CN114737669A - Assembled building antidetonation connecting device - Google Patents

Abstract

The invention discloses an assembled building anti-seismic connecting device which comprises an upper supporting beam column, wherein a lower supporting beam column is arranged below the upper supporting beam column, positioning clamping grooves are formed in the outer surface of the bottom end of the upper supporting beam column and the outer surface of the top end of the lower supporting beam column, an upper connecting shell is arranged below the upper supporting beam column, a lower connecting shell is arranged above the lower supporting beam column, the upper connecting shell and the lower connecting shell are symmetrical, and an upper beam column connecting mechanism and a lower beam column connecting mechanism are arranged on the upper surface of the upper connecting shell and the bottom surface of the lower connecting shell. According to the invention, the upper connecting shell, the lower connecting shell, the upper beam column connecting mechanism, the lower beam column connecting mechanism, the transverse beam column connecting mechanism and the buffer mechanism are arranged, so that the beam columns of the assembly type building can be rapidly assembled and connected, the disassembly is convenient, the stability of the connection position is ensured, the service time is effectively saved, the working efficiency is effectively improved, and the anti-seismic performance of the beam columns of the assembly type building can be enhanced.

Description

Assembled building antidetonation connecting device

Technical Field

The invention relates to the technical field of fabricated buildings, in particular to an anti-seismic connecting device for fabricated buildings.

Background

With the rapid development of social economy, the fabricated building refers to a building which is fabricated by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and accessories on the site in a reliable connection mode.

However, the beam columns in the existing fabricated building are connected by riveting or welding during installation, construction is inconvenient, alignment at the connection position is inconvenient, deviation exists, and once external vibration is large, fracture is easy to occur; therefore, the existing requirements are not met, and a fabricated building earthquake-resistant connecting device is provided for the needs.

Disclosure of Invention

The invention aims to provide an assembly type building anti-seismic connecting device, which solves the problems that beam columns in the existing assembly type building are connected by riveting or welding during installation, construction is inconvenient, alignment of connecting parts is inconvenient, deviation exists, and the assembly type building anti-seismic connecting device is easy to break once external vibration is large.

In order to achieve the purpose, the invention provides the following technical scheme: an assembled building anti-seismic connecting device comprises an upper supporting beam column, wherein a lower supporting beam column is arranged below the upper supporting beam column, positioning clamping grooves are formed in the outer surface of the bottom end of the upper supporting beam column and the outer surface of the top end of the lower supporting beam column, an upper connecting shell is arranged below the upper supporting beam column, a lower connecting shell is arranged above the lower supporting beam column, the upper connecting shell and the lower connecting shell are symmetrical to each other, and an upper beam column connecting mechanism and a lower beam column connecting mechanism are arranged on the upper surface of the upper connecting shell and the bottom surface of the lower connecting shell;

the upper beam column and the lower beam column connecting mechanism comprise positioning shells, the bottom end of the upper supporting beam column and the top end of the lower supporting beam column are inserted in the middle of the corresponding positioning shells, four symmetrical mounting bar-shaped grooves are formed in the outer sides of the positioning shells, two limiting plates are movably arranged on the inner sides of the mounting bar-shaped grooves, an inserting pin is arranged in the middle of the two limiting plates, one end of the inserting pin penetrates through the positioning shells and is inserted in the inner sides of the positioning clamping grooves, the other end of the inserting pin is located in the middle of the mounting bar-shaped grooves, locking inserting grooves are formed in the two sides of the end portions of the inserting pin, limiting inserting blocks are arranged on the end faces, facing the end portions of the inserting pin, of the limiting plates, can be inserted in the locking inserting grooves, and the limiting plates and the positioning shells are fixed through screws;

