阅读说明：本技术 一种建筑抗震组合装置 (Building anti-seismic combination device ) 是由 汤士东 赵梅红 崔金晶 韩文翔 于 2021-07-21 设计创作，主要内容包括：本发明公开了一种建筑抗震组合装置,其包括：连接套板,呈十字支板架结构,每一侧支板上均开设有方形腔室,所述连接套板横、纵向轴心处均开设有固定腔,用于衔接固定建筑搭杆；抗震装置,由提拉组件、摆压组件所组成,所述提拉组件安装在纵向固定腔外侧,呈上下对称设置两组,所述摆压组件安装在横向固定腔外侧,并嵌入所述方形腔室中；扣件套,固定套在建筑搭杆外侧壁上；外支臂板,用于连接呈直角结构的相邻建筑搭杆上的扣件套；预警装置,用于相邻建筑搭杆所围方形空间的对角上的两组所述外支臂板的衔接。(The invention discloses a building anti-seismic combination device, which comprises: the connecting sleeve plate is of a cross-shaped support plate frame structure, a square cavity is formed in each side support plate, and fixing cavities are formed in the transverse and longitudinal axes of the connecting sleeve plate and used for connecting and fixing the building connecting rod; the anti-vibration device consists of a lifting component and a swinging component, the lifting component is arranged outside the longitudinal fixed cavity and is symmetrically arranged in two groups up and down, and the swinging component is arranged outside the transverse fixed cavity and is embedded into the square cavity; the fastener sleeve is fixedly sleeved on the outer side wall of the building tie rod; the outer supporting arm plate is used for connecting fastener sleeves on adjacent building butt rods in a right-angle structure; and the early warning device is used for connecting the two groups of outer supporting arm plates on the opposite angles of the square space surrounded by the adjacent building butt rods.)

1. The utility model provides a building antidetonation composite set which characterized in that: it includes:

the connecting sleeve plate (2) is of a cross-shaped support plate frame structure, a square cavity is formed in each side support plate, and fixing cavities are formed in the transverse and longitudinal axes of the connecting sleeve plate (2) and are used for connecting and fixing the building bridging rod (1);

the anti-seismic device (3) consists of a lifting assembly (7) and a swinging assembly (8), the lifting assembly (7) is arranged on the outer side of the longitudinal fixed cavity and is arranged in two groups in a vertical symmetry manner, and the swinging assembly (8) is arranged on the outer side of the transverse fixed cavity and is embedded into the square cavity;

the fastener sleeve (4) is fixedly sleeved on the outer side wall of the building tie rod (1);

the outer supporting arm plate (5) is used for connecting fastener sleeves (4) on adjacent building access rods (1) in a right-angle structure;

and the early warning device (6) is used for connecting two groups of outer supporting arm plates (5) on the opposite angles of the square space surrounded by the adjacent building butt straps (1).

2. A building earthquake-resistant combination according to claim 1, characterized in that: and the adjacent connecting sleeve plates (2) are arranged in a vertical structure.

3. A building earthquake-resistant combination according to claim 1, characterized in that: the early warning device (6) comprises:

the two groups of inclined plates (61) are arranged on one group of the outer supporting arm plates (5) and are hinged to the central plate wall of the outer supporting arm plates (5);

the two groups of support plates (63) are arranged in parallel and are used for respectively hinging and connecting the corresponding inclined plates (61) at the upper left side and the lower right side;

the elastic rod piece (64) connects the outer arm plates (5) corresponding to the left upper side and the right lower side in a hinged connection mode and is arranged between the support plates (63) in a parallel structure;

rigid ropes (62) for independently connecting the two groups of inclined plates (61) on the outer arm plate (5) on each side;

and the tension detector (65) is used for detecting the tensile strength of the rigid rope (62).

