CN115522646A

CN115522646A - Assembled concrete building connection structure

Info

Publication number: CN115522646A
Application number: CN202211282502.9A
Authority: CN
Inventors: 李飞飞; 陈勇军; 陈金丹; 汤良玉; 王毅强; 余志明; 张震; 诸辰威
Original assignee: Zhejiang Yuanzheng Engineering Management Co ltd
Current assignee: Zhejiang Yuanzheng Engineering Management Co ltd
Priority date: 2022-10-19
Filing date: 2022-10-19
Publication date: 2022-12-27

Abstract

The application relates to the technical field of fabricated concrete buildings, and provides an assembled concrete building connecting structure which is arranged between two wallboards, wherein the two wallboards are fixed on a main body frame and comprise two connecting parts, mounting grooves are formed in the opposite inner walls of the two wallboards, and the two connecting parts are respectively arranged on the inner walls of the two mounting grooves; when the two connecting parts are hooked, the two connecting parts are fixed through the clamping part; the gap between the two wall panels is filled with a flexible material. The utility model provides an assembled concrete building connection structure, through setting up flexible material, improve the shock resistance between two wallboards, reduce the condition that takes place the wall body fracture when the earthquake, through setting up two connecting portion, through the hookup of two connecting portions, increase the connectivity between two wallboards to improve the fastness between two wallboards, in addition, the hookup of two connecting portions can improve the agility of installation, improves the installation effectiveness.

Description

Assembled concrete building connection structure

Technical Field

The application relates to the technical field of fabricated concrete buildings, in particular to a fabricated concrete building connection structure.

Background

The prefabricated building refers to a concrete structure type house building which is designed and built in a field assembly mode by transferring a large amount of field work in the traditional building mode to a factory, manufacturing wallboards, beams, stand columns, balconies and the like in the factory, transporting the wallboards, the beams, the stand columns, the balconies and the like to a construction field. The emergence and development of the assembly type building are inevitable results of industrialization and modernization of the building industry, and are objective requirements for a building mode to be changed from a traditional production mode which relies on low-cost labor cost to a mechanized and industrialized production mode.

The rigid connection of complete restraint is adopted mostly between traditional prefabricated wall wallboard and the frame, and wallboard and major structure concreties integratively, and under the effect of earthquake dynamic load, the wallboard junction often can be because the internal force is too big and destroy, has increased the hidden danger of structure.

Disclosure of Invention

In order to reduce the condition that the wall body junction took place to destroy, this application provides an assembled concrete building connection structure.

The application provides a pair of assembled concrete building connection structure adopts following technical scheme:

the assembled concrete building connecting structure is arranged between two wallboards, the two wallboards are arranged on a main body frame and comprise two connecting parts, mounting grooves are formed in the opposite inner walls of the two wallboards, and the two connecting parts are respectively arranged on the inner walls of the two mounting grooves; when the two connecting parts are hooked, the two connecting parts are fixed through the clamping part; the gap between the two wall panels is filled with a flexible material.

By adopting the technical scheme, the shock resistance between the two wallboards is improved by arranging the flexible material, the condition that the wall body is cracked in the earthquake is reduced, and the connection between the two wallboards is improved by arranging the two connecting parts and hooking the two connecting parts, so that the firmness between the two wallboards is improved; through setting up the fixed part, two connecting portion of being convenient for keep the state of hookup, take place not hard up possibility when reducing the earthquake, the hookup of two other connecting portion can improve the agility of installation, improves the installation effectiveness.

Optionally, the connecting portion comprises a fixed plate, a first U-shaped plate and a C-shaped plate, one side of the fixed plate is hinged to the inner wall of the mounting groove, the other side of the fixed plate is fixed to the U-shaped plate, the C-shaped plate is hinged to a U-shaped groove of the U-shaped plate, and a first torsion spring is arranged at the hinged position of the C-shaped plate and the first U-shaped plate; the inner wall in the U type groove of U template has seted up the spout, one side of C template is equipped with the extension and slides in the spout, first joint hole has been seted up on the surface of first U template, first joint hole is linked together with the spout, the second joint hole has been seted up to the C template, the fixed part joint is downthehole in first joint hole and second joint.

Through adopting foretell technical scheme, when two wallboards of needs concatenation, two first U templates are close to each other, can make two fixed plates along self and the articulated department of the U type inslot wall of first U template take place to rotate at two mutual butts of C template, make two C templates get into the U type inslot of adjacent first U template to mutual hookup, in the position through the fixed C template of joint portion, thereby improve the fastness between two wallboards.

