CN112854530A

CN112854530A - Assembled building component

Info

Publication number: CN112854530A
Application number: CN202110053944.5A
Authority: CN
Inventors: 刘昕; 梅成林; 刘伟
Original assignee: Tianjin Shengtai Construction Engineering Group Co ltd
Current assignee: Tianjin Shengtai Construction Engineering Group Co ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2021-05-28

Abstract

The utility model belongs to the technical field of the technique of assembly type structure installation and specifically relates to an assembly type building component is related to, it includes a plurality of wall body, it is adjacent be provided with the connecting piece between the wall body, the connecting piece includes left connecting block and right connecting block, left connecting block and wall body fixed connection, right connecting block and adjacent wall body fixed connection, be provided with damping device between left connecting block and the right connecting block, damping device includes the shock attenuation groove, snubber block and shock absorber post, the shock attenuation groove is seted up in the one side of keeping away from the wall body at left connecting block, snubber block and right connecting block fixed connection, the cooperation of pegging graft of snubber block and shock attenuation groove, the shock absorber post is located the shock attenuation groove, the both ends of shock absorber post respectively with shock attenuation groove. In this application, carry out elastic connection through the connecting piece messenger between the adjacent wall body, have the effect that promotes wall body concatenation back stability.

Description

Assembled building component

Technical Field

The application relates to the technical field of assembly type building installation, in particular to an assembly type building component.

Background

At present, with the rapid development of the building industry, the more tired and more violent the development of the assembly type buildings in China, the assembly type buildings are divided into five types of block buildings, plate buildings, box buildings, framework plate buildings and lifting plate and lifting layer buildings according to the forms and construction methods of prefabricated parts, wherein the plate buildings are the most common mode in the existing assembly type buildings.

In order to facilitate transportation of wallboards during construction of an existing board type building, the wallboards are usually cut into separate units for production, the wallboards are transported to a construction site by a vehicle after the production is finished in a factory, then the boards are hoisted and spliced together on the site, finally the two wallboards are riveted together by a connecting piece, and two adjacent wallboards are connected and fixed in a riveting mode to form the complete wallboard.

Two wall body locks can produce the not firm phenomenon of locking, and the riveting can cause the wall body coupling insecure, and wall body concatenation effect is poor, and the riveting between the wall body is rigid connection, can lead to connecting not hard up scheduling problem when the wall body receives outside vibrations.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because through the riveted rigid connection mode, make two wall body rigid connection fixed, when the wall body received outside vibrations, can lead to being connected between wall body and the wall body not hard up, make the stability end after the wall body concatenation.

Disclosure of Invention

In order to promote the stability behind the wall body concatenation, this application provides an assembled building element.

The application provides an assembled building element adopts following technical scheme:

the utility model provides an assembled building component, including a plurality of wall body, it is adjacent be provided with the connecting piece between the wall body, the connecting piece includes left connecting block and right connecting block, left connecting block and wall body fixed connection, right connecting block and adjacent wall body fixed connection, be provided with damping device between left connecting block and the right connecting block, damping device includes the shock attenuation groove, snubber block and shock attenuation post, the one side of wall body is kept away from at left connecting block is seted up to the shock attenuation groove, snubber block and right connecting block fixed connection, the cooperation of pegging graft of snubber block and shock attenuation groove, the shock attenuation post is located the shock attenuation groove, the both ends of shock attenuation post respectively with shock attenuation groove and snubber block fixed connection.

By adopting the technical scheme, the connecting piece is arranged between the adjacent walls, the connecting piece comprises the left connecting block and the right connecting block, then the left connecting block is fixedly connected with the walls, the right connecting block is fixedly connected with the adjacent walls, the damping device is arranged between the left connecting block and the right connecting block, and the damping device is used for connecting the left connecting block and the right connecting block; when the wall body installation finishes, a wall body receives when external impact takes place vibrations, vibrations are transmitted to adjacent wall body through the connecting piece from a wall body, the wall body drives left connecting block or right connecting block vibrations, make between snubber block and the snubber channel because vibrations take place relative motion, because the both ends of shock attenuation post respectively with snubber channel and snubber block fixed connection, utilize the shock attenuation post to slow down the vibrations transmission between snubber channel and the snubber block, thereby reduce the vibrations transmission between the adjacent wall body, carry out elastic connection through the connecting piece messenger between the adjacent wall body, reach the purpose that promotes wall body concatenation back stability.

