CN111305395A

CN111305395A - Connecting structure and method for assembled building support

Info

Publication number: CN111305395A
Application number: CN202010204116.2A
Authority: CN
Inventors: 屠斌伟
Original assignee: Xinchang Huaman Building Materials Co ltd
Current assignee: Xinchang Huaman Building Materials Co ltd
Priority date: 2020-03-21
Filing date: 2020-03-21
Publication date: 2020-06-19

Abstract

The invention discloses a connecting structure and a method for supporting an assembly type building in the technical field of the assembly type building, which comprises a first wall plate and a second wall plate, wherein a supporting structure is embedded in the surface of the first wall plate, first mounting grooves are symmetrically formed in the surface of the first wall plate, a second mounting groove is formed between the first mounting grooves, fixing grooves communicated with the bottom surface are formed in two sides of an inner cavity of the first wall plate, connecting columns are vertically and fixedly connected with two sides of the top of the second wall plate, damping structures are arranged on two sides of the bottom surface of the first wall plate, a reinforcing base station consisting of a first reinforcing station and a second reinforcing station is respectively arranged on the side walls, close to a connecting end, of the first wall plate and the second wall plate, and a reinforcing connecting structure is arranged between the first reinforcing station and the second reinforcing station. The use effect is good.

Description

Connecting structure and method for assembled building support

Technical Field

The invention relates to the technical field of assembly type buildings, in particular to a connecting structure and a connecting method for an assembly type building support.

Background

The fabricated building is a building which is formed 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 slabs, 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 the accessories on the site in a reliable connection mode. The prefabricated building mainly comprises a prefabricated concrete structure, a steel structure, a modern wood structure building and the like, and is a representative of a modern industrial production mode due to the adoption of standardized design, factory production, assembly construction, informatization management and intelligent application.

Common assembly type building outer walls on the market are mostly directly fixed in reserved mounting grooves, a connecting structure is not arranged between the assembly type building outer walls, connection between the assembly type building outer walls is achieved simply by means of concrete or other bonding materials, firmness of connection between the assembly type building outer walls cannot be guaranteed in the mode, cracking and other phenomena occur, meanwhile, stability of the assembly type building structure is greatly influenced, and damping performance is poor, and therefore the connecting structure and the method for supporting the assembly type building are provided.

Disclosure of Invention

The present invention is directed to a connecting structure and method for an assembled building support, which solves the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a connection structure that assembly type structure supported usefulness, includes first wallboard and second wallboard, first wallboard surface inlays and is equipped with bearing structure, the perpendicular fixedly connected with spliced pole in second wallboard top both sides, first wallboard bottom surface both sides are provided with shock-absorbing structure, first wallboard and second wallboard are close to the link lateral wall and are provided with the first reinforcing base station of consolidating platform and second reinforcing base station constitution respectively, first reinforcing base station and second reinforcing base station are provided with the linking structure between the platform.

Further, first mounting groove has been seted up to first wallboard surface symmetry, the second mounting groove has been seted up between the first mounting groove, the fixed slot with the bottom surface intercommunication is seted up to first wallboard inner chamber both sides, first mounting groove and second mounting groove are the rectangular channel.

Further, bearing structure is including locating the fly leaf in the first mounting groove, fly leaf one end fixed connection picture peg, just fly leaf other end fixed connection push pedal, the push pedal activity is located between first mounting groove and the second mounting groove, the left and right sides connect through two hydraulic support rods between the push pedal, just it has the backup pad to slide to peg graft between the push pedal.

Further, set up the intercommunication mouth with push pedal looks adaptation between first mounting groove and the second mounting groove, the recess with the backup pad looks adaptation is seted up to the push pedal lateral wall, the backup pad passes through fixing bolt with first wallboard and is connected.

Further, shock-absorbing structure includes the accept table with first wallboard bottom surface fixed connection, the perpendicular connecting rod that sets up of accept table bottom surface fixedly connected with symmetry, the connecting rod tip is provided with integrated into one piece's connecting block, shock-absorbing structure is still including inlaying the snubber block of locating second wallboard inner chamber, the equal symmetry in snubber block top surface and bottom surface is provided with the snubber bar with second wallboard inner wall fixed connection, the snubber bar outer wall cover is equipped with damping spring, set up the recess with connecting block looks adaptation on the snubber block, just through positioning bolt fixed connection between snubber block and the connecting block.