Optionally, the clamping portion includes a first sleeve, a first spring and a steel bar, the first sleeve is fixed on the surface of the U-shaped plate, one end of the first spring is fixed in the sleeve, the other end of the first spring is fixed with the steel bar, and the steel bar is inserted into the first clamping hole under the elastic force of the first spring and clamped in the second clamping hole; the outer wall of the steel bar is covered with a rubber sleeve.

Through adopting foretell technical scheme, when connecting portion do not take place the hookup state, the rod iron wears to locate first joint hole and butt in following the extension portion, and the mutual hookup of two C templates makes second joint hole along the extension portion align in first joint hole, and the rod iron joint is downthehole in second joint under the elasticity of second spring, plays the effect of fixed C template in first U template position from the two. Through setting up the rubber sleeve, the rubber sleeve has the absorbing energy absorbing effect to the shock attenuation performance when two connecting portion hookups has been improved.

Optionally, the inner walls of the two mounting grooves are provided with fixing assemblies, each fixing assembly comprises two fixing parts, each fixing part comprises a fixing rod, a second spring, a second sleeve and a second U-shaped plate, the fixing rods are fixed on the inner walls of the mounting grooves, the second sleeves are sleeved in the fixing rods, and two ends of each second spring are respectively fixed in the fixing rods and the second sleeves; the second U-shaped plate is fixed at one end, far away from the fixing rod, of the second sleeve; but fixed part passes through linkage subassembly joint in the fixed plate outer wall.

By adopting the technical scheme, the second U-shaped plate is convenient to abut against the outer wall of the fixed plate by arranging the fixed component, so that the condition of left-right shaking generated when the two connecting parts are hooked with each other is reduced; through setting up the linkage subassembly, when two connecting portions hookups, the linkage subassembly can make fixed subassembly cancel the joint state simultaneously, and second U template releases and butt in the fixed plate outer wall under third elasticity, has improved the installation effectiveness.

Optionally, the linkage assembly includes a third sleeve, a third spring, a driving rod, a branch pipe, a moving plate and two linkage portions, the third sleeve is fixed to one side of the mounting groove close to the fixing assembly, one end of the third spring is fixed in the third sleeve, and the other end of the third spring is fixed to the driving rod; a positioning ring is fixed on the outer wall of the driving rod and clamped in the third sleeve; the two linkage parts are hinged to two ends of the driving rod and can be clamped in the second sleeve; the movable plate is installed between the two linkage portions, and two ends of the branch pipe are hinged to the movable plate and the first U-shaped plate respectively.

By adopting the technical scheme, in the process that the fixed plate rotates along the hinged part of the fixed plate and the inner wall of the mounting groove, the branch pipe applies pressure to the movable plate to enable the movable plate to move towards one side far away from the branch pipe, the linkage part can cancel clamping connection of the second sleeve pipe, and the second U-shaped block is abutted against the outer wall of the fixed plate; when the first U-shaped plate resets, the linkage part recovers to the initial state under the elasticity of the third spring, and the linkage part can continue to be clamped with the second sleeve, so that the stability of the second sleeve clamped on the fixing plate is improved.

Optionally, the linkage portion includes a connecting rod, a clamping block, a first rod and a second rod, one end of the connecting rod is hinged to the driving rod, and the clamping block is rotatably mounted at one end of the connecting rod, which is far away from the driving rod; the second sleeve is provided with a second clamping groove and a third clamping groove, the second clamping groove and the third clamping groove are arranged at intervals along the extension direction of the second sleeve, and the clamping block is clamped in the third clamping groove from the second clamping groove through a connecting groove; the first rod is hinged to the driving plate, the second rod is hinged to the connecting rod, and one ends of the first rod and the second rod, which are adjacent, are hinged; the hinge department of first pole and second pole is provided with the lug, waist shape hole has been seted up to the movable plate, the extending direction in waist shape hole is in the same direction with the delay direction of actuating lever, the lug is located the waist shape of movable plate downthehole.