4. A building earthquake-resistant combination according to claim 1, characterized in that: the pendulum pressing assembly (8) comprises:

the anti-seismic plate sleeve (84) is fixedly sleeved on the end of the building beam embedded in the transverse fixed cavity, and the upper side corner end and the lower side corner end of the anti-seismic plate sleeve are both provided with a first roller (85);

the swing pressure bar plate (81) is arranged symmetrically up and down, the swing pressure bar plate (81) consists of a right-angle bar and a blunt angle plate, the left end of the right-angle bar is fixed with the upper end of the blunt angle plate and is hinged to the cavity wall of the square cavity side and is parallel and level to the left side plate of the blunt angle plate, the left and right inclined walls of the inner side of the blunt angle plate are provided with anti-seismic seam cavities (82), the left and right cavity walls of the anti-seismic seam cavities (82) are provided with touch alarms (83), and the left and right ends of the blunt angle plate are respectively connected with a connecting seat near the center of an anti-seismic plate sleeve (84) through a traction spring (86);

the push-pull connecting rods (87) are symmetrically arranged up and down, the left ends of the push-pull connecting rods are hinged to the center of the front side panel of the right convex plate in the anti-seismic plate sleeve (84), and the right ends of the push-pull connecting rods are hinged to the right ends of the upper right angle rod and the lower right angle rod respectively;

and the engaging component (9) is used for connecting the anti-seismic plate sleeves (84) arranged on the left and right building posts.

5. A building earthquake-resistant combination according to claim 4, characterized in that: the right-angle plate is an isosceles right-angle plate, and the obtuse angle degree of the obtuse-angle plate is 120 degrees.

6. A building earthquake-resistant combination according to claim 4, characterized in that: the included angle degree between the upper drawing spring and the lower drawing spring is 60 degrees.

7. A building earthquake-resistant combination according to claim 4, characterized in that: the included angle between the upper push-pull connecting rod (87) and the lower push-pull connecting rod is 90 degrees.

8. A building earthquake-resistant combination according to claim 4, characterized in that: the engagement assembly (9) comprises:

the left side fixing disc I (91) is fixed with the right end face of the left side anti-seismic plate sleeve, the right side fixing disc I is fixed with the left end face of the right side anti-seismic plate sleeve, transverse fixing columns (93) are respectively fixed on the left side fixing disc I and the right side fixing disc I, are arranged in a circumferential manner, are four groups, and are installed in a staggered manner;

two fixed disks (92) are arranged in parallel on the left and right, the left fixed disk (92) is sleeved on the outer side walls of the four groups of fixed columns (93) arranged on the left side and is in sliding connection, the right side surface of the left fixed disk is fixed with the left ends of the four groups of fixed columns (93) arranged on the right side, the right fixed disk (92) is sleeved on the outer side walls of the four groups of fixed columns (93) arranged on the right side and is in sliding connection, the left side surface of the right fixed disk is fixed with the left ends of the four groups of fixed columns (93) arranged on the left side, all the fixed columns (93) between the left fixed disk and the right fixed disk (92) are sleeved with buffer springs (94), and T-shaped sliding sleeves (95) are fixed on the annular surface walls on the upper side and the lower side of the fixed disk (92);

the left end and the right end of the connecting spring (96) are respectively connected with the left fixed disc I (91) and the right fixed disc I (91);

arc shell cover (97), its internally mounted has horizontal traveller (98), T type sliding sleeve (95) cover sliding connection on horizontal traveller (98) lateral wall.

9. A building earthquake-resistant combination according to claim 1, characterized in that: the pulling assembly (7) comprises:

a lifting plate seat (71), wherein a central plate seat at the upper end of the lifting plate seat is fixed with the end of the building butt rod, and longitudinal strip-shaped openings are formed in the left side plate and the right side plate;

the limiting cover (72) is fixed in the longitudinal strip-shaped opening, and an arc-shaped opening is formed in the shell cover of the limiting cover (72) close to the outer side;

the second roller (73) is hinged to the right end of the right-angle rod and is embedded into the limiting cover (72) to be connected in a rolling mode;

and the lifting spring (74) is arranged on the groove wall of the lower end of the lifting plate seat, and the lower end of the lifting spring is connected with the upper shell wall of the arc-shaped shell cover (97).