Preferably, the shock attenuation post that the shock attenuation post was made for the rubber material, the equal fixedly connected with spliced pole in both ends of shock attenuation post, the spliced pole of shock attenuation post one end all with snubber block fixed connection, the spliced pole of the other end all with damping tank fixed connection.

Through adopting above-mentioned technical scheme, through the shock attenuation post that sets up rubber material to make the both ends of shock attenuation post respectively with snubber block and shock attenuation groove fixed connection through the spliced pole, through the shock attenuation post that sets up rubber material, promote the shock attenuation effect of shock attenuation post, promote the convenience when shock attenuation post is connected with snubber block and shock attenuation groove respectively through setting up the spliced pole simultaneously.

Preferably, a damping cavity is formed in the damping column, and a damping spring is fixedly connected in the damping cavity.

Through adopting above-mentioned technical scheme, through seting up the shock attenuation chamber to at the fixed damping spring that sets up of shock attenuation intracavity, when shock attenuation post buffering shock attenuation, further promote the shock attenuation effect of shock attenuation post.

Preferably, be provided with fixed subassembly between spliced pole and the shock attenuation post, fixed subassembly includes fixed slot and fixed plate, and the fixed slot is seted up in the shock attenuation post, and the fixed plate is located the fixed slot, fixed plate and fixed slot fixed connection, fixed plate and spliced pole fixed connection.

Through adopting above-mentioned technical scheme, because the fixed slot is seted up in the shock attenuation post, fixed plate and fixed slot fixed connection to spliced pole and fixed plate fixed connection make the spliced pole be connected fixedly through the fixed plate that is located the fixed slot and shock attenuation post, make spliced pole and shock attenuation post stable connection.

Preferably, be provided with the buffering subassembly between snubber block and the snubber channel, the buffering subassembly includes dashpot, slider, fixed block and buffer spring, and the lateral wall at the snubber channel is seted up to the dashpot, slider and snubber block fixed connection, slider are located the dashpot, slider and dashpot sliding connection, fixed block and dashpot fixed connection, and buffer spring is located between fixed block and the slider, buffer spring's both ends respectively with fixed block and slider fixed connection.

Through adopting above-mentioned technical scheme, when taking place to slide because vibrations between snubber block and the shock attenuation groove, because slider and snubber block fixed connection, and the slider be located the dashpot and with dashpot sliding connection, so the snubber block drives the slider and slides in the dashpot, the fixed block be located the dashpot and with dashpot fixed connection, and buffer spring's both ends respectively with fixed block and slider fixed connection, when the slider slides in the dashpot, the slider drives buffer spring and takes place elastic deformation, through setting up the buffering subassembly, further promote the buffering shock attenuation effect between snubber block and the shock attenuation groove.

Preferably, be provided with the installation component between connecting piece and the wall body, the installation component includes mounting groove and installation piece, and the mounting groove is seted up at the lateral wall that the connecting piece is close to the wall body, installation piece and wall body fixed connection, installation piece and mounting groove installation cooperation, are provided with the dowel subassembly between installation piece and the mounting groove.

Through adopting above-mentioned technical scheme, when the connecting piece with link to each other the wall connection fixed, owing to installation piece and wall body fixed connection, so remove the wall body and drive the installation piece and remove, owing to installation piece and mounting groove cooperation of pegging graft, so when the wall body is connected with the connecting piece, the installation piece is pegged graft in the mounting groove to be provided with the dowel subassembly between installation piece and the mounting groove, utilize the dowel subassembly with the wall body fixed with the connecting piece installation, promote the stability when wall body and connecting piece are connected.

Preferably, the dowel assembly comprises a splicing rib and a dowel hole, the splicing rib is fixedly connected with the mounting block, the dowel hole is formed in the bottom wall of the mounting groove, the splicing rib is spliced and matched with the dowel hole, and a grouting device is arranged between the splicing rib and the dowel hole.