By adopting the technical scheme, when the branch pipe applies pressure to the moving plate to enable the moving plate to move, the convex block moves in the waist-shaped hole, the first rod and the second rod can rotate along the hinged part, the connecting rod further rotates along the hinged part of the connecting rod and the driving rod, so that the clamping block is separated from the second clamping groove, the second sleeve is cancelled to be clamped with the linkage part, and the second U-shaped plate is popped outwards; when the fixed plate resumes original position, and then can make the connecting rod resume original position through the connecting rod transmission, the joint piece passes through the spread groove and gets into the third joint inslot, can cushion the outside impact of popping out of second sleeve to reduce the possibility that connecting portion took place to damage.

Optionally, the driving rod is fixed with an orientation rod, the moving plate is provided with an orientation hole, and the orientation rod is arranged in the orientation hole in a penetrating manner.

Through adopting foretell technical scheme, through setting up the orientation lever, can make orientation lever horizontal migration to can make the turned angle of two linkage portions the same, and cancel the joint to the second telescopic simultaneously.

Optionally, the C-shaped plate is provided with a silica gel block, and the silica gel block is filled in a gap between the U-shaped groove of the first U-shaped plate and another C-shaped plate which are hooked.

Through adopting foretell technical scheme, through setting up the silica gel piece, when two C templates hook joint each other, the clearance in the first U template is filled to the silica gel piece to steadiness when improving two U templates mutual hook joint, in addition, the silica gel piece has the effect of deformation energy-absorbing, and the damping performance when further improving two connecting portion and being connected.

Optionally, extruded sheets are fixed in the mounting groove walls of the two wall panels.

By adopting the technical scheme, the situation that the flexible material enters the mounting groove when the gap is filled between the two wallboards can be reduced by arranging the extruded sheet; in addition, the extruded sheet is thin, and the extruded sheet deforms and extrudes in the earthquake process, so that the connecting part between the two wallboards has a damping effect.

Optionally, an avoidance groove is formed in the inner wall of the mounting groove and communicated with the outside; the extension directions of the avoidance grooves of the two wallboards are reversely arranged.

Through adopting foretell technical scheme, dodge the groove through the setting, reduce the condition that connecting portion interfered adjacent wallboard and removed in two wallboard installation.

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

1. the two connecting parts are arranged, and the connection between the two wallboards is increased through the hooking of the two connecting parts, so that the firmness between the two wallboards is improved, and the hooking of the other two connecting parts can improve the installation rapidness and the installation efficiency;

2. the clamping portion is arranged, the fixing portion is arranged, the two connecting portions can be conveniently kept in a hooked state, the possibility of looseness during an earthquake is reduced, the rubber sleeve is sleeved on the outer wall of the steel bar and has the functions of energy absorption and shock absorption, and therefore the shock absorption performance of the two connecting portions during hooking is improved;

3. through setting up the linkage subassembly, the linkage subassembly can make two fixed parts butt in the outer wall of two fixed plates simultaneously, improves the installation effectiveness, and the second U template is behind the cancellation joint, and linkage portion can cushion the outside elasticity of popping out of second U template, reduces the second U template and pops out the condition of destroying connecting portion fast under the effect of second spring.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment, which mainly represents the installation state of two wall panels;

FIG. 2 is a schematic view of the overall structure of the present embodiment, which mainly represents the non-installation state of two wall panels;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

FIG. 4 is a partial cross-sectional view of the connection;

FIG. 5 is a partial cross-sectional view at another angle of the connection;

FIG. 6 is a partial cross-sectional view of the linkage assembly;

fig. 7 is a partial enlarged view at B of fig. 1;

fig. 8 is a partially enlarged view at C of fig. 6.

Description of reference numerals: 1. a wallboard; 11. mounting grooves; 12. an avoidance groove; 13. a flexible material; 14. extruding a plastic plate; 15. a first torsion spring; 2. a connecting portion; 21. a fixing plate; 22. a first U-shaped plate; 221. a first clamping hole; 23. c-shaped plates; 231. a second clamping hole; 24. a chute; 25. an extension portion; 26. a silica gel block; 27. a second torsion spring; 3. a clamping part; 31. a first sleeve; 32. a first spring; 33. a steel bar; 34. a rubber sleeve; 4. a fixing assembly; 41. a fixing member; 42. fixing the rod; 43. a third clamping groove; 44. a second sleeve; 45. a second U-shaped plate; 46. a second clamping groove; 47. connecting grooves; 5. a linkage assembly; 51. a third sleeve; 511. a movable groove; 52. a third spring; 53. a drive rod; 531. a positioning ring; 54. a branch pipe; 55. moving the plate; 551. a directional hole; 552. a waist-shaped hole; 56. a linkage section; 561. a connecting rod; 562. a clamping block; 563. a first lever; 564. a second lever; 565. a bump; 57. a drive plate; 58. and (6) orienting the rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses assembled concrete building connection structure.