10. A building earthquake-resistant combination according to claim 9, characterized in that: the diameter of the second roller (73) is smaller than the distance between the upper and lower parallel shell walls of the limiting cover (72) and the left and right arc-shaped shell covers.

Technical Field

The invention relates to the technical field of building structures, in particular to a building anti-seismic combination device.

Background

In the construction process, a working platform is erected through a scaffold and a lapping rod, so that the smooth construction process is ensured; the scaffold is divided into an outer scaffold and an inner scaffold according to the erected positions; the scaffold can be divided into a wood scaffold, a bamboo scaffold and a steel pipe scaffold according to different materials; the scaffold is divided into a vertical rod type scaffold, a bridge type scaffold, a door type scaffold, a suspension type scaffold, a hanging type scaffold, a lifting type scaffold and a climbing type scaffold according to the structural form. Wherein, current steel pipe scaffold puts up comparatively complicacy, dismantles inconveniently, influences the efficiency of construction, and does not possess the anti-vibration function, when meetting the vibration, its whole set up the range of rocking can grow gradually, leads to the stress action intensity that receives of connecting fastener department great, easily makes fixed bolt produce the pine and falls, causes stability relatively poor, and the shock resistance is lower, leads to the operational environment comparatively dangerous.

Accordingly, one skilled in the art provides a building earthquake-resistant combination device to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a building seismic assembly, comprising:

the connecting sleeve plate is of a cross-shaped support plate frame structure, a square cavity is formed in each side support plate, and fixing cavities are formed in the transverse and longitudinal axes of the connecting sleeve plate and used for connecting and fixing the building connecting rod;

the anti-vibration device consists of a lifting component and a swinging component, the lifting component is arranged outside the longitudinal fixed cavity and is symmetrically arranged in two groups up and down, and the swinging component is arranged outside the transverse fixed cavity and is embedded into the square cavity;

the fastener sleeve is fixedly sleeved on the outer side wall of the building tie rod;

the outer supporting arm plate is used for connecting fastener sleeves on adjacent building butt rods in a right-angle structure;

and the early warning device is used for connecting the two groups of outer supporting arm plates on the opposite angles of the square space surrounded by the adjacent building butt rods.

As a preferable technical scheme of the invention, the adjacent connecting sleeve plates are arranged in a vertical structure.

As a preferred technical solution of the present invention, the early warning device includes:

two groups of inclined plates are arranged on one group of the outer supporting arm plates and are hinged to the central plate wall of the outer supporting arm plate;

the two groups of support plates are arranged in parallel and are used for respectively and hingedly connecting the corresponding inclined plates at the upper left side and the lower right side;

the elastic rod piece connects the outer arm plates corresponding to the left upper side and the right lower side in a hinged connection mode and is arranged between the support plates in a parallel structure;

the rigid rope is used for independently connecting the two groups of inclined plates on the outer supporting arm plate on each side;

and the tension detector is used for detecting the tensile strength of the rigid rope.

As a preferred technical solution of the present invention, the swing pressing assembly includes:

the anti-seismic plate sleeve is fixedly sleeved on the end head of the building overlapping rod embedded in the transverse fixing cavity, and the upper side corner end and the lower side corner end of the anti-seismic plate sleeve are respectively provided with a first roller;

the swing pressure rod plates are arranged symmetrically up and down, each swing pressure rod plate consists of a right-angle rod and a blunt angle plate, the left end of each right-angle rod is fixed with the upper end of each obtuse angle plate, and the right ends of the right-angle rods are hinged to the side wall of the square cavity and are flush with the left side wall of the blunt angle plate, anti-seismic seam cavities are formed in left and right inclined walls of the inner side of each obtuse angle plate, touch alarms are mounted on the left and right cavity walls of each anti-seismic seam cavity, and the left and right ends of each obtuse angle plate are respectively connected with a connecting seat, close to the center, of each anti-seismic plate sleeve through a traction spring;

the push-pull connecting rods are arranged in an up-down symmetrical manner, the left ends of the push-pull connecting rods are hinged to the center of the front side panel of the right protruding plate in the anti-seismic plate sleeve, and the right ends of the push-pull connecting rods are hinged to the right ends of the upper right angle rod and the lower right angle rod respectively;

and the linking assembly is used for connecting the anti-seismic plate sleeves installed on the left and right building bridging rods.