Through adopting above-mentioned technical scheme, owing to peg graft muscle and installation piece fixed connection, the diapire at the mounting groove is seted up in the dowel hole to peg graft muscle and dowel hole grafting cooperation, so when the installation piece is pegged graft in the mounting groove, the installation piece drives the grafting muscle and pegs graft in the dowel hole, and set up grouting device between grafting muscle and the dowel hole and fix, it is fixed with the mounting groove connection to set up the grafting muscle and the dowel hole, promote the stability after installation piece and the mounting groove are connected.

Preferably, the cementer includes grout hole, grout passageway and grout outlet, and the grout hole is seted up at the lateral wall of connecting piece, and the grout hole is seted up in the bottom of connecting piece lateral wall, and grout hole and dowel hole intercommunication, grout outlet set up on the top of connecting piece lateral wall, grout outlet and dowel hole intercommunication, and grout passageway sets up between grout hole and grout outlet, and grout passageway and grout hole and grout outlet all communicate, and grout passageway and a plurality of dowel hole all communicate.

By adopting the technical scheme, when the grouting device is used, firstly, the high-pressure grouting machine is communicated with the grouting holes, then, the high-pressure grouting machine is used for grouting mortar into the grouting holes, the grouting holes are communicated with the tendon insertion holes, so that the mortar enters the tendon insertion holes through the grouting holes, and the grouting channels are communicated with the grouting holes and the grout outlet holes, so that the mortar enters the grouting channels, the grouting channels are communicated with a plurality of tendon insertion holes, the mortar enters each tendon insertion hole through the grouting channels, and finally, the mortar flows out of the grout outlet holes to finish grouting construction; the splicing ribs and the splicing rib holes are fixedly connected after mortar is solidified, and the stability of the splicing ribs and the splicing rib holes is improved.

Preferably, the grouting hole and the grout outlet are provided with sealing plugs, and the sealing plugs are in inserting fit with the grouting hole and the grout outlet.

Through adopting above-mentioned technical scheme, through setting up the sealing plug at grout hole and grout outlet, utilize the sealing plug sealed grout hole and grout outlet, avoid going again that wall body transportation in grout hole and grout outlet are blockked up, guarantee the unobstructed of grout hole and grout outlet.

Preferably, be provided with sealed the pad between left side connecting block and the right connecting block, sealed pad all is provided with the joint subassembly with between left connecting block and the right connecting block, and the joint subassembly includes dovetail and forked tail piece, and the dovetail is all seted up to left connecting block and right connecting block, and forked tail piece and sealed fixed connection of filling up, the cooperation of pegging graft of forked tail piece and dovetail.

Through adopting above-mentioned technical scheme, through setting up sealed the pad, and it is fixed with left connecting block and right connecting block respectively to utilize the joint subassembly to make sealed pad, the sealed pad messenger of installation, because dovetail piece and sealed pad fixed connection, so remove the dovetail piece that sealed pad drove both sides and align with the dovetail on left connecting block and the right connecting block respectively, then promote sealed pad drive dovetail piece and peg graft in the seal groove, promote the convenience when sealed pad is connected with left connecting block and right connecting block, through setting up the leakproofness between sealed pad promotion left connecting block and the right connecting block, promote the elasticity between left connecting block and the right connecting block simultaneously.

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

1. the connecting pieces are arranged between the adjacent wall bodies and comprise the left connecting block and the right connecting block, the damping devices are arranged between the left connecting block and the right connecting block, the two adjacent wall bodies are respectively and fixedly connected with the left connecting block and the right connecting block, the adjacent wall bodies are elastically connected, and the purpose of improving the stability of the wall bodies after being spliced is achieved;

2. by arranging the buffer assembly, the damping and buffering effects between the damping block and the damping groove are further improved;

3. through setting up mounting groove and installation piece to set up joint bar hole and grafting muscle between mounting groove and installation piece, and utilize cementer fixed grafting muscle and joint bar hole, stability when being connected between promotion connecting piece and the wall body.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view intended to show a shock absorbing assembly;

FIG. 3 is a schematic view intended to show a section of a shock-absorbing column;

FIG. 4 is a schematic view intended to show a clamping assembly;

FIG. 5 is a schematic view intended to show a mounting assembly;

fig. 6 is a schematic sectional view intended to show a grouting device.