Furthermore, the second wallboard lateral wall is seted up with the operation mouth that the snubber block position corresponds, just second wallboard and first wallboard mutual adaptation are connected.

Further, consolidate connection structure and include the positioning seat of joint between first reinforcement platform and second reinforcement platform, the fixed arm that runs through first reinforcement platform is pegged graft at the positioning seat top, fixed arm tip fixed connection concave type dish, it has the trachea that runs through second reinforcement platform to peg graft in the positioning seat bottom, trachea one end fixed connection location sucking disc, just the trachea other end is connected with the extraction opening of positioning seat lateral wall, be provided with the valve in the extraction opening.

A construction connection method of a connection structure for supporting an assembly type building comprises the following steps:

s1: sequentially forming a first mounting groove and a second mounting groove which are of square structures on a first wallboard, forming fixing grooves on two sides of the bottom surface of the first wallboard, wherein the fixing grooves are columnar grooves with square sections, and sequentially forming the first mounting groove and the second mounting groove, and the first mounting groove and the fixing grooves;

s2: placing the inserting plate into a first mounting groove and sliding towards one side, placing the movable plate into the first mounting groove, placing the push plate into a second mounting groove, and finally fixedly connecting the two ends of the movable plate with the inserting plate and the push plates, and mounting a hydraulic support rod between the two push plates;

s3: mounting the assembly structure of the damping block, the damping rod and the damping spring into the second wallboard, and symmetrically and fixedly mounting the upper connecting columns on the top of the second wallboard;

s4: during connection, the connecting column on the second wall plate is aligned to the fixed groove on the first wall plate and is completely inserted, the push plates are pushed to two sides through the hydraulic support rod, the inserting plate is driven to move towards the fixed groove through the movable plate until the inserting plate passes through a connecting port matched with the connecting column, the supporting plate is inserted between the two push plates and is fixed through the fixing bolt;

s5: when the first wallboard is butted with the second wallboard, the connecting rod is inserted into the second wallboard and is butted with the damping block, the damping block and the connecting block are fixedly connected through the positioning bolt, and the damping block has damping and buffering performance through the damping spring and the damping rod;

s6: reinforce the bench with the positioning seat card at first reinforcement platform and second, concave type dish and location sucking disc butt this moment connect outside aspiration pump through the extraction opening for the location sucking disc produces negative pressure suction effect, has increased the connection stability of first wallboard and second wallboard.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the connecting columns and the fixing grooves are arranged on the adjacent connecting wall plates, the inserting plates are driven by the hydraulic support rods to be limited and inserted into the connecting columns in the fixing grooves, and the support stability is reinforced by the support plates, so that preliminary forming connection between the wall plates is completed, the operation is simple, and the assembly efficiency is improved; after the adjacent wallboards are preliminarily connected, the end parts of the connecting rods are inserted into the shock absorption blocks, and the shock absorption blocks and the connecting rods are fixedly connected through the positioning bolts manually, so that when the wallboards are vertically vibrated, a part of vibration force can be effectively counteracted through the arranged shock absorption springs and the shock absorption blocks which elastically float on the shock absorption rods, the shock absorption effect is achieved, and the safety is improved; treat adjacent wallboard initial joint back, with the positioning seat card on two reinforcement platforms to be connected with the extraction opening through aspiration pump and exhaust tube, make the function that the positioning suction cup produced negative pressure suction, only adsorb together with the concave plate, increased the stability and the fastness that the wallboard is connected.

Drawings

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

FIG. 2 is a schematic view of the shock absorbing structure of the present invention;

fig. 3 is a schematic view of the reinforced connection structure of the present invention.