As a preferred technical scheme of the invention, the right-angle plates are isosceles right-angle plates, and the obtuse angle degree of each obtuse-angle plate is 120 degrees.

As a preferred technical scheme of the invention, the included angle degree between the upper drawing spring and the lower drawing spring is 60 degrees.

As a preferred technical scheme of the invention, the included angle degree between the upper push-pull connecting rod and the lower push-pull connecting rod is 90 degrees.

As a preferred embodiment of the present invention, the engagement assembly includes:

the left side fixing disc I is fixed with the right end face of the left side anti-seismic plate sleeve, the right side fixing disc I is fixed with the left end face of the right side anti-seismic plate sleeve, transverse fixing columns are respectively fixed on the left side fixing disc I and the right side fixing disc I, four groups of fixing columns are circumferentially arranged and are installed in a staggered mode;

two groups of fixed disks are arranged in parallel from left to right, the left side of each fixed disk is sleeved on the outer side walls of the four groups of fixed columns arranged on the left side in a sliding connection mode, the right side of each fixed disk is fixed with the left ends of the four groups of fixed columns arranged on the right side, the right side of each fixed disk is sleeved on the outer side walls of the four groups of fixed columns arranged on the right side in a sliding connection mode, the left side of each fixed disk is fixed with the left ends of the four groups of fixed columns arranged on the left side, all the fixed columns between the left side of each fixed disk and the right side of each fixed disk are sleeved with buffer springs, and T-shaped sliding sleeves are fixed on annular surface walls on the upper portion and the lower portion of each fixed disk;

the left end and the right end of the connecting spring are respectively connected with the left fixed disk I and the right fixed disk I;

the arc shell sleeve is internally provided with a transverse sliding column, and the T-shaped sliding sleeve is connected on the outer side wall of the transverse sliding column in a sliding mode.

As a preferred aspect of the present invention, the pulling assembly includes:

the upper central plate seat of the lifting plate seat is fixed with the end of the building butt rod, and the left side plate and the right side plate are both provided with longitudinal strip-shaped openings;

the limiting cover is fixed in the longitudinal strip-shaped opening, and an arc-shaped opening is formed in the limiting cover housing on the outer side;

the second idler wheel is hinged to the right end of the right-angle rod and embedded into the limiting cover to be connected in a rolling mode;

and the lifting spring is arranged on the groove wall of the lower end of the lifting plate seat, and the lower end of the lifting spring is connected with the upper shell wall of the arc-shaped shell cover.

As a preferred technical scheme of the invention, the diameter of the two rollers is smaller than the distance between the upper and lower parallel shell walls of the limiting cover and the left and right arc-shaped shell covers.

Compared with the prior art, the invention provides a building anti-seismic combination device, which has the following beneficial effects:

1. according to the invention, the anti-seismic device is preset in the connecting plate sleeve, the building attachment rod is only required to be screwed into the fixing cavities in the anti-seismic plate sleeve and the connecting plate sleeve, the fastener sleeve is sleeved on the building attachment rod, and the building attachment rod is connected and fixed through the outer arm plate, so that the mounting of the building attachment rods on a group of anti-seismic devices is completed quickly, and the mounting and dismounting efficiency is improved.

2. According to the invention, the stability of a building frame built by a building connecting rod and an evacuation signal can be rapidly obtained through the early warning device and the touch alarm, wherein the anti-seismic device is formed by matching the lifting component and the swinging component, so that the swinging component can be promoted to contract inwards when the lifting component is pulled outwards, then the adjacent connecting sleeve plates in the structure are vertically arranged, so that the lifting component and the swinging component are respectively arranged at two ends of a group of building connecting rods, and then the square frame surrounded by four groups of adjacent anti-seismic devices and the building connecting rods forms a clip structure, so that the building connecting rods are mutually transmitted through the building connecting rod, the lifting component and the swinging component to be instantly offset when swinging, and then the swinging amplitude of the building connecting rod is reduced through elastic buffering of the pulling spring and the lifting spring in the connecting component, and can reset fast under the cooperation of pendulum depression bar board, keep building the stability of building the pole.

