CN220790189U - Assembled building wall connection structure - Google Patents

Abstract

The application relates to an assembled building wall connection structure relates to assembled building technical field, includes: the wall plate comprises a bottom beam, an upright post and a wall plate, wherein the upright post and the wall plate are arranged on the bottom beam, a slot is formed in the side wall, close to the wall plate, of the upright post, and an inserting block for inserting the slot is fixedly arranged on the side wall, close to the upright post, of the wall plate; a buffer assembly is arranged between the insert block and the bottom wall of the slot and used for preventing the wallboard from moving along the length direction of the wallboard. When the wallboard is installed, the inserting block is inserted into the slot, when the wallboard receives the acting force perpendicular to the bottom wall of the slot, the wallboard can act on the buffering resistance piece, and the buffering resistance piece absorbs the relative acting force before the wallboard and the upright post, so that the vibration between the wallboard and the upright post is reduced.

Description

Assembled building wall connection structure

Technical Field

The application relates to the technical field of assembled buildings, in particular to an assembled building wall connecting structure.

Background

The assembled building is formed by transferring a large amount of field operation in the traditional building mode to a factory, processing and manufacturing building structures (such as floors, wallboards, stairs, balconies and the like) in the factory, transporting to a construction site, and assembling and installing the building on the site through some connecting modes. Fabricated structures include prefabricated concrete structures, steel structures, modern wood structure buildings, and the like.

In the assembled building, as the building is assembled by prefabricated parts on a construction site, in the traditional assembly type flat-panel house installation, the panel walls are only fixedly connected by right-angle steel plates, and the wallboard is connected with the ground by steel bars, so that the shock absorption performance is poor, and certain potential safety hazards exist.

Disclosure of Invention

In order to increase the earthquake resistance of the assembled building, the application provides an assembled building wall connecting structure.

The application provides an assembled building wall connection structure adopts following technical scheme:

the wall connecting structure for the assembled building comprises a bottom beam, an upright post and a wallboard, wherein the upright post and the wallboard are arranged on the bottom beam, a slot is formed in the side wall, close to the wallboard, of the upright post, and an inserting block for inserting the slot is fixedly arranged on the side wall, close to the upright post, of the wallboard; a buffer assembly is arranged between the insert block and the bottom wall of the slot and used for preventing the wallboard from moving along the length direction of the wallboard.

Through adopting above-mentioned technical scheme, if because of earthquake or other factors produce vibrations, when making the wallboard receive the effort along wallboard length direction, the wallboard removes along wallboard length direction, and the buffer assembly is extruded to the inserted block, and buffer assembly plays the effect that hinders wallboard motion, and the effort that the wallboard received passes through buffer assembly and transmits the stand gradually, prevents wallboard and stand rigid contact; the process achieves the purpose of weakening the vibration of the wallboard, and further improves the integral shock resistance of the wallboard.

Further, the buffer assembly comprises a first spring piece, movable blocks and a first elastic piece, wherein the two movable blocks are arranged, the two movable blocks are arranged in the slot in a sliding mode along the vertical direction, the first elastic piece is arranged between the two movable blocks and is used for driving the two movable blocks to move towards the direction close to each other, two ends of the first spring piece are respectively hinged to the two movable blocks, and the inserting block is in butt joint with the first spring piece.

By adopting the technical scheme, when the wallboard vibrates, the wallboard moves along the length direction of the wallboard, so as to squeeze the first spring piece, two ends of the first spring piece are opened, the two movable blocks slide in the directions away from each other, and the first elastic piece blocks the movement of the two movable blocks; the first spring piece cooperates with first elastic component, plays the purpose of hindering wallboard motion, plays the purpose of weakening wallboard vibration, improves shock resistance.

Further, a fixed pipe is fixedly arranged on the bottom wall of the slot along the vertical direction, sliding rods are arranged at the two ends of the fixed pipe in a sliding manner, the movable block is fixedly arranged at one end of the sliding rod extending out of the fixed pipe, and round tables are fixedly arranged on the two sliding rods; the first elastic piece is provided with a tension spring, and two ends of the tension spring are fixedly connected with the two round tables respectively.