Referring to fig. 1 and 2, an assembly type concrete building connection structure includes two connection parts 2 installed between two wall panels 1, the two wall panels 1 are both fixed to a main body frame, mounting grooves 11 are formed on opposite inner walls of the two wall panels 1, the two connection parts 2 are respectively installed in the two mounting grooves 11, one connection part 2 is installed on a bottom wall of the mounting groove 11, and the other connection part 2 is installed on a top wall of the other mounting groove 11; dodge groove 12 has all been seted up to the inner wall of two mounting grooves 11, dodges groove 12 and offers a lateral wall of keeping away from connecting portion 2 in mounting groove 11, and when a wallboard 1 was fixed in main body frame, another wallboard 1 was from last down installing, dodges groove 12 and can reduce the condition that connecting portion 2 interfered 1 removal of adjacent wallboard.

Referring to fig. 1, after the two connecting portions 2 are hooked, a flexible material 13 is filled in a gap between the two wall panels 1, and an extruded sheet 14 for preventing the flexible material 13 from entering the mounting groove 11 is mounted on the groove walls of the two mounting grooves 11.

Referring to fig. 3 and 4, the connecting portion 2 includes a fixing plate 21, a first U-shaped plate 22 and a C-shaped plate 23, an embedded part is disposed on an inner wall of the mounting groove 11, the fixing plate 21 is hinged to the embedded part, and a first torsion spring 15 is disposed at a hinged position of the fixing plate 21 and the embedded part, in this embodiment, an elastic force of the first torsion spring 15 keeps the fixing plate 21 and the wall plate 1 in the same vertical direction; a first U-shaped plate 22 integrally formed at one side of the fixing plate 21, which is far away from the mounting groove 11, wherein a U-shaped groove of the first U-shaped plate 22 is positioned at one side of the first U-shaped plate 22, which is far away from the fixing plate 21; a sliding groove 24 is formed in the inner wall of the U-shaped groove of the first U-shaped plate 22, one side of the C-shaped plate 23 extends outwards and is provided with an extending part 25, the extending part 25 slides in the sliding groove 24, and one side of the C-shaped plate 23 is hinged with the first U-shaped plate 22; the hinged position of C template 23 and first U template 22 is provided with second torsional spring 27, and the elasticity of second torsional spring 27 makes extension 25 part be located the U type inslot of first U template 22 to fix first U template 22 and C template 23 position through joint portion 3.

Referring to fig. 3, the side wall of the c-shaped plate 23 is provided with a silica gel block 26, when the two connecting portions 2 are hooked, the silica gel block 26 fills the gap in the U-shaped groove of the first U-shaped plate 22, thereby improving the stability when the two connecting portions 2 are hooked with each other, and in addition, the silica gel block 26 has the function of deformation energy absorption, further improving the shock absorption performance when the two connecting portions 2 are connected.

Referring to fig. 5, the clamping portion 3 includes a first sleeve 31, a first spring 32 and a steel bar 33, a rubber sleeve 34 covers an outer wall of the steel bar 33, a first clamping hole 221 is formed in a side wall of the first U-shaped plate 22, the first clamping hole 221 is communicated with the sliding groove 24, and a first clamping groove (not shown in the figure) is formed in a side wall of the sliding groove 24; the extending portion 25 is provided with a second engaging hole 231, and the engaging portion 3 is engaged with the first engaging hole 221, the second engaging hole 231 and the first engaging groove. The first sleeve 31 is fixed on the side wall of the first U-shaped plate 22, the first sleeve 31 is communicated with the first clamping hole 221, one end of the first spring 32 is fixed in the sleeve, and the other end of the first spring 32 is fixed with the steel bar 33.

When connecting portion 2 did not take place the hookup state, first joint hole 221 and butt in the lateral wall along the extension portion are worn to locate by rod iron 33, make along the extension portion remove in spout 24 and get into spout 24 completely when two mutual hookups of C template 23, and then can make second joint hole 231 and first joint hole 221 align, rod iron 33 wears to locate second joint hole 231 and joint in the joint inslot under the elasticity of first spring 32 to play the effect of fixed C template 23 in first U template 22 position. The rubber sleeve 34 arranged on the outer wall of the steel bar 33 can shift up and down the two connecting parts 2 when longitudinal earthquake occurs in the earthquake process of the two wallboards 1. The rubber sleeve 34 can absorb energy generated when the connecting portion 2 is deviated, so that the connecting portion 2 is reduced from generating severe vibration, and the rubber sleeve has the functions of shock absorption and energy absorption.