Drawings

FIG. 1 is a schematic structural view of a building earthquake-resistant combination device of the present invention;

FIG. 2 is an enlarged view of the structure of the anti-seismic device of the present invention;

FIG. 3 is an enlarged view of a portion of the engagement assembly and the pulling assembly of the present invention;

FIG. 4 is a schematic view of the stress analysis in the anti-seismic assembly of the present invention;

in the figure: 1. building a tie rod; 2. connecting the sleeve plate; 3. an anti-seismic device; 4. a fastener sleeve; 5. an outer support arm plate; 6. an early warning device; 7. a pull-up assembly; 8. a swing pressing component; 9. an engagement assembly; 61. an inclined plate; 62. a rigid cord; 63. a support plate; 64. an elastic rod member; 65. a tension detector; 71. a pull plate seat; 72. a limiting cover; 73. a second roller; 74. lifting the spring; 81. a swing pressing rod plate; 82. an anti-seismic seam cavity; 83. touching an alarm; 84. an anti-seismic plate sleeve; 85. a first roller; 86. a tension spring; 87. a push-pull connecting rod; 91. a first fixed disc; 92. a second fixed disc; 93. fixing a column; 94. a buffer spring; 95. a T-shaped sliding sleeve; 96. connecting the springs; 97. an arc-shaped shell sleeve; 98. a slide column.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution: a building seismic assembly, comprising:

the connecting sleeve plate 2 is of a cross-shaped support plate frame structure, a square cavity is formed in each side support plate, and fixing cavities are formed in the transverse and longitudinal axis positions of the connecting sleeve plate 2 and are used for connecting and fixing the building bridging rod 1;

the anti-seismic device 3 consists of a lifting component 7 and a swinging and pressing component 8, the lifting component 7 is arranged outside a longitudinal fixed cavity and is symmetrically arranged in two groups up and down, the swinging and pressing component 8 is arranged outside a transverse fixed cavity and is embedded into the square cavity, so that the front side and the rear side of the swinging and pressing component are attached to and slide on the side wall of the square cavity, the side wall of the square cavity limits the swinging and pressing component, the clamping strength of the swinging and pressing component on the front side and the rear side is increased, the swinging and pressing component is not prone to inclination, and the swinging and pressing component is stable in working operation on a vertical reference surface;

the fastener sleeve 4 is fixedly sleeved on the outer side wall of the building butt 1;

the outer supporting arm plates 5 are used for connecting fastener sleeves 4 on adjacent building access rods 1 in a right-angle structure, as the best embodiment, the included angle degree between each group of the outer supporting arm plates and the horizontal plane is 45 degrees, so that the outer supporting arm plates and the building access rods are in a right-angle isosceles triangle structure, and when the building access rods vibrate, stress on a longitudinal reference surface borne by the building access rods is uniformly transmitted to the outer supporting arm plates, so that the outer supporting arm plates are prevented from being stressed unevenly to generate cracks or fractures;

and the early warning device 6 is used for connecting two groups of the outer support arm plates 5 on the diagonal angle of the square space surrounded by the adjacent building bridging rods 1 to support the outer support arm plates in an auxiliary manner, so that the outer support arm plates with square structures outside the anti-seismic device are prevented from generating fusiform deformation.

In this embodiment, the adjacent connecting sleeve plates 2 are arranged in a vertical structure, so that the lifting assembly and the swinging assembly are respectively installed at two ends of a group of building butt, and further, the four groups of building butt on the same plane in a group of anti-seismic devices are subjected to inward contraction stress and outward expansion stress, and are perpendicular to each other.