the middle of the upper supporting beam column and the lower supporting beam column is provided with a buffer mechanism, the buffer mechanism is surrounded by an upper connecting shell and a lower connecting shell, the buffer mechanism comprises two buffer supporting rods, the outer sides of the buffer supporting rods are provided with supporting rings, the top end of one buffer supporting rod is inserted in the bottom of the upper supporting beam column, the supporting ring on the outer side is attached to the bottom surface of the upper supporting beam column, the bottom end of the other buffer supporting rod is inserted in the top end of the lower supporting beam column, the supporting ring on the outer side is attached to the top end surface of the lower supporting beam column, eight reinforcing supporting columns are arranged in the middle of the two buffer supporting rods, the two ends of each reinforcing supporting column are respectively inserted in the end parts of the two buffer supporting rods, the outer sides of the eight reinforcing supporting columns are provided with four symmetrically distributed transverse buffer rods, and the transverse buffer rods are movably inserted in the middle of the upper connecting shell and the lower connecting shell, the end parts of the transverse buffer rods, which are close to the reinforcing support columns, and the middles of the two buffer support rods are provided with buffer connecting rods;

four transverse supporting beam columns are arranged around the upper connecting shell and the lower connecting shell, positioning holes are arranged on the end surfaces of the transverse supporting beam columns close to the end parts of the upper connecting shell and the lower connecting shell, the center of the inner side end surface of the positioning hole is provided with an insertion sheet, the upper surface and the lower surface of the positioning hole are provided with locking insertion grooves, the four ends and the middle of the ends of the upper connecting shell and the lower connecting shell are provided with transverse beam column connecting mechanisms, the transverse beam column connecting mechanism comprises a reinforced connecting central column, one end of the reinforced connecting central column is positioned in the upper connecting shell and the lower connecting shell, the end surface of the reinforced connecting central column is provided with a guide connecting groove, the end part of the transverse buffer rod far away from the reinforced support column is inserted into the inner side of the reinforced connecting central column from the guide connecting groove, the transverse buffer spring is arranged between the end part of the inner part of the transverse buffer rod and the reinforced connecting central column and the middle of the reinforced connecting central column;

the utility model discloses a reinforcing and connecting center post, including reinforcing and connecting center post, reinforcing and connecting center post's surface and reinforcing and connecting center post sliding connection are run through to the one end side of flexible locking piece, the inboard activity of direction spout is provided with the direction and supports the slider, one side laminating flexible locking piece of direction support slider just passes through integration casting moulding with flexible locking piece.

Preferably, one side of the bottom end of the telescopic locking block is provided with an arc-shaped connecting sheet, the bottom surface of the connecting sheet is smoothly connected with the inner part of the reinforced connecting central column, and the connecting sheet and the reinforced connecting central column are integrally formed by injection molding.

Preferably, one side of one of the guide sliding grooves is provided with a support piece clamping groove, the inner side of the support piece clamping groove is provided with a support piece, one end of the support piece is located below the adjacent guide support sliding block, and an adjusting spring is arranged below the other end of the support piece.

Preferably, a positioning screw penetrates through the middle of the adjusting spring, and a threaded end of the positioning screw penetrates through the supporting sheet and is screwed into the clamping groove of the supporting sheet.

Preferably, an annular sheet is arranged between the bottom end of the adjusting spring and the positioning screw, and the area of the annular sheet is larger than the maximum area of the end part of the adjusting spring.

Preferably, both sides of direction spread groove all are provided with the guide way, the size of guide way is unanimous with direction spacing slider overall dimension, the end that the direction spread groove is located reinforcement connection center post inside is provided with the circular port.

Preferably, the outer side of each reinforced support column is provided with a connecting ring, the middle of each of the eight connecting rings is provided with an intermediate connecting block, the middle of each intermediate connecting block and the middle of each connecting ring are provided with a reinforced connecting plate, and the connecting rings, the reinforced connecting plates and the intermediate connecting blocks are integrally cast and molded.

Preferably, the end parts of the two ends of the buffer connecting rod are respectively provided with a shaft pin in a penetrating way, and the buffer connecting rod is connected with the transverse buffer rod and the buffer supporting rod through the shaft pins.