Through adopting above-mentioned technical scheme, when first elastic sheet takes place deformation, the relative movement of two movable blocks drives both ends slide bar relative movement, and when two slide bars took place to remove, slide bar moved the round platform together and removed, and the round platform begins tensile extension spring for the extension spring is stretched, and the extension spring obstructs the relative movement between two round platforms this moment, and when wallboard along the length direction motion of wallboard stopped, the extension spring stimulate two movable blocks and resets, so weakens the vibration that the wallboard received, improves the holistic shock resistance of wallboard.

Further, a friction part which is used for being abutted against the inner wall of the fixed pipe is arranged on the round table.

Further, the friction part is arranged as a friction plate, the friction plate is arranged on the round table in a sliding manner along the radial direction of the round table, and a second elastic piece for driving the friction plate to abut against the inner wall of the fixed pipe is arranged on the round table.

Through adopting above-mentioned technical scheme, when the wallboard receives vibration and makes the movable block slide, the movable block drives the round platform and carries out synchronous motion, and the round platform drives the synchronous displacement of friction disc, and the relative displacement takes place for friction disc and fixed pipe this moment, produces frictional force through friction disc and fixed pipe inner wall, prevents to a certain extent that the relative motion of round platform is too fast to prevent to a certain extent that spring plate deformation is too big and lead to the relative motion between wallboard and the stand too big, the friction disc converts partial energy into heat energy simultaneously, thereby plays the effect of reducing vibration.

Further, the mounting groove is formed in the side wall, close to the inner wall of the fixed pipe, of the round table along the radial direction of the round table, the guide rod is slidably arranged in the mounting groove, and the friction plate is fixedly arranged at one end, close to the inner wall of the fixed pipe, of the guide rod.

Through adopting above-mentioned technical scheme, when wallboard received the vibration and the round platform takes place relative motion, the round platform drove guide bar synchronous motion, and the guide bar drives friction disc synchronous motion, and the relative displacement takes place for friction disc and fixed intraductal wall, guide bar extrusion friction disc for the friction disc supports at fixed intraductal wall, prevents to a certain extent that the friction disc from diminishing because of the friction and appearing the space between the pipeline inner wall, and friction disc and fixed intraductal wall take place the friction and hinder round platform and fixed intraductal wall relative motion, thereby play the effect of reducing vibration.

Further, the upright post is fixedly provided with a baffle on the side wall close to the wallboard, and the baffle is in sliding contact with the wallboard.

By adopting the technical scheme, when the wallboard vibrates, the baffle props against the wallboard, the lower bottom of the wallboard is flush with the lower bottom of the wallboard, the upper bottom of the wallboard is flush with the upper bottom of the baffle, the wallboard is propped against the baffle, the baffle prevents the wallboard from displacing along the width of the wallboard to a certain extent, so that the vibration is reduced,

further, a sealing strip is arranged between the baffle and the wallboard.

Through adopting above-mentioned technical scheme, when baffle and wallboard installation finish the back, have certain gap, utilize the sealing strip to block to produce the gap between wallboard and the baffle, prevent to have moisture between stand and wallboard. And enter the room and the gaps between the wall and the upright posts.

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

1. if vibration is generated due to earthquake or other factors, and when the wallboard receives acting force along the length direction of the wallboard, the wallboard moves along the length direction of the wallboard, the plug blocks squeeze the buffer assembly, the buffer assembly plays a role in preventing the wallboard from moving, the acting force received by the wallboard is gradually transmitted to the upright post through the buffer assembly, and the wallboard is prevented from rigidly contacting with the upright post; the process achieves the purpose of weakening the vibration of the wallboard, and further improves the integral shock resistance of the wallboard.

2. When the wallboard is installed, because the wallboard is provided with the inserted block, the stand is provided with the slot, inserts the slot through the inserted block between stand and the wallboard for the stand links to each other fixedly with the wallboard, makes easy operation, and dismantle conveniently, cuts baffle and sealing strip and plays the outside infiltration that prevents to a certain extent.