Referring to fig. 6, the fixing assemblies 4 are disposed on the inner walls of the two mounting grooves 11, each fixing assembly 4 includes two fixing parts 41, the two fixing parts 41 are disposed on one side of the mounting groove 11 away from the outside and are spaced apart from each other, one fixing part 41 is used for fixing the fixing plate 21 in the same mounting groove 11, and the other fixing part is used for fixing the fixing plate 21 in the other mounting groove 11; the fixing part 41 comprises a fixing rod 42, a second spring, a second sleeve 44 and a second U-shaped plate 45, the fixing rod 42 is fixed on the inner wall of the mounting groove 11, the second sleeve 44 is sleeved on the fixing rod 42, one end of the second spring (not shown in the figure) is fixed in the second sleeve 44, and the other end of the second spring is fixed at one end of the fixing rod 42 close to the second sleeve 44, the second spring is a high-elasticity spring in the embodiment, and the elasticity of the second spring can enable the second sleeve 44 to be rapidly ejected in the direction away from the fixing rod 42 in the horizontal direction; the second U-shaped plate 45 is fixed at one end of the second sleeve 44 far away from the fixing rod 42; the fixing member 41 is fixed to the outer wall of the link 2 by the interlocking unit 5. Through setting up fixed subassembly 4, be convenient for be fixed in connecting portion 2 with second U template 45, rock the condition that takes place to break away from about when reducing two connecting portion 2 mutual hookups, have the supporting role.

Referring to fig. 6, the linkage assembly 5 includes a third sleeve 51, a third spring 52, a driving rod 53, a branch pipe 54, a moving plate 55 and two linkage portions 56, the third sleeve 51 is fixed between the two fixed parts 41, the driving rod 53 is movably installed in the third sleeve 51, one end of the third spring 52 is fixed inside the third sleeve 51, and the other end of the third spring 52 is fixed to the driving rod 53; a positioning ring 531 is fixed on the outer wall of the driving rod 53, a movable groove 511 is formed in the inner wall of the third sleeve 51, the outer diameter of the positioning ring 531 is the same as the inner diameter of the movable groove 511, the positioning ring 531 can freely move in the movable groove 511, and the situation that the driving rod 53 is separated from the third sleeve 51 is reduced; a driving plate 57 is fixed at one end of the driving rod 53 far away from the third sleeve 51, the extending direction of the driving plate 57 is the same as the length direction of the wall board 1, and the middle part of the driving plate 57 is fixed on the driving rod 53; the two linkage parts 56 are respectively hinged on two sides of the driving plate 57, and the linkage parts 56 can be clamped on the outer wall of the second sleeve 44; two ends of the moving plate 55 are respectively installed on the two linkage portions 56, two ends of the branch pipe 54 are respectively hinged to the middle portions of the first U-shaped plate 22 and the moving plate 55, and the branch pipe 54 is made of steel, so that the deformation of the branch pipe 54 can be reduced. In the process that the fixed plate 21 rotates along the hinged position of the fixed plate and the inner wall of the mounting groove 11, the branch pipe 54 applies pressure to the moving plate 55, so that the moving plate 55 moves towards one side far away from the branch pipe 54, the linkage part 56 can cancel clamping of the second sleeve, and the second U-shaped plate 45 can abut against the outer wall of the fixed plate 21 in a clamping mode.

Referring to fig. 6, the drive plate 57 is fixed with the orientation rod 58, the moving plate 55 is provided with an orientation hole 551, one end of the orientation rod 58 far away from the drive plate 57 movably penetrates through the orientation hole 551, in the embodiment, two orientation rods 58 are provided, and by providing the orientation rods 58, the orientation rods 58 can be horizontally moved, so that the deflection angles of the linkage parts 56 are the same.