Preferably, the reinforcing and connecting central column is provided with a limiting plate outside the end part between the upper connecting shell and the lower connecting shell, and the limiting plate is square in shape.

Preferably, the bottom surface of connecting the casing down is provided with the screw hole that runs through, the bottom surface of connecting the casing on is provided with the screw hole, screw hole and screw hole correspond each other, go up and connect the casing and pass through the screw connection with connecting the casing down.

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

1. according to the invention, the end parts of the transverse supporting beam column are attached to the end parts of the upper connecting shell and the lower connecting shell, so that the outer ends of the reinforcing connecting central columns are covered by the positioning holes, the insertion pieces are inserted into the inner sides of the rotary insertion grooves, then the transverse supporting beam column is rotated, the transverse supporting beam column drives the insertion pieces and the rotary central column to rotate, the rotary central column drives the extrusion blocks on the outer sides of the inner ends of the rotary central column to rotate and extrude the telescopic locking blocks, the extruded telescopic locking blocks extend outwards from the inner part of the reinforcing connecting central column, the extended telescopic locking blocks are inserted into the inner sides of the locking insertion grooves, the beam column of the assembly type building can be rapidly assembled and connected, the disassembly is convenient, the stability of the connecting part is ensured, the service time is effectively saved, and the working efficiency is effectively improved;

2. the invention supports the upper supporting beam column and the lower supporting beam column by arranging eight reinforcing support columns between the upper supporting beam column and the lower supporting beam column, and the eight reinforcing support columns are reinforced by the connecting rings, the reinforcing connecting plates and the middle connecting blocks, so that the reinforcing support columns are prevented from being bent or broken, meanwhile, the outer sides of the reinforcing support columns are connected with the transverse buffer rods through the buffer connecting rods, and the transverse buffer springs are arranged between the transverse buffer rods and the reinforcing connecting central columns.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A according to the present invention;

FIG. 3 is a schematic structural view of a transverse beam-column connection mechanism according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3 at B according to the present invention;

FIG. 5 is a schematic view of the reinforced connecting center post of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5 at A according to the present invention;

FIG. 7 is a schematic structural view of a damper mechanism according to the present invention;

FIG. 8 is an enlarged view of a portion of the buffer mechanism of the present invention;

fig. 9 is a partial structural plan view of the buffer mechanism of the present invention.

In the figure: 1. an upper support beam column; 2. a lower support beam column; 3. transversely supporting the beam column; 4. an upper connecting shell; 5. an upper beam column and a lower beam column connecting mechanism; 501. positioning the housing; 502. a plug pin; 503. locking the inserting groove; 504. a limiting plate; 505. a limiting plug-in block; 506. installing a strip-shaped groove; 6. a transverse beam column connecting mechanism; 601. the central column is connected in a reinforcing way; 602. rotating the central column; 603. rotating the inserting groove; 604. a telescopic locking block; 605. extruding the block; 606. a guide chute; 607. a guide support slider; 608. a support sheet; 609. the supporting sheet is clamped in the groove; 610. adjusting the spring; 611. a set screw; 7. a buffer mechanism; 701. buffering the supporting rod; 702. a transverse buffer rod; 703. a guide limit slide block; 704. a lateral buffer spring; 705. a buffer connecting rod; 706. a support ring; 707. reinforcing the supporting columns; 708. a connecting ring; 709. reinforcing the connecting plate; 710. a middle connecting block; 8. a lower connection housing; 9. positioning holes; 10. a plug-in sheet; 11. locking the inserting groove; 12. a guide connecting groove; 13. and a positioning clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 9, an embodiment of the present invention includes: an assembled building anti-seismic connecting device comprises an upper supporting beam column 1, a lower supporting beam column 2 is arranged below the upper supporting beam column 1, positioning clamping grooves 13 are formed in the outer surface of the bottom end of the upper supporting beam column 1 and the outer surface of the top end of the lower supporting beam column 2, an upper connecting shell 4 is arranged below the upper supporting beam column 1, a lower connecting shell 8 is arranged above the lower supporting beam column 2, the upper connecting shell 4 and the lower connecting shell 8 are symmetrical to each other, and an upper beam column connecting mechanism 5 and a lower beam column connecting mechanism 5 are arranged on the upper surface of the upper connecting shell 4 and the bottom surface of the lower connecting shell 8;

