least one shock absorbing adjuster with adjustable positions is arranged in the shock absorbing adjustment grooves, the shock absorbing adjuster comprises a shock absorbing connecting rod arranged in the shock absorbing adjustment grooves, a shock absorbing annular groove in clearance fit is sleeved on the shock absorbing connecting rod, and shock absorbing annular protrusions are arranged between the shock absorbing annular grooves; the one end that the shock attenuation connecting rod is close to assembled wallboard is equipped with the shock attenuation connecting plate, is equipped with on the shock attenuation connecting plate with shock attenuation connecting rod clearance fit's shock attenuation connecting cylinder, the shock attenuation connecting cylinder sets up on the homonymy side of shock attenuation connecting plate with the shock attenuation connecting rod.

3. The assembled anti-seismic wall of claim 2, wherein a shock absorption adjusting column matched with the shock absorption adjusting groove is arranged on the axle center of one side of the shock absorption connecting plate away from the shock absorption connecting rod, and the shock absorption adjusting column is rotationally connected with the shock absorption connecting plate; the damping adjusting groove is provided with a damping limiting cavity connected with the wallboard adjusting cavity at one side close to the wallboard adjusting cavity, the damping limiting cavity is connected with the damping adjusting groove through a limiting partition board, and a strip-shaped limiting groove is arranged on the limiting partition board; the damping limiting cavity is connected with the wallboard adjusting cavity through a damping partition plate, and a strip-shaped damping groove matched with the damping adjusting column is formed in the damping partition plate.

4. The assembled anti-seismic wall of claim 3, wherein the shock absorption adjusting column is sleeved with a shock absorption sleeve matched with the strip-shaped limiting groove, sleeve limiting rings matched with the shock absorption adjusting column are arranged at two ends of the shock absorption sleeve, the shock absorption sleeve is sleeved with a shock absorption ring plate matched with the shock absorption limiting cavity, shock absorption springs matched with the shock absorption sleeve are symmetrically arranged at two sides of the shock absorption ring plate, one end of each shock absorption spring, far away from the shock absorption ring plate, is provided with a ring-shaped adjusting plate matched with the strip-shaped limiting groove and the strip-shaped shock absorption groove, and the ring-shaped adjusting plate is matched with a sleeve sliding groove arranged on the shock absorption sleeve through an adjusting ring protrusion.

5. The fabricated anti-seismic wall of claim 4, wherein the damping ring plate comprises a pair of clearance fit damping concave plates, the inner concave surfaces of the damping concave plates are arranged oppositely, the damping concave plates are connected through concave plate springs sleeved on the damping sleeve, and the outer convex surfaces of the damping concave plates are connected with the damping springs; the concave disc spring is connected with the outer ring of the damping concave disc; the damping sleeve is provided with a concave disc moving groove matched with the damping concave disc, and the concave disc moving groove is provided with a concave disc guide groove matched with the damping concave disc; the damping spring is sleeved with a protective cover, and two ends of the protective cover are respectively connected with the annular adjusting plate and the damping concave disc.

6. The assembled anti-seismic wall of claim 5, wherein the shock absorption connecting cylinder is internally provided with a shock absorption connecting component matched with the shock absorption connecting rod, the shock absorption connecting component comprises a shock absorption limiting ring, the shock absorption limiting ring is matched with a limiting chute arranged in the shock absorption connecting cylinder, and the shock absorption limiting ring is provided with a plurality of limiting fixing holes matched with the shock absorption connecting cylinder; the damping limiting ring is provided with at least two limiting adjusting blocks which are symmetrical relative to the center of the damping limiting ring, one side, close to the damping limiting ring, of each limiting adjusting block is provided with a limiting adjusting groove, a limiting adjusting shaft matched with the damping limiting ring is arranged in each limiting adjusting groove, and each limiting adjusting shaft is sleeved with a limiting spring matched with each limiting adjusting block; one side of the limiting adjusting block, which is far away from the assembled wallboard, is provided with a fan ring limiting plate, and the fan ring limiting plate is matched with an annular limiting groove arranged on the side surface of the damping ring groove.