3. When the buffering main part works under stress, the friction plate inside the fixed pipe prevents the two interactive blocks from moving relatively to a certain extent, and simultaneously prevents the moving blocks from returning to the original position too fast, so that part of energy is converted into heat energy to be dissipated.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a structure of a baffle and a seal strip according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of the present application;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an enlarged view of portion B of FIG. 3;

FIG. 6 is a schematic diagram of a buffer assembly according to an embodiment of the present application.

Reference numerals illustrate: 1. a column; 11. a slot; 12. a baffle; 121. a sealing strip; 13. a slideway; 2. a bottom beam; 21. a groove; 23. a third elastic member; 231. a pull rod; 232. a screw; 233. a pressure spring; 234. a seal ring; 3. a wallboard; 31. inserting blocks; 32. a mounting hole; 321. a screw hole; 4. a buffer resistor; 41. a first spring piece; 42. a movable block; 421. a slide block; 43. a first elastic member; 44. a fixed tube; 441. round bench; 442. a slide bar; 443. a mounting groove; 444. a guide rod; 445. a friction plate; 446. and a second elastic member.

Detailed Description

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

The embodiment of the application discloses an assembled building wall connection structure.

Referring to fig. 1, an assembled building wall connection structure comprises a bottom beam 2, a column 1 and a wall plate 3, wherein the column 1 and the wall plate 3 are arranged on the bottom beam 2, a slot 11 is formed in the side wall of the column 1, which is close to the wall plate 3, and an inserting block 31 for inserting the slot 11 is fixedly arranged on the wall plate 3, which is close to the side wall of the column 1. The upper bottom of the upright column 1 is flush with the wallboard 3, the top beam of the bottom beam 2 is provided with a groove 21 along the length direction of the bottom beam 2, and the length of the groove 21 is consistent with the length of the wallboard 3. During installation, the wallboard 3 is hoisted on the bottom beam 2, the wallboard 3 is inserted into the groove 21, and the insert block 31 is inserted into the slot 11.

Referring to fig. 2, a baffle 12 is fixedly arranged on the side wall of the upright column 1, which is close to the wallboard 3, and the baffle 12 is in sliding contact with the wallboard 3. The upper bottom of the upright post 1 is flush with the lower bottom of the baffle 12, the lower bottom of the upright post 1 is flush with the lower bottom of the baffle 12, and a sealing strip 121 is arranged between the baffle 12 and the wallboard 3, and the sealing strip 121 is arranged along the length direction of the upright post 1. The sealing strip 121 is made of rubber, the lower bottom of the sealing strip 121 is flush with the lower bottom of the baffle 12, the upper bottom of the sealing strip 121 is flush with the upper bottom of the baffle 12, the sealing strip 121 is fixedly connected to the baffle 12, and water seepage between the wallboard 3 and the upright column 1 is prevented to a certain extent.

Referring to fig. 3 and 4, the bottom of the recess 21 is provided with a plurality of third elastic members 23, the bottom wall of the wall plate 3 is provided with a plurality of mounting holes 32, and the third elastic members 23 are located in the mounting holes 32. Screw holes 321 communicated with the mounting holes 32 are formed in the wallboard 3, and the screw holes 321 are located right above the mounting holes 32. The third elastic member 23 comprises a pull rod 231, a screw rod 232 and a pressure spring 233, wherein the upper end of the screw rod 232 is in threaded connection with the screw hole 321, the lower end of the screw rod 232 is in ball joint with one end of the pull rod 231, the other end of the pull rod 231 is fixedly connected with the pressure spring 233, and the other end of the pressure spring 233 is fixedly connected with the bottom wall of the groove 21. One side of the groove 21 is provided with a single-side baffle 12, the baffle 12 is fixedly connected with the bottom beam 2 through a screw rod 232, and after the third elastic piece 23 is installed, the single-side baffle 12 is fixed on the side wall of the bottom beam 2 through the screw rod 232. In order to reduce oxidation, a closed ring is arranged on the inner wall of the mounting opening. When the wallboard 3 vibrates, the wallboard 3 moves along the height direction of the wallboard 3, and at this time, the wallboard 3 drives the screw 232 and the pull rod 231 to synchronously move, and the compression spring 233 deforms to a certain extent to prevent the pull rod 231 from relatively moving, so that the wallboard 3 is prevented from moving integrally along the height direction of the wall column to a certain extent.