the upper beam column and lower beam column connecting mechanism 5 comprises a positioning shell 501, the bottom end of an upper supporting beam column 1 and the top end of a lower supporting beam column 2 are inserted in the middle of the corresponding positioning shell 501, four symmetrical mounting bar-shaped grooves 506 are arranged on the outer side of the positioning shell 501, two limiting plates 504 are movably arranged on the inner sides of the mounting bar-shaped grooves 506, an inserting pin 502 is arranged in the middle of the two limiting plates 504, one end of the inserting pin 502 penetrates through the positioning shell 501 to be inserted in the inner side of the positioning clamping groove 13, the other end of the inserting pin 502 is arranged in the middle of the mounting bar-shaped grooves 506, locking inserting grooves 503 are arranged on two sides of the end of the inserting pin 502, a limiting inserting block 505 is arranged on the end face of the limiting plate 504 facing the end of the inserting pin 502, the limiting inserting block 505 can be inserted in the locking inserting grooves 503, and the limiting plates 504 and the positioning shell 501 are fixed through screws;

a buffer mechanism 7 is arranged between the upper support beam column 1 and the lower support beam column 2, the buffer mechanism 7 is surrounded by an upper connecting shell 4 and a lower connecting shell 8, the buffer mechanism 7 comprises two buffer support rods 701, support rings 706 are arranged on the outer sides of the buffer support rods 701, the top end of one buffer support rod 701 is inserted into the inner part of the bottom end of the upper support beam column 1, the outer side support ring 706 is attached to the bottom surface of the upper support beam column 1, the bottom end of the other buffer support rod 701 is inserted into the inner part of the top end of the lower support beam column 2, the outer side support ring 706 is attached to the top end surface of the lower support beam column 2, eight reinforcing support columns 707 are arranged in the middle of the two buffer support rods 701, the two ends of each reinforcing support column 707 are respectively inserted into the inner parts of the two buffer support rods 701, four symmetrically distributed transverse buffer rods 702 are arranged on the outer sides of the eight reinforcing support columns 707, the transverse buffer rods 702 are movably inserted into the middles of the upper connecting shell 4 and the lower connecting shell 8, the end part of the transverse buffer rod 702 close to the reinforcing support column 707 and the middle of the two buffer support rods 701 are both provided with a buffer connecting rod 705;

four transverse supporting beam columns 3 are arranged on the periphery of the upper connecting shell 4 and the lower connecting shell 8, positioning holes 9 are formed in the end faces, close to the upper connecting shell 4 and the lower connecting shell 8, of the transverse supporting beam columns 3, insertion pieces 10 are arranged in the centers of the inner side end faces of the positioning holes 9, locking insertion grooves 11 are formed in the upper surface and the lower surface of each positioning hole 9, transverse beam column connecting mechanisms 6 are arranged between the four end portions and the end portions of the upper connecting shell 4 and the lower connecting shell 8, each transverse beam column connecting mechanism 6 comprises a reinforced connecting central column 601, one end of the reinforced connecting central column 601 is located in the upper connecting shell 4 and the lower connecting shell 8, guide connecting grooves 12 are formed in the end faces of the reinforced connecting central column 601, the end portion, far away from a reinforced supporting column 707, of each transverse buffering rod 702 is inserted into the inner side of the reinforced connecting central column 601 from the guide connecting grooves 12, and transverse buffering springs 704 are arranged between the end portions of the transverse buffering rods 702 and the reinforced connecting central column 601;