In the figure: 100. a first wall panel; 101. a first mounting groove; 102. a second mounting groove; 103. fixing grooves; 200. a support structure; 201. a movable plate; 202. inserting plates; 203. pushing the plate; 204. a support plate; 205. a hydraulic support rod; 300. connecting columns; 400. a shock-absorbing structure; 401. a receiving table; 402. a connecting rod; 403. a damper block; 404. positioning the bolt; 405. a shock-absorbing lever; 406. a damping spring; 500. a second wall panel; 501. an operation port; 600. reinforcing the base station; 601. a first reinforcing table; 602. a second reinforcing table; 700. adding a connecting structure; 701. positioning seats; 702. a fixed arm; 703. a concave-shaped disk; 704. an air tube; 705. positioning a sucker; 706. an air extraction opening; 707. and (4) a valve.

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a connection structure for supporting an assembly type building, including a first wall plate 100 and a second wall plate 500, wherein the surface of the first wall plate 100 is symmetrically provided with first mounting grooves 101, a second mounting groove 102 is provided between the first mounting grooves 101, two sides of the inner cavity of the first wall plate 100 are provided with fixing grooves 103 communicated with the bottom surface, and both the first mounting groove 101 and the second mounting groove 102 are rectangular grooves; the operation mouth 501 that corresponds with snubber block 403 position is seted up to second wallboard 500 lateral wall, and the staff of being convenient for inserts the connecting block of positioning bolt 404 fixed connection snubber block 403 and connecting rod 402 tip for the connecting block receives damping spring 406's buffering cushioning effect together with snubber block 403, and the wall body that has improved the montage has buffering shock-absorbing function, and second wallboard 500 and first wallboard 100 looks adaptation are connected.

The surface of the first wall plate 100 is embedded with a support structure 200; the supporting structure 200 comprises a movable plate 201 arranged in the first mounting groove 101, one end of the movable plate 201 is fixedly connected with an inserting plate 202, the other end of the movable plate 201 is fixedly connected with a push plate 203, the push plate 203 is movably arranged between the first mounting groove 101 and the second mounting groove 102, the left push plate 203 and the right push plate 203 are connected through two hydraulic support rods 205, a supporting plate 204 is inserted between the push plates 203 in a sliding mode, and the supporting plate 204 is used for increasing the resistance between the push plates 203 at the two sides so that the inserting plate 202 cannot be dislocated; set up the intercommunication mouth with push pedal 203 looks adaptation between first mounting groove 101 and the second mounting groove 102, push pedal 203 lateral wall sets up the recess with backup pad 204 looks adaptation, make hydraulic support pole 205 can order about push pedal 203 to drive fly leaf 201 and remove, thereby order about during picture peg 202 runs through the plug connection post 300 completely, form the zonulae occludens effect, and the follow-up dismantlement of wallboard of being convenient for is recycled in the use of bearing structure 200, connect the equipment process simple and fast, the work efficiency is improved, backup pad 204 passes through fixing bolt with first wallboard 100 and is connected.

The two sides of the top of the second wall plate 500 are vertically and fixedly connected with the connecting columns 300, the two sides of the bottom surface of the first wall plate 100 are provided with the shock absorption structures 400, and the assembled wall plate structure has certain buffering and shock absorption performance through the arrangement of the shock absorption structures 400, so that certain shock resistance is realized, and the safety is improved; referring to fig. 2, the shock absorbing structure 400 includes a receiving platform 401 fixedly connected to the bottom surface of the first wall board 100, a connecting rod 402 symmetrically and vertically disposed is fixedly connected to the bottom surface of the receiving platform 401, an integrally formed connecting block is disposed at an end of the connecting rod 402, the shock absorbing structure 400 further includes a shock absorbing block 403 embedded in the inner cavity of the second wall board 500, shock absorbing rods 405 fixedly connected to the inner wall of the second wall board 500 are symmetrically disposed on the top surface and the bottom surface of the shock absorbing block 403, the shock absorbing rod 405 penetrates through the shock absorbing block 403, a shock absorbing spring 406 is sleeved on the outer wall of the shock absorbing rod 405, a groove matched with the connecting block is formed in the shock absorbing block 403, the shock absorbing block 403 is fixedly connected to the connecting block through a positioning bolt 404, the receiving platform 401 is fixedly connected to the connecting block at the end of the connecting rod 402, so that the receiving platform 401 can synchronously float and slightly move in a, the safety is improved.