Referring to fig. 7 and 8, the linkage portion 56 includes a connection rod 561, a clamping block 562, a first rod 563, and a second rod 564, one end of the connection rod 561 is hinged to the driving rod 53, and the clamping block 562 is rotatably mounted on the connection rod 561, in this embodiment, the connection rod 561 is in a long strip shape; second joint groove 46 and third joint groove 43 have been seted up to one side that adjacent second sleeve 44 was kept away from to second sleeve 44, and second joint groove 46 and third joint groove 43 set up along the length direction interval of second sleeve 44, and the shape of joint piece 562 is the same with the shape of second joint groove 46 and third joint groove 43, and joint piece 562 can be through connecting groove 47 from second joint groove 46 joint in third joint groove 43, and connecting groove 47 is the arc wall. The first rod 563 is hinged to the driving plate 57, the second rod 564 is hinged to the connecting rod 561, one end of the first rod 563 adjacent to one end of the second rod 564 is hinged to the other end of the second rod 564, a protrusion 565 is arranged at the hinged position of the first rod 563 and the second rod 564, the moving plate 55 is provided with a waist-shaped hole 552, the extending direction of the waist-shaped hole 552 is the same as the extending direction of the moving plate 55, and the protrusion 565 is movably mounted in the waist-shaped hole 552.

In the process that the fixed plate 21 rotates along the hinged position of the fixed plate and the inner wall of the mounting groove 11, the branch pipe 54 applies pressure to the moving plate 55 to move the moving plate 55, the first rod 563 and the second rod 564 can rotate along the hinged position through the transmission of the connecting rod, the connecting rod 561 further rotates along the hinged position of the connecting rod 53, so that the clamping block 562 is separated from the second clamping groove 46, the second sleeve 44 cancels the clamping with the linkage part 56, and the second U-shaped plate 45 pops outwards; when the fixing plate 21 returns to the original position, the connecting rod 561 can be further restored to the original position through the transmission of the connecting rod, and the clamping block 562 is clamped in the third clamping groove 43 through the connecting groove 47, so that the stability of clamping the second sleeve 44 in the fixing plate 21 is improved; through setting up the spread groove 47, can cushion the outside elasticity of popping out of second U type board 45, reduce the condition of damaging connecting portion 2.

The embodiment of the application provides an assembly type concrete building connection structure's implementation principle does:

when two wallboards 1 of needs concatenation, two first U template 22 are close to each other, can make two fixed plates 21 rotate along the articulated department of self and the 11 inner walls of mounting groove at two mutual butts of C template 23, make two C templates 23 get into the U type inslot of adjacent first U template 22, two C templates 23 rotate along self and the articulated department of first U template 22 respectively, and hook joint each other, second joint hole 231 along the extension portion aligns in first joint hole 221 this moment, bar 33 joint in second joint hole 231 under the elasticity of second spring, thereby play the effect of fixed C template 23 in first U template 22 position, increase the connectivity between two wallboards 1, thereby improve the fastness between two wallboards 1. After the two connecting parts 2 are hooked, the gap between the two wallboards 1 is filled with a flexible material 13, so that the shock resistance between the two wallboards 1 is improved, and the condition that the wall body is cracked in the earthquake is reduced; in addition, the extruded sheet 14 is thin, and in the earthquake process, the extruded sheet 14 deforms and extrudes, so that the connecting part 2 between the two wall boards 1 has a damping effect.

The above is a preferred embodiment of the present application, and the scope of protection of the present application is not limited by the above, 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. The utility model provides an assembled concrete structure connection structure installs between two wallboard (1), two wallboard (1) are installed in main body frame, its characterized in that: the wallboard comprises two connecting parts (2), wherein mounting grooves (11) are formed in opposite inner walls of two wallboards (1), and the two connecting parts are respectively mounted on the inner walls of the two mounting grooves (11); when the two connecting parts (2) are hooked, the two connecting parts (2) are fixed through the clamping parts (3); the gap between the two wall plates (1) is filled with a flexible material (13).

2. The fabricated concrete building connection structure of claim 1, wherein: the connecting part (2) comprises a fixing plate (21), a first U-shaped plate (22) and a C-shaped plate (23), one side of the fixing plate (21) is hinged to the inner wall of the mounting groove (11), the other side of the fixing plate (21) is fixed to the U-shaped plate, the C-shaped plate (23) is hinged to the U-shaped groove of the U-shaped plate, and a first torsion spring (15) is arranged at the hinged position of the C-shaped plate (23) and the first U-shaped plate (22); spout (24) have been seted up to the U type inslot wall of first U template (22), one side of C template (23) is equipped with extension (25) and slides in spout (24), first joint hole (221) have been seted up on the surface of first U template (22), first joint hole (221) are linked together with spout (24), second joint hole (231) have been seted up in C template (23), joint portion (3) joint is in first joint hole (221) and second joint hole (231).