the other end of the reinforced connection center column 601 is inserted into the positioning hole 9, a rotatable rotary center column 602 is arranged in the middle of the end part of the reinforced connection center column 601 inserted into the positioning hole 9, a rotary insertion groove 603 is formed in the end face of the outer end of the rotary center column 602, two extrusion blocks 605 are arranged on the outer side of the end part of the rotary center column 602 located inside the reinforced connection center column 601, telescopic locking blocks 604 are arranged above and below the inner end of the rotary center column 602, one end of each telescopic locking block 604 penetrates through the outer surface of the reinforced connection center column 601 and is in sliding connection with the reinforced connection center column 601, a guide sliding groove 606 is formed in one end side of each telescopic locking block 604, a guide supporting sliding block 607 is movably arranged on the inner side of the guide sliding groove 606, and one side edge of the guide supporting sliding block 607 is attached to the telescopic locking block 604 and is integrally cast with the telescopic locking block 604.

Further, the bottom end one side of flexible locking piece 604 is provided with curved connection piece, the bottom surface and the inside smooth connection of reinforcement connection center post 601 of connection piece, and connection piece and reinforcement connection center post 601 are through integration injection moulding, and with reinforcement connection center post 601 inner wall smooth connection's curved connection piece make extrusion piece 605 when rotatory along with rotatory inserting groove 603, extrusion piece 605 can be smooth with flexible locking piece 604 from the inside release of reinforcement connection center post 601.

Furthermore, one side of one of the guide sliding grooves 606 is provided with a support piece clamping groove 609, the inner side of the support piece clamping groove 609 is provided with a support piece 608, one end of the support piece 608 is located below the adjacent guide support slider 607, an adjusting spring 610 is arranged below the other end of the support piece 608, and the support piece 608 supports the guide support slider 607 and the adjacent telescopic locking block 604, so that the telescopic locking block 604 is prevented from falling from the reinforced connection central column 601.

Furthermore, a positioning screw 611 penetrates through the middle of the adjusting spring 610, a threaded end of the positioning screw 611 penetrates through the supporting piece 608 and is screwed into the supporting piece clamping groove 609, the adjusting spring 610 and the supporting piece 608 are supported in position through the positioning screw 611, and the adjusting spring 610 is prevented from being separated from the supporting piece 608.

Further, an annular sheet is arranged between the bottom end of the adjusting spring 610 and the positioning screw 611, the area of the annular sheet is larger than the maximum area of the end of the adjusting spring 610, and it is ensured that the positioning screw 611 has sufficient effective area to support and press the end of the adjusting spring 610 when the positioning screw 611 is butted with the reinforcement connection central column 601.

Further, the both sides of direction spread groove 12 all are provided with the guide way, the size and the direction spacing slider 703 overall dimension of guide way are unanimous, the tip that direction spread groove 12 is located reinforcement connection center post 601 inside is provided with the circular port, guarantee that horizontal buffer rod 702 rotates after getting into reinforcement connection center post 601 inside from the grafting of direction spread groove 12 and can make horizontal buffer rod 702 and reinforcement connection center post 601 between unable the separation, guarantee the stability of being connected between horizontal buffer rod 702 and the reinforcement connection center post 601.

Further, the outer side of each reinforcing support column 707 is provided with a connecting ring 708, the middle of each of the eight connecting rings 708 is provided with an intermediate connecting block 710, the middle of each intermediate connecting block 710 and the middle of each connecting ring 708 are provided with a reinforcing connecting plate 709, the connecting rings 708, the reinforcing connecting plates 709 and the intermediate connecting blocks 710 are integrally cast and molded, the eight reinforcing support columns 707 in the middle of the two buffering support rods 701 can be connected and reinforced through the intermediate connecting blocks 710, the reinforcing connecting plates 709 and the connecting rings 708, and the reinforcing support columns 707 are prevented from being bent.

Further, the end parts of the two ends of the buffer connecting rod 705 penetrate through the shaft pins, the buffer connecting rod 705 is connected with the transverse buffer rod 702 and the buffer supporting rod 701 through the shaft pins, the end parts of the two ends of the buffer connecting rod 705 can move freely due to the shaft pin connection, and the respective movement of the buffer supporting rod 701 and the transverse buffer rod 702 cannot be interfered.