In this embodiment, the early warning device 6 includes:

two groups of inclined plates 61 are arranged on one group of the outer supporting arm plates 5 and are hinged to the central plate wall of the outer supporting arm plates 5;

two groups of support plates 63 are arranged in parallel and are used for respectively and hingedly connecting the corresponding inclined plates 61 at the upper left side and the lower right side;

elastic rods 64 which connect the corresponding outer arm plates 5 at the upper left side and the lower right side in a hinged connection mode and are arranged between the support plates 63 in a parallel structure;

a rigid rope 62 for connecting the two sets of the inclined plates 61 on the outer arm plate 5 on each side independently;

a tension detector 65 for detecting the tensile strength of the rigid cord 62;

monitoring the tensile strength coefficient of the rigid rope in real time through a tension detector so as to judge the deformation amount of the elastic rod piece;

as the best embodiment, the tension detector is provided with an early warning device, the maximum stretching strength value is set on the tension detector, and when the maximum stretching strength value is reached, an alarm is given, wherein when the rigid rope is broken, the rigid rope can be supported by the inclined plates in a parallel structure, so that the collapse time of the building support is prolonged, and the evacuation time of people is prolonged.

In this embodiment, the swing pressing assembly 8 includes:

the anti-seismic plate sleeve 84 is fixedly sleeved on the end of the building bar embedded in the transverse fixing cavity, and the upper side corner end and the lower side corner end of the anti-seismic plate sleeve are provided with first rollers 85;

the swing pressure rod plates 81 are symmetrically arranged up and down, each swing pressure rod plate 81 consists of a right-angle rod and a blunt angle plate, the left end of each right-angle rod is fixed with the upper end of each obtuse angle plate, and is hinged to the cavity wall of the square cavity side and is flush with the left side plate of the blunt angle plate, the left and right inclined walls of the inner side of each obtuse angle plate are provided with anti-seismic seam cavities 82, the left and right cavity walls of each anti-seismic seam cavity 82 are provided with touch alarms 83, and the left and right ends of each obtuse angle plate are respectively connected with connecting seats near the centers of anti-seismic plate sleeves 84 through traction springs 86;

the push-pull connecting rods 87 are symmetrically arranged up and down, the left ends of the push-pull connecting rods are hinged to the center of the front side panel of the right protruding plate in the anti-seismic plate sleeve 84, and the right ends of the push-pull connecting rods are hinged to the right ends of the upper right angle rod and the lower right angle rod respectively;

the engaging component 9 is used for connecting the anti-seismic plate sleeves 84 arranged on the left and right building bridging rods;

as a best embodiment, the stress deformation direction of the components in the group of anti-seismic devices is that when the left building butt is subjected to a left traction stress, the left anti-seismic plate sleeve is driven to move left, meanwhile, a left roller on the anti-seismic device pushes a left side top to an obtuse angle plate left side plate to drive a right angle rod fixed on the right side plate to rotate downwards and push an upper lifting plate seat downwards, so that the building butt in the upper longitudinal direction is subjected to a downward traction stress, in the method, a left lower right angle rod pushes a lower lifting plate seat to enable a building butt in the lower longitudinal direction to be subjected to an upward traction stress, then, the upper lifting plate seat and the lower lifting plate seat drive the right angle rod in the upper longitudinal direction and the lower longitudinal direction to rotate downwards and the obtuse angle plate left side plate on the right side plate push the anti-seismic plate sleeve to move rightwards, so that the right building butt generates a right pushing stress, and then the stress between the building butt is mutually counteracted by matching with the adjacent anti-seismic devices, the stability of the building tie rod is quickly recovered, and the building tie rod is prevented from continuously shaking;

as the best embodiment, the fixed cavity walls in the interior of the anti-seismic half sleeve and the connecting sleeve plate are both provided with threaded walls, and the end of the building tie rod is provided with a threaded rod end so as to be convenient for quick installation and disassembly;

in the best embodiment, when the touch alarm continuously alarms, the signal of evacuation is necessary.

In this embodiment, the right-angle plate is an isosceles right-angle plate, and the obtuse angle degree of the obtuse-angle plate is 120 °.

In this embodiment, the angle between the upper and lower pulling springs is 60 °.

In this embodiment, the angle between the upper and lower push-pull links 87 is 90 °.