7. The assembled anti-seismic wall of claim 6, wherein the shock absorption connecting plate is provided with a shock absorption positioner matched with the shock absorption adjusting groove, the shock absorption positioner comprises adjusting positioning blocks arranged on the side surfaces of two ends of the shock absorption connecting plate, the adjusting positioning blocks are matched with horn-shaped sliding grooves with gaps uniformly distributed on the side surfaces of the shock absorption adjusting groove, and the opening ends of the adjacent horn-shaped sliding grooves are connected; the side surface of the damping adjusting groove is provided with a damping sliding groove connected with the horn-shaped sliding groove, and the damping sliding groove is vertically connected with one end of the horn-shaped sliding groove, which is far away from the wallboard adjusting cavity; the shock absorption connecting plate is provided with a shock absorption adjusting hole matched with the shock absorption adjusting column, and the shock absorption adjusting hole is matched with an anti-drop ring groove arranged on the shock absorption adjusting column.

8. The fabricated anti-seismic wall of claim 7, wherein the wall plate adjusting structure comprises an adjusting cylinder arranged in the wall plate adjusting cavity, both ends of the adjusting cylinder are rotatably connected with the wall plate adjusting cavity through adjusting bearings, the adjusting cylinder is matched with an assembling adjusting hole arranged on the fabricated wall plate, one end of the adjusting cylinder is provided with an inner angle adjusting groove, an inner angle adjusting column is arranged in the inner angle adjusting groove, one end of the inner angle adjusting column away from the adjusting cylinder is provided with an inner angle adjusting plate, and the inner angle adjusting plate is provided with an adjusting handle matched with the assembling adjusting hole; the assembly adjusting hole is internally provided with an assembly bearing matched with the inner angle adjusting column, the assembly bearing is matched with an assembly adjusting ring arranged in the assembly adjusting hole, the assembly adjusting ring is internally provided with a plurality of adjusting sliding grooves matched with the assembly bearing, two ends of the assembly adjusting ring are respectively provided with an inner concave ring plate matched with the assembly bearing, and the inner concave ring plates are in clearance fit with the inner angle adjusting column.

9. The assembled anti-seismic wall of claim 8, wherein the two sides of the wallboard adjusting cavity are provided with assembling adjusting plates matched with adjusting cylinders, the assembling adjusting plates are provided with damping cylinders which are in one-to-one correspondence with the damping adjusting grooves, the assembling adjusting plates are connected through the damping cylinders, the damping cylinders are provided with arched adjusting plates matched with damping adjusting columns, the tops of the arched adjusting plates are provided with damping shafts matched with the damping cylinders, one side of each arched adjusting plate, far away from the damping cylinder, is provided with a position adjusting groove matched with the damping adjusting column, the position adjusting groove is internally provided with an adjusting ball, the adjusting ball is matched with a position adjusting hole which is arranged in the position adjusting groove in a clearance way, the adjusting ball is provided with a large circular groove matched with the position adjusting hole and a small circular groove matched with the position adjusting groove, and the small circular groove is internally sleeved with a circular groove; the adjusting ball is provided with an adjusting sleeve hinged with the adjusting ball, the adjusting sleeve is in threaded connection with an adjusting connecting rod arranged on the damping adjusting column, and the adjusting connecting rod is hinged with the damping adjusting column.

10. The assembled anti-seismic wall of claim 9, wherein the adjusting cylinders are sleeved with damping adjusting cylinders respectively corresponding to the damping cylinders, the damping adjusting cylinders are rotationally connected with the adjusting cylinders through damping adjusting springs, adjusting chains connected with the damping cylinders are arranged on the damping adjusting cylinders, and the adjusting chains are connected with adjusting links arranged on the damping cylinders; the assembly adjusting plate is provided with a cylinder adjusting groove matched with the shock absorption cylinder, an adjusting rack is arranged in the cylinder adjusting groove and is matched with a synchronous concave wheel arranged at the end part of the shock absorption cylinder, the synchronous concave wheel is connected with the shock absorption cylinder through a synchronous rotating shaft, and the synchronous rotating shaft is connected with a reset spring arranged in the cylinder adjusting groove; the assembly adjusting plate is cross-shaped, and the intersection point of the assembly adjusting plate is matched with the adjusting cylinder; the damping cylinders are symmetrical relative to the center of the adjusting cylinder; and the two ends of the arched adjusting plates are provided with restoring springs connected with the assembling adjusting plates, and the arched adjusting plates are connected through buffer springs.