Furthermore, the outer side of the end part of the reinforced connection central column 601 located between the upper connection housing 4 and the lower connection housing 8 is provided with a limiting plate, the limiting plate is square, and the square limiting plate can ensure that the reinforced connection central column 601 does not rotate when the insertion piece 10 is inserted into the rotary insertion groove 603 and drives the rotary central column 602 to rotate.

Further, the bottom surface of connecting casing 8 down is provided with the screw hole that runs through, and the bottom surface of connecting casing 4 on is provided with the screw hole, and the screw hole corresponds with the screw hole each other, goes up and connects casing 4 and connect casing 8 down and pass through the screw connection, last connecting casing 4 with connect casing 8 down can be quick after laminating each other fix connecting casing 4 and connecting casing 8 down, avoid appearing droing between the part.

The working principle is as follows: when in use, the ends of the four transverse buffer rods 702 connected with the reinforced connection central column 601 are inserted into the inner side of the reinforced connection central column 601 from the guide connecting grooves 12 on the end surface of the reinforced connection central column 601, the transverse buffer rods 702 are rotated, after the four transverse buffer rods 702 are connected with the four reinforced connection central columns 601, the four buffer connecting rods 705 on the outer sides of the ends of the buffer supporting rods 701 are connected with the other end of the transverse buffer rods 702, then the reinforced supporting column 707 connected by the middle connecting block 710, the reinforced connecting plate 709 and the connecting ring 708 is arranged in the middle of the two buffer supporting rods 701, then the four reinforced connection central columns 601 and the transverse buffer rods 702 after the connection are clamped by the upper connecting shell 4 and the lower connecting shell 8, and the upper connecting shell 4 and the lower connecting shell 8 are fixed by screws after the reinforced connection central column 601 is clamped, then, the transverse supporting beam column 3 is butted with the end parts of the upper connecting shell 4 and the lower connecting shell 8, so as to ensure that the positioning hole 9 at the end part of the transverse supporting beam column 3 covers the outer end of the reinforced connecting central column 601, and ensure that the insertion piece 10 at the inner side of the positioning hole 9 is inserted in the rotary insertion groove 603, then the transverse supporting beam column 3 is rotated, so that the transverse supporting beam column 3 drives the insertion piece 10 and the rotary central column 602 to rotate, at the moment, the rotary central column 602 drives the extrusion block 605 at the outer side of the inner end to rotate and extrude the telescopic locking block 604, the extruded telescopic locking block 604 extends outwards from the inner part of the reinforced connecting central column 601, the extruded telescopic locking block 604 is inserted in the locking insertion groove 11, at the moment, the reinforced connecting beam column 601 and the transverse supporting beam column 3 are fixed, and then the top end of the lower supporting beam column 2 and the bottom end of the upper supporting beam column 1 are respectively inserted from the middle of the two positioning shells 501, until the end parts of the lower supporting beam column 2 and the upper supporting beam column 1 are connected with the buffer supporting rod 701, the inserting pin 502 penetrates from the middle of the installation strip-shaped groove 506 and is inserted into the positioning clamping groove 13, at the moment, the two limiting plates 504 are placed in the installation strip-shaped groove 506 and are pushed towards the end part of the inserting pin 502, so that the limiting inserting blocks 505 at the end parts of the limiting plates 504 are inserted into the locking inserting grooves 503 at the outer ends of the inserting pins 502, the limiting plates 504 are fixed by using screws, the upper supporting beam column 1, the lower supporting beam column 2 and the transverse supporting beam column 3 are assembled, rapid assembly and connection can be rapidly performed on the beam columns of the assembly type building, convenience in disassembly is achieved, the stability of the joints is guaranteed, the service time is effectively saved, the working efficiency is effectively improved, and the anti-seismic performance of the beam columns of the assembly type building can be enhanced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an assembly type structure antidetonation connecting device, includes support beam column (1), its characterized in that: a lower supporting beam column (2) is arranged below the upper supporting beam column (1), positioning clamping grooves (13) are formed in the outer surface of the bottom end of the upper supporting beam column (1) and the outer surface of the top end of the lower supporting beam column (2), an upper connecting shell (4) is arranged below the upper supporting beam column (1), a lower connecting shell (8) is arranged above the lower supporting beam column (2), the upper connecting shell (4) and the lower connecting shell (8) are symmetrical, and an upper beam column connecting mechanism and a lower beam column connecting mechanism (5) are arranged on the upper surface of the upper connecting shell (4) and the bottom surface of the lower connecting shell (8);