Referring to fig. 3 and 5, a buffer assembly is provided between the insert block 31 and the bottom wall of the slot 11, the buffer assembly is used for blocking the wallboard 3 from moving along the length direction of the wallboard 3, and a plurality of buffer resistors 4 are provided.

Referring to fig. 5 and 6, the damper assembly includes a first spring piece 41, a movable block 42, and a first elastic member 43. The two movable blocks 42 are arranged, the two movable blocks 42 are arranged in the slot 11 in a sliding manner along the vertical direction, and the first elastic piece 43 is arranged between the two movable blocks 42 and is used for driving the two movable blocks 42 to move towards the directions close to each other.

Referring to fig. 5 and 6, the first spring piece 41 is an arc-shaped spring piece, two ends of the first spring piece 41 are respectively hinged with the two movable blocks 42, and the convex surface of the first spring piece 41 is abutted with the insert block 31. The bottom wall of the slot 11 is provided with a slide way 13 along the vertical direction, a slide block 421 is arranged in the slide way 13 in a sliding way, and the slide block 421 is fixedly connected with the movable block 42. To increase the friction between the movable block 42 and the bottom side of the slot 11, a rough block is provided at one end of the movable block 42 near the slot 11. When wallboard 3 receives the vibration, the deformation is found to the elastic sheet, and when movable block 42 displacement, coarse piece and slide 13 friction hinder the relative movement of sliding block, play the effect of damping, and when vibration was finished, coarse piece hindered sliding block relative movement for the spring leaf slowly resumes deformation, prevents to resume to be too fast to lead to the secondary vibration between wallboard 3 and the stand 1 to a certain extent, reaches the effect of resetting the damping.

Referring to fig. 5 and 6, a fixed tube 44 is fixedly arranged on the bottom wall of the slot 11 along the vertical direction, the fixed tube 44 is a cylindrical tube, sliding rods 442 are arranged at two ends of the fixed tube 44 in a sliding manner, the movable block 42 is fixedly arranged at one end of the sliding rod 442 extending out of the fixed tube 44, and round tables 441 are fixedly arranged on the two sliding rods 442; the first elastic member 43 is provided as a tension spring, and both ends of the tension spring are fixedly connected with the two circular truncated cones 441, respectively. A notch is arranged between the inner wall of the orifice of the fixed tube 44 and the sliding rod 442, and the sliding rod 442 is slidably connected with the fixed tube 44 through the notch. When the wallboard 3 vibrates, the tension spring blocks the relative motion between the round table 441 and the inner wall of the fixed pipe 44, so that the vibration reduction effect is achieved.

Referring to fig. 5 and 6, the circular truncated cone 441 is provided with a friction portion for abutting against the inner wall of the fixed tube 44, and the friction portion is provided as a friction plate 445. The friction parts are uniformly arranged around the periphery of the round table 441, one end, close to the inner wall of the fixed pipe 44, of the friction plate 445 is provided with a rough surface, the friction plate 445 is slidably arranged on the round table 441 along the radial direction of the round table 441, the round table 441 is provided with a second elastic piece 446 used for driving the friction plate 445 to be abutted against the inner wall of the fixed pipe 44, the second elastic piece 446 is a compression spring, when the friction plate 445 is slightly small in friction, when the wallboard 3 is vibrated, the round table 441 and the inner wall of the fixed pipe 44 generate relative displacement, and the friction plate 445 prevents relative movement between the round table 441 and the fixed pipe 44 to a certain extent, so that a vibration reduction effect is achieved.