In this embodiment, the engaging assembly 9 includes:

the left fixed disc I91 is fixed with the right end face of the left anti-seismic plate sleeve, the right fixed disc I is fixed with the left end face of the right anti-seismic plate sleeve, transverse fixed columns 93 are respectively fixed on the left fixed disc I and the right fixed disc I, are arranged in a circumferential manner, are arranged in four groups, and are installed in a staggered manner;

two fixed disks 92 are arranged in parallel left and right, the left fixed disk 92 is sleeved on the outer side walls of the four groups of fixed columns 93 arranged on the left side and is in sliding connection, the right side surface of the left fixed disk is fixed with the left ends of the four groups of fixed columns 93 arranged on the right side, the right fixed disk 92 is sleeved on the outer side walls of the four groups of fixed columns 93 arranged on the right side and is in sliding connection, the left side surface of the right fixed disk is fixed with the left ends of the four groups of fixed columns 93 arranged on the left side, all the fixed columns 93 between the left fixed disk 92 and the right fixed disk 92 are sleeved with buffer springs 94, and T-shaped sliding sleeves 95 are fixed on the annular surface walls above and below the fixed disk 92;

the left end and the right end of the connecting spring 96 are respectively connected with the left fixed disc I91 and the right fixed disc I91;

the arc-shaped shell 97 is internally provided with a transverse sliding column 98, and the T-shaped sliding sleeve 95 is sleeved on the outer side wall of the transverse sliding column 98 and is connected in a sliding manner;

as the best embodiment, the left side fixing disk I drives the right side fixing disk II to slide left and right along the outer surface of the right side fixing column, the right side fixing disk I drives the left side fixing disk II to slide left and right along the outer surface of the left side fixing column, the left and right shaking amplitude of the left and right building access rods is reduced through the extrusion buffer spring and the elastic reset function of the extrusion buffer spring, and the stability of the left and right building access rods is fast acetin.

In this embodiment, the pulling assembly 7 includes:

a lifting plate seat 71, wherein the upper central plate seat of the lifting plate seat is fixed with the end of the building butt rod, and the left side plate and the right side plate are both provided with longitudinal strip-shaped openings;

the limiting cover 72 is fixed in the longitudinal strip-shaped opening, and an arc-shaped opening is formed in the shell cover of the limiting cover 72 close to the outer side;

the second roller 73 is hinged to the right end of the right-angle rod and is embedded into the limit cover 72 to be connected in a rolling mode;

a lifting spring 74 mounted on the groove wall of the lower end of the lifting plate seat, and the lower end of the lifting spring is connected with the upper shell wall of the arc-shaped shell cover 97;

as the best embodiment, the sliding columns are arranged in multiple groups along the curved surface of the arc wall of the arc shell sleeve, and the correspondingly arranged T-shaped sliding sleeves are correspondingly arranged in multiple groups along the curved surface of the arc wall on the two outer sides of the fixed disc, so that the firmness strength between the sliding columns and the push-pull assembly is improved.

In this embodiment, the diameter of the second roller 73 is smaller than the distance between the upper and lower parallel housing walls of the limiting cover 72 and the left and right arc-shaped housing covers.

When the building is implemented, firstly, connecting sleeve plates are horizontally placed, one end of a building rod is embedded into a horizontal fixing cavity and fixed inside an anti-seismic plate sleeve, the building rods are sequentially installed until four groups of horizontal fixing cavities on a horizontal plane are fixed, then longitudinal building rods are continuously embedded into upper and lower longitudinal fixing cavities and are respectively fixed with a central plate seat of a lifting plate seat, fastener sleeves are fixedly sleeved on each group of building rods, fastener sleeves on adjacent building rods in a vertical structure are connected through an outer arm plate, and the steps are sequentially repeated, wherein adjacent connecting sleeve plates are placed and installed in a vertical structure, and when a group is formed, two groups of early warning devices are installed when a square space surrounded by four adjacent groups of anti-seismic devices is formed, and are installed in a crossed mode until the height required to be built is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.