In the figure, 1, a wall body; 2. a connecting member; 21. a left connecting block; 22. a right connecting block; 3. a damping device; 31. a damping groove; 32. a damper block; 33. a shock-absorbing post; 331. a damping chamber; 332. a damping spring; 333. connecting columns; 4. a fixing assembly; 41. fixing grooves; 42. a fixing plate; 5. a buffer assembly; 51. a buffer tank; 52. a slider; 53. a fixed block; 54. a buffer spring; 6. mounting the component; 61. mounting grooves; 62. mounting blocks; 7. a dowel assembly; 71. inserting ribs; 72. a rib inserting hole; 8. a grouting device; 81. grouting holes; 82. a slurry outlet; 83. grouting a channel; 84. a sealing plug; 9. a gasket; 10. a clamping assembly; 101. a dovetail groove; 102. a dovetail block.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a fabricated building element. Referring to fig. 1, an assembly type building component comprises a wall body 1 and connecting pieces 2, wherein the wall body 1 is provided with a plurality of reinforcing mesh, a reinforcing mesh is arranged in each wall body 1, the connecting pieces 2 are arranged between the wall bodies 1 connected with each other, mounting assemblies 6 are arranged between two ends of each connecting piece 2 and two adjacent wall bodies 1, the two adjacent wall bodies 1 are fixedly connected with the connecting pieces 2 through the mounting assemblies 6, and the connecting pieces 2 are elastic connecting pieces 2. Utilize connecting piece 2 to assemble two adjacent wall bodies 1 fixed back, utilize the elastic action of connecting piece 2, make and carry out elastic connection between the adjacent wall body 1, reach the purpose that promotes stability behind the wall body 1 concatenation.

Referring to fig. 1 and 2, the connecting member 2 includes a left connecting block 21 and a right connecting block 22, the left connecting block 21 and the right connecting block 22 are both vertically arranged, one side of the left connecting block 21, which is far away from the right connecting block 22, is fixedly connected to the wall 1 through the mounting assembly 6, one side of the right connecting block 22, which is far away from the left connecting block 21, is also fixedly connected to the wall 1 through the mounting assembly 6, a damping device 3 is arranged between the left connecting block 21 and the right connecting block 22, the damping device 3 includes a damping groove 31, a damping block 32 and a damping column 33, the damping groove 31 is arranged on one side of the left connecting block 21, which is far away from the wall 1, the damping block 32 is fixedly connected to one side of the right connecting block 22, which is far away from the wall 1, the damping; shock-absorbing column 33 is provided with a plurality of, and every shock-absorbing column 33 all is located damping groove 31, and the both ends of shock-absorbing column 33 respectively with damping groove 31's diapire and snubber block 32 fixed connection. Vibrations pass through wall body 1 and transmit to left connecting block 21, and through shock attenuation post 33 when left connecting block 21 transmits right connecting block 22, vibrations drive shock attenuation post 33 and take place elastic deformation, and the vibrations after the buffering transmit to shock attenuation piece 32, and when the relative shock attenuation groove 31 of shock attenuation piece 32 took place to slide, utilize buffering subassembly 5 to cushion the slip between shock attenuation piece 32 and the shock attenuation groove 31.