Referring to fig. 5 and 6, a mounting groove 443 is formed in a sidewall of the circular truncated cone 441 adjacent to the inner wall of the fixed tube 44 in a radial direction of the circular truncated cone 441, a guide rod 444 is slidably provided in the mounting groove 443, and a friction plate 445 is fixedly provided at one end of the guide rod 444 adjacent to the inner wall of the fixed tube 44. The guide tube other end is connected with a second elastic piece 446, the second elastic piece 446 presses the guide tube to apply pressure perpendicular to the fixed inner wall, the second elastic piece 446 is set to be a second pressure spring 233, one end of the second pressure spring 233 is abutted with the bottom wall of the mounting groove 443, and the other end of the second pressure spring 233 is abutted with the guide rod 444.

The implementation principle of the embodiment of the application is as follows: if the wall plate 3 receives a force along the length direction of the wall plate 3 due to vibration generated by an earthquake or other factors, the wall plate 3 moves along the length direction of the wall plate 3, the insert block 31 presses the buffer assembly to press the first spring piece 41, the two ends of the first spring piece 41 are opened, the two movable blocks 42 slide in a direction away from each other, and the first elastic piece 43 blocks the movement of the two movable blocks 42; the first spring piece 41 is matched with the first elastic piece 43 to play a role in preventing the wallboard 3 from moving, and the acting force born by the wallboard 3 is gradually transmitted to the upright post 1 through the buffer component to prevent the wallboard 3 from rigidly contacting with the upright post 1; the process achieves the purpose of weakening the vibration of the wallboard 3, and further improves the overall shock resistance of the wallboard 3.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides an assembled building wall connection structure, includes floorbar (2), stand (1) and wallboard (3) set up on floorbar (2), its characterized in that: the side wall of the upright post (1) close to the wallboard (3) is provided with a slot (11), and the side wall of the wallboard (3) close to the upright post (1) is fixedly provided with an inserting block (31) for inserting the slot (11); a buffer assembly is arranged between the insert block (31) and the bottom wall of the slot (11), and the buffer assembly is used for preventing the wallboard (3) from moving along the length direction of the wallboard (3).

2. The fabricated building wall connection structure according to claim 1, wherein: the buffer assembly comprises a first spring piece (41), movable blocks (42) and first elastic pieces (43), wherein the two movable blocks (42) are arranged in the slot (11) in a sliding mode along the vertical direction, the first elastic pieces (43) are arranged between the two movable blocks (42) and used for driving the two movable blocks (42) to move towards the direction close to each other, two ends of the first spring piece (41) are respectively hinged to the two movable blocks (42), and the insert blocks (31) are in butt joint with the first spring piece (41).

3. The fabricated building wall connection structure according to claim 2, wherein: the bottom wall of the slot (11) is fixedly provided with a fixed pipe (44) along the vertical direction, two ends of the fixed pipe (44) are slidably provided with sliding rods (442), the movable block (42) is fixedly arranged at one end of the sliding rods (442) extending out of the fixed pipe (44), and round tables (441) are fixedly arranged on the two sliding rods (442); the first elastic piece (43) is provided with a tension spring, and two ends of the tension spring are fixedly connected with the two round tables (441) respectively.

4. A fabricated building wall connection according to claim 3, wherein: the round table (441) is provided with a friction part which is used for abutting against the inner wall of the fixed pipe (44).

5. The fabricated building wall connection structure according to claim 4, wherein: the friction part is arranged as a friction plate (445), the friction plate (445) is arranged on the round table (441) in a sliding manner along the radial direction of the round table (441), and a second elastic piece (446) for driving the friction plate (445) to abut against the inner wall of the fixed pipe (44) is arranged on the round table (441).

6. The fabricated building wall connection structure according to claim 5, wherein: the friction plate (445) is fixedly arranged at one end of the guide rod (444) close to the inner wall of the fixed pipe (44).

7. The fabricated building wall connection structure according to claim 1, wherein: the vertical column (1) is fixedly provided with a baffle plate (12) on the side wall close to the wallboard (3), and the baffle plate (12) is in sliding contact with the wallboard (3).

8. The fabricated building wall connection structure according to claim 7, wherein: a sealing strip (121) is arranged between the baffle (12) and the wallboard (3).