the upper beam column and lower beam column connecting mechanism (5) comprises a positioning shell (501), the bottom end of an upper supporting beam column (1) and the top end of a lower supporting beam column (2) are inserted in the middle of the corresponding positioning shell (501), four symmetrical mounting strip-shaped grooves (506) are formed in the outer side of the positioning shell (501), two limiting plates (504) are movably arranged on the inner sides of the mounting strip-shaped grooves (506), an inserting pin (502) is arranged in the middle of the two limiting plates (504), one end of the inserting pin (502) penetrates through the positioning shell (501) and is inserted in the inner side of a positioning clamping groove (13), the other end of the inserting pin (502) is located in the middle of the mounting strip-shaped grooves (506), locking inserting grooves (503) are formed in the two sides of the end part, a limiting block (505) is arranged on the end face, facing the end part of the inserting pin (502), of the limiting plate (504), and the limiting block (505) can be inserted in the inner side of the locking inserting grooves (503), the limiting plate (504) and the positioning shell (501) are fixed through screws;

the middle of the upper supporting beam column (1) and the lower supporting beam column (2) is provided with a buffer mechanism (7), the buffer mechanism (7) is surrounded by an upper connecting shell (4) and a lower connecting shell (8), the buffer mechanism (7) comprises two buffer supporting rods (701), the outer sides of the buffer supporting rods (701) are provided with supporting rings (706), the top end of one of the buffer supporting rods (701) is inserted into the bottom end of the upper supporting beam column (1), the outer side of the supporting ring (706) is attached to the bottom surface of the upper supporting beam column (1), the bottom end of the other buffer supporting rod (701) is inserted into the top end of the lower supporting beam column (2), the outer side of the supporting ring (706) is attached to the top end surface of the lower supporting beam column (2), eight reinforcing supporting columns (707) are arranged in the middle of the two buffer supporting rods (701), and the two ends of the reinforcing supporting columns (707) are respectively inserted into the ends of the two buffer supporting rods (701), four transverse buffer rods (702) which are symmetrically distributed are arranged on the outer sides of the eight reinforcing support columns (707), the transverse buffer rods (702) are movably inserted in the middles of the upper connecting shell (4) and the lower connecting shell (8), and buffer connecting rods (705) are arranged at the end parts, close to the reinforcing support columns (707), of the transverse buffer rods (702) and in the middles of the two buffer support rods (701);

four transverse supporting beam columns (3) are arranged around the upper connecting shell (4) and the lower connecting shell (8), positioning holes (9) are formed in the end faces, close to the upper connecting shell (4) and the lower connecting shell (8), of the transverse supporting beam columns (3), insertion pieces (10) are arranged at the centers of the inner side end faces of the positioning holes (9), locking insertion grooves (11) are formed in the upper surface and the lower surface of each positioning hole (9), transverse beam column connecting mechanisms (6) are arranged between the four end portions and the middle of the end portions of the upper connecting shell (4) and the lower connecting shell (8), each transverse beam column connecting mechanism (6) comprises a reinforced connecting central column (601), one end of each reinforced connecting central column (601) is located in the inner portion of the upper connecting shell (4) and the lower connecting shell (8), guide connecting grooves (12) are formed in the end faces of the four end portions of the upper connecting shell (4) and the lower connecting shell (8), and the end portions, far away from reinforced supporting columns (707), of the transverse buffer rods (702) are inserted into the guide connecting grooves (12) A transverse buffer spring (704) is arranged between the end part of the inner part of the transverse buffer rod (702) and the reinforced connecting central column (601);