Referring to fig. 2 and 3, the shock absorbing column 33 is made of plastic, a shock absorbing cavity 331 is formed in the shock absorbing column 33, a shock absorbing spring 332 is arranged in the shock absorbing cavity 331, and two ends of the shock absorbing spring 332 are fixedly connected with two side walls of the shock absorbing cavity 331 respectively; the both ends of shock attenuation post 33 all are provided with spliced pole 333, be provided with fixed subassembly 4 between spliced pole 333 and the shock attenuation post 33, fixed subassembly 4 includes fixed slot 41 and fixed plate 42, fixed slot 41 is seted up in shock attenuation post 33, fixed plate 42 is located fixed slot 41, fixed plate 42 and fixed slot 41 fixed connection, the terminal surface and the fixed plate 42 fixed connection of shock attenuation post 33 are passed to the one end of spliced pole 333, the one end that fixed plate 42 was kept away from to the spliced pole 333 of shock attenuation post 33 one side and the diapire fixed connection of shock attenuation groove 31, the one end and the snubber block 32 fixed connection of fixed plate 42 are kept away from to the spliced pole 333. The left connecting block 21 drives the damping column 33 to generate elastic deformation through the connecting column 333, and the damping column 33 drives the damping cavity 331 and the damping spring 332 to generate elastic deformation, so that vibration is buffered.

Referring to fig. 2, the buffer assembly 5 includes a buffer slot 51, a slider 52, a fixed block 53 and a buffer spring 54, the buffer slot 51 is opened at the side wall of the shock absorbing slot 31, the buffer slot 51 penetrates through the end of the shock absorbing slot 31 far away from the bottom wall of the shock absorbing slot 31, the slider 52 is fixedly connected with the side wall of the shock absorbing block 32, the slider 52 is located in the buffer slot 51, the slider 52 is slidably connected with the buffer slot 51, the fixed block 53 is located at the end of the buffer slot 51 far away from the bottom wall of the shock absorbing slot 31, the fixed block 53 is fixedly connected with the buffer slot 51, the buffer spring 54 is located between the fixed block 53 and the slider 52, and two ends of the buffer spring. When the damper 32 slides in the damper groove 31, the damper 32 drives the slider 52 to slide in the damper groove 51, the slider 52 drives the buffer spring 54 to elastically deform, and the buffer spring 54 is used to buffer the vibration between the damper 32 and the damper groove 31.

Referring to fig. 4, be provided with two sealed pads 9 between left side connecting block 21 and the right connecting block 22, two sealed pads 9 are sealed pad 9 that the plastic material was made, two sealed pads 9 are located snubber block 32's both sides respectively, all be provided with joint subassembly 10 between sealed both sides of 9 and left connecting block 21 and the right connecting block 22, joint subassembly 10 includes dovetail 101 and dovetail 102, dovetail 101 is all seted up to left connecting block 21 and right connecting block 22, dovetail 102 and sealed 9 fixed connection of pad, dovetail 102 and dovetail 101 cooperation of pegging graft. When the sealing gasket 9 is installed, the sealing gasket 9 is firstly moved to drive the dovetail block 102 to be inserted into the dovetail groove 101, then the sealing gasket 9 is pushed to drive the dovetail block 102 to slide in the dovetail groove 101, and the installation and the fixation of the sealing gasket 9 and the left connecting block 21 and the right connecting block 22 are completed.

Referring to fig. 5 and 6, the mounting assembly 6 includes a mounting groove 61 and a mounting block 62, the mounting groove 61 is opened on the side wall of the connecting member 2 close to the wall 1, the mounting block 62 is fixedly connected with the wall 1, the mounting block 62 is in mounting fit with the mounting groove 61, a steel bar inserting assembly 7 is disposed between the mounting block 62 and the mounting groove 61, the steel bar inserting assembly 7 includes a steel bar inserting 71 and a steel bar inserting hole 72, the steel bar inserting 71 is fixedly connected with the mounting block 62, one end of the steel bar inserting 71 passes through the mounting block 62 to be fixedly connected with a steel bar net in the wall 1, the other end extends out of the mounting block 62, the steel bar inserting hole 72 is opened on the bottom wall of the mounting groove 61, the steel bar inserting 71 is in inserting fit with the steel bar inserting hole 72, a grouting device 8 is disposed between the steel bar inserting hole 71 and the steel bar inserting hole 72, the grouting device 8 includes a grouting hole 81, a grouting channel 83 and a grout outlet 82, the grout outlet 82 is formed in the top end of the side wall of the connecting piece 2, the grout outlet 82 is communicated with the dowel holes 72, the grouting channel 83 is formed between the adjacent dowel holes 72, the grouting channel 83 is communicated with the grouting hole 81 and the grout outlet 82, and the grouting channel 83 is communicated with each of the dowel holes 72; the grouting hole 81 and the grout outlet 82 are both provided with a sealing plug 84, and the sealing plug 84 is in inserting fit with the grouting hole 81 and the grout outlet 82.