3. The fabricated concrete building connection structure of claim 2, wherein: the clamping portion (3) comprises a first sleeve (31), a first spring (32) and a steel bar (33), the first sleeve (31) is fixed on the surface of the U-shaped plate, one end of the first spring (32) is fixed in the sleeve, the other end of the first spring (32) is fixed with the steel bar (33), and the steel bar (33) penetrates through a first clamping hole (221) under the elastic force of the first spring (32) and is clamped in a second clamping hole (231); the outer wall of the steel bar (33) is covered with a rubber sleeve (34).

4. The fabricated concrete building connection structure of claim 2, wherein: the fixing assemblies (4) are arranged on the inner walls of the two mounting grooves (11), each fixing assembly (4) comprises two fixing parts (41), each fixing part (41) comprises a fixing rod (42), a second spring, a second sleeve (44) and a second U-shaped plate (45), the fixing rods (42) are fixed on the inner walls of the mounting grooves (11), the second sleeves (44) are sleeved in the fixing rods (42), and two ends of each second spring are respectively fixed in the fixing rods (42) and the second sleeves (44); the second U-shaped plate (45) is fixed at one end, far away from the fixing rod (42), of the second sleeve (44); the fixing part (41) can be clamped on the outer wall of the fixing plate (21) through the linkage component (5).

5. An assembled concrete building connection according to claim 4, wherein: the linkage assembly (5) comprises a third sleeve (51), a third spring (52), a driving rod (53), a branch pipe (54), a moving plate (55) and two linkage parts (56), the third sleeve (51) is fixed to one side, close to the fixed assembly (4), of the mounting groove (11), one end of the third spring (52) is fixed in the third sleeve (51), and the other end of the third spring (52) is fixed to the driving rod (53); a positioning ring (531) is fixed on the outer wall of the driving rod (53), and the positioning ring (531) is clamped in the third sleeve (51); the two linkage parts (56) are hinged to two ends of the driving rod (53), and the linkage parts (56) can be clamped in the second sleeve (44); the movable plate (55) is arranged between the two linkage parts (56), and two ends of the branch pipe (54) are respectively hinged to the movable plate (55) and the first U-shaped plate (22).

6. An assembled concrete building connection according to claim 5, wherein: the linkage part (56) comprises a connecting rod (561), a clamping block (562), a first rod (563) and a second rod (564), one end of the connecting rod (561) is hinged to the driving rod (53), and the clamping block (562) is rotatably installed at one end, far away from the driving rod (53), of the connecting rod (561); the second sleeve (44) is provided with a second clamping groove (46) and a third clamping groove (43), the second clamping groove (46) and the third clamping groove (43) are arranged at intervals along the extension direction of the second sleeve (44), and the clamping block (562) is clamped in the third clamping groove (43) from the second clamping groove (46) through a connecting groove (47); the first rod (563) is hinged to the driving plate (57), the second rod (564) is hinged to the connecting rod (561), and one ends of the first rod (563) and the second rod (564) which are adjacent to each other are hinged; the hinge joint of the first rod (563) and the second rod (564) is provided with a bump (565), the moving plate (55) is provided with a kidney-shaped hole (552), the extension direction of the kidney-shaped hole (552) is in the same direction as the delay direction of the driving rod (53), and the bump (565) is positioned in the kidney-shaped hole (552) of the moving plate (55).

7. An assembled concrete building connection according to claim 5, wherein: the drive rod (53) is fixed with an orientation rod (58), the moving plate (55) is provided with an orientation hole (551), and the orientation rod (58) penetrates through the orientation hole (551).

8. The fabricated concrete building connection structure of claim 2, wherein: the C-shaped plate is provided with a silica gel block (26), and the silica gel block (26) is filled in a gap between the U-shaped groove of the first U-shaped plate (22) and the other C-shaped plate (23) which are hooked.

9. The fabricated concrete building connection structure of claim 1, wherein: and extruded sheets (14) are fixed in the walls of the mounting grooves (11) of the two wall plates (1).

10. The fabricated concrete building connection structure of claim 1, wherein: an avoiding groove (12) is formed in the inner wall of the mounting groove (11), and the avoiding groove (12) is communicated with the outside; the extension directions of the avoidance grooves (12) of the two wallboards (1) are reversely arranged.