the other end of the reinforced connecting central column (601) is inserted into the inner side of the positioning hole (9), a rotatable rotating central column (602) is arranged in the middle of the end part of the reinforced connecting central column (601) inserted into the inner side of the positioning hole (9), a rotating insertion groove (603) is formed in the end face of the outer end of the rotating central column (602), two extrusion blocks (605) are arranged on the outer side of the end part of the rotating central column (602) positioned inside the reinforced connecting central column (601), telescopic locking blocks (604) are arranged above and below the inner end of the rotating central column (602), one end of each telescopic locking block (604) penetrates through the outer surface of the reinforced connecting central column (601) and is in sliding connection with the reinforced connecting central column (601), a guide sliding groove (606) is formed in the side of one end of each telescopic locking block (604), and a guide support sliding block (607) is movably arranged on the inner side of each guide sliding groove (606), one side edge of the guide support sliding block (607) is attached to the telescopic locking block (604) and is integrally cast and molded with the telescopic locking block (604).

2. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: one side of the bottom end of the telescopic locking block (604) is provided with an arc-shaped connecting sheet, the bottom surface of the connecting sheet is smoothly connected with the interior of the reinforced connecting central column (601), and the connecting sheet and the reinforced connecting central column (601) are integrally formed by injection molding.

3. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: one side of one of the guide sliding grooves (606) is provided with a support piece clamping groove (609), the inner side of the support piece clamping groove (609) is provided with a support piece (608), one end of the support piece (608) is located below an adjacent guide support sliding block (607), and an adjusting spring (610) is arranged below the other end of the support piece (608).

4. A fabricated building earthquake-resistant connection arrangement as defined in claim 3, wherein: the middle of the adjusting spring (610) is provided with a positioning screw (611) in a penetrating mode, and the threaded end of the positioning screw (611) penetrates through the supporting piece (608) and is screwed into the supporting piece clamping groove (609).

5. An assembly type structure earthquake-resistant connecting device according to claim 4, wherein: an annular sheet is arranged between the bottom end of the adjusting spring (610) and the positioning screw (611), and the area of the annular sheet is larger than the maximum area of the end part of the adjusting spring (610).

6. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: the two sides of the guide connecting groove (12) are provided with guide grooves, the size of each guide groove is consistent with the external dimension of the guide limiting sliding block (703), and a circular hole is formed in the end part, located inside the reinforced connecting central column (601), of the guide connecting groove (12).

7. An assembly type structure earthquake-proof connection device according to claim 1, wherein: the outside of reinforcement support column (707) is provided with go-between (708), eight the centre of go-between (708) is provided with intermediate junction piece (710), intermediate junction piece (710) all is provided with reinforced connection board (709) with the centre of go-between (708), reinforced connection board (709) and intermediate junction piece (710) are through the integrated casting shaping.

8. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: the buffer device is characterized in that shaft pins penetrate through the end parts of two ends of the buffer connecting rod (705), and the buffer connecting rod (705) is connected with the transverse buffer rod (702) and the buffer supporting rod (701) through the shaft pins.

9. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: the reinforced connecting central column (601) is positioned at the outer side of the end part between the upper connecting shell (4) and the lower connecting shell (8) and is provided with a limiting plate, and the limiting plate is square in shape.

10. An assembly type structure earthquake-resistant connecting device according to claim 1, characterized in that: the bottom surface of connecting casing (8) is provided with the screw hole that runs through down, the bottom surface of going up connecting casing (4) is provided with the screw hole, the screw hole corresponds with the screw hole each other, go up connecting casing (4) and pass through bolted connection with connecting casing (8) down.

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