When the mounting assembly 6 is used, firstly, the wall body 1 is moved to drive the mounting block 62 to be in splicing fit with the mounting groove 61, the mounting block 62 drives the splicing ribs 71 to be spliced in the splicing rib holes 72, then the sealing plugs 84 in the grouting holes 81 and the grout outlet 82 are all taken out, then the high-pressure grouting machine is hermetically connected with the grouting holes 81, then the high-pressure grouting machine is started to pour mortar into the grouting holes 81, the mortar is keyed into the splicing rib holes 72 through the grouting holes 81, and then the mortar passes through the grouting channels 83 to reach the adjacent splicing rib holes 72; when the mortar is discharged through the mortar outlet 82, grouting construction is completed, and the inserting ribs 71 are fixed in the inserting rib holes 72 after the mortar is solidified.

The implementation principle of the assembly type building component in the embodiment of the application is as follows: when the assembly type building component is installed, firstly, the sealing gasket 9 is moved to drive the dovetail block 102 to be aligned with the dovetail groove 101, then the sealing gasket 9 is pushed to drive the dovetail block 102 to be inserted in the dovetail groove 101, and the sealing gasket 9 is enabled to seal a gap between the left connecting block 21 and the right connecting block 22; then, the wall body 1 is moved to drive the mounting block 62 to be inserted into the mounting groove 61, and the mounting block 62 drives the insertion rib 71 to be inserted into the insertion rib hole 72; then, the sealing plug 84 is taken out from both the grouting hole 81 and the grout outlet 82, the high-pressure grouting machine is hermetically connected with the grouting hole 81, then the high-pressure grouting machine is started to pour mortar into the grouting hole 81, the mortar is keyed into the dowel hole 72 through the grouting hole 81, and then the mortar passes through the grouting channel 83 to reach the adjacent dowel hole 72; when the mortar is discharged through the mortar outlet 82, grouting construction is completed, and the inserting ribs 71 are fixed in the inserting rib holes 72 after the mortar is solidified.

When the vibration of the wall body 1 on the left side of the connecting piece 2 is transmitted to the wall body 1 on the right side of the connecting piece 2 through the connecting piece 2, the vibration drives the left connecting block 21 to vibrate through the mounting block 62 and the inserting rib 71, the left connecting block 21 drives the shock absorption column 33 to deform through the connecting column 333, the shock absorption column 33 drives the shock absorption cavity 331 and the shock absorption spring 332 in the shock absorption cavity 331 to deform, the shock absorption column 33 is used for buffering and absorbing the vibration and then transmitting the vibration to the shock absorption block 32, so that the shock absorption block 32 slides in the shock absorption groove 31, the shock absorption block 32 drives the sliding block 52 to slide in the buffer groove 51, the sliding block 52 drives the buffer spring 54 to deform, the sliding of the sliding block 52 is buffered through the buffer spring 54, when the left connecting block 21 and the right connecting block 22 slide relatively, the sealing gasket 9 is used for buffering and absorbing the vibration, in conclusion, through the steps, the connecting pieces 2 are used for elastically connecting the adjacent wall bodies 1, so that the purpose of improving the stability of the spliced wall bodies 1 is achieved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An assembled building element comprising a plurality of walls (1), characterized in that: adjacent be provided with connecting piece (2) between wall body (1), connecting piece (2) are including left connecting block (21) and right connecting block (22), left side connecting block (21) and wall body (1) fixed connection, right side connecting block (22) and adjacent wall body (1) fixed connection, be provided with damping device (3) between left side connecting block (21) and right connecting block (22), damping device (3) are including damping tank (31), damping block (32) and shock absorber post (33), one side of keeping away from wall body (1) in left connecting block (21) is seted up in damping tank (31), damping block (32) and right connecting block (22) fixed connection, damping block (32) and damping tank (31) cooperation of pegging graft, shock absorber post (33) are located damping tank (31), the both ends of shock absorber post (33) respectively with damping tank (31) and damping block (32) fixed connection.

2. A fabricated building element according to claim 1, wherein: shock attenuation post (33) are the shock attenuation post (33) of rubber material, the equal fixedly connected with spliced pole (333) in both ends of shock attenuation post (33), spliced pole (333) of shock attenuation post (33) one end all with snubber block (32) fixed connection, spliced pole (333) of the other end all with damping groove (31) fixed connection.

3. A fabricated building element according to claim 2, wherein: a damping cavity (331) is formed in the damping column (33), and a damping spring (332) is fixedly connected in the damping cavity (331).

4. A fabricated building element according to claim 2, wherein: be provided with between spliced pole (333) and shock attenuation post (33) fixed subassembly (4), fixed subassembly (4) are including fixed slot (41) and fixed plate (42), and set up in shock attenuation post (33) fixed slot (41), and fixed plate (42) are located fixed slot (41), fixed plate (42) and fixed slot (41) fixed connection, fixed plate (42) and spliced pole (333) fixed connection.

5. A fabricated building element according to claim 1, wherein: be provided with between snubber block (32) and snubber channel (31) buffer subassembly (5), buffer subassembly (5) are including snubber channel (51), slider (52), fixed block (53) and buffer spring (54), the lateral wall in snubber channel (31) is seted up in snubber channel (51), slider (52) and snubber block (32) fixed connection, slider (52) are located snubber channel (51), slider (52) and snubber channel (51) sliding connection, fixed block (53) and snubber channel (51) fixed connection, buffer spring (54) are located between fixed block (53) and slider (52), the both ends of buffer spring (54) respectively with fixed block (53) and slider (52) fixed connection.

6. A fabricated building element according to claim 1, wherein: be provided with between connecting piece (2) and wall body (1) installation component (6), installation component (6) include mounting groove (61) and installation piece (62), and the lateral wall that is close to wall body (1) in connecting piece (2) is seted up in mounting groove (61), installation piece (62) and wall body (1) fixed connection, installation piece (62) and mounting groove (61) installation cooperation, are provided with between installation piece (62) and mounting groove (61) dowel subassembly (7).

7. A fabricated building component according to claim 6, wherein: the inserting rib assembly (7) comprises inserting ribs (71) and inserting rib holes (72), the inserting ribs (71) are fixedly connected with the mounting block (62), the inserting rib holes (72) are formed in the bottom wall of the mounting groove (61), the inserting ribs (71) are in inserting fit with the inserting rib holes (72), and a grouting device (8) is arranged between the inserting ribs (71) and the inserting rib holes (72).

8. A fabricated building element according to claim 7, wherein: grouting device (8) are including grout hole (81), grout passageway (83) and grout outlet (82), the lateral wall in connecting piece (2) is seted up in grout hole (81), the bottom at connecting piece (2) lateral wall is seted up in grout hole (81), grout hole (81) and dowel hole (72) intercommunication, the top at connecting piece (2) lateral wall is seted up in grout outlet (82), grout outlet (82) and dowel hole (72) intercommunication, grout passageway (83) set up between grout hole (81) and grout outlet (82), grout passageway (83) and grout outlet (81) and grout outlet (82) all communicate, grout passageway (83) and a plurality of dowel hole (72) all communicate.

9. A fabricated building element according to claim 8, wherein: and the grouting hole (81) and the grout outlet (82) are provided with sealing plugs (84), and the sealing plugs (84) are in plug-in fit with the grouting hole (81) and the grout outlet (82).

10. A fabricated building element according to claim 1, wherein: be provided with sealed pad (9) between left side connecting block (21) and right connecting block (22), sealed pad (9) all is provided with joint subassembly (10) between left side connecting block (21) and right connecting block (22), joint subassembly (10) include dovetail (101) and forked tail piece (102), dovetail (101) are all seted up to left side connecting block (21) and right connecting block (22), forked tail piece (102) and sealed pad (9) fixed connection, forked tail piece (102) are pegged graft with dovetail (101) and are cooperated.