The side walls of the first wall board 100 and the second wall board 500 close to the connecting end are respectively provided with a reinforcing base 600 consisting of a first reinforcing platform 601 and a second reinforcing platform 602, and reinforcing openings for the fixing arm 702 and the air pipe 704 are formed in the first reinforcing platform 601 and the second reinforcing platform 602;

a reinforcing connection structure 700 is arranged between the first reinforcing platform 601 and the second reinforcing platform 602; referring to fig. 3, the reinforcing connection structure 700 includes a positioning seat 701 clamped between the first reinforcing platform 601 and the second reinforcing platform 602, a fixing arm 702 penetrating through the first reinforcing platform 601 is inserted into the top of the positioning seat 701, an end of the fixing arm 702 is fixedly connected with a concave disc 703, an air pipe 704 penetrating through the second reinforcing platform 602 is inserted into the bottom of the positioning seat 701, one end of the air pipe 704 is fixedly connected with a positioning suction disc 705, after the positioning seat is clamped on the first reinforcing platform 601 and the second reinforcing platform 602, the concave disc 703 and the positioning suction disc 705 are abutted together, the air in the air pipe 704 is pumped out by connecting the air pumping port 706 with an external air pumping pump through an air pumping pipe, so that the positioning suction cup 705 generates negative pressure suction, and the concave disc 703 are only adsorbed together, further increasing the stability and firmness of the connection between the wall boards, the other end of the air pipe 704 is connected with an air pumping hole 706 on the side wall of the positioning seat 701, and a valve 707 is arranged in the air pumping hole 706.

s1: sequentially forming a first mounting groove 101 and a second mounting groove 102 which are of square structures on a first wall plate 100, forming fixing grooves 103 on two sides of the bottom surface of the first wall plate 100, wherein the fixing grooves 103 are cylindrical grooves with square sections, and sequentially forming the first mounting groove 101, the second mounting groove 102, the first mounting groove 101 and the fixing grooves 103;

s2: placing the inserting plate 202 into the first mounting groove 101 and sliding towards one side, placing the movable plate 201 into the first mounting groove 101, placing the push plate 203 into the second mounting groove 102, and finally fixedly connecting the two ends of the movable plate 201 with the inserting plate 202 and the push plate 203, and mounting the hydraulic support rod 205 between the two push plates 203;

s3: installing the assembling structure of the shock-absorbing blocks 403, the shock-absorbing rods 405 and the shock-absorbing springs 406 into the second wall panel 500, and symmetrically and fixedly installing the upper connecting columns 300 at the top of the second wall panel 500;

s4: during connection, the connecting column 300 on the second wall plate 500 is aligned with the fixing groove 103 on the first wall plate 100 and is completely inserted, the push plates 203 are pushed to two sides through the hydraulic support rods 205, the inserting plate 202 is driven to move towards the fixing groove 103 through the movable plate 201 until the inserting plate 202 passes through a connecting port which is formed in the connecting column 300 and is matched with the inserting plate 202, and then the support plate 204 is inserted between the two push plates 203 and is fixed through the fixing bolt;

s5: when the first wall plate 100 and the second wall plate 500 are butted, the connecting rod 402 is inserted into the second wall plate 500 and is butted with the shock absorption block 403, the shock absorption block 403 and the connecting block are fixedly connected through the positioning bolt 404, and the shock absorption block 403 has shock absorption and buffering performance through the shock absorption spring 406 and the shock absorption rod 405;

s6: the positioning seat 701 is clamped on the first reinforcing platform 601 and the second reinforcing platform 602, the concave disc 703 is abutted to the positioning suction disc 705, and the external suction pump is connected through the suction port 706, so that the positioning suction disc 705 generates a negative pressure suction effect, and the connection stability of the first wall plate 100 and the second wall plate 500 is improved.

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description of the specification and the accompanying drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, the machines, the parts and equipment adopt conventional models in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, so that the detailed description is omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a connection structure that prefabricated building supported usefulness which characterized in that: including first wallboard (100) and second wallboard (500), first wallboard (100) surface inlays and is equipped with bearing structure (200), perpendicular fixedly connected with spliced pole (300) in second wallboard (500) top both sides, first wallboard (100) bottom surface both sides are provided with shock-absorbing structure (400), first wallboard (100) and second wallboard (500) are close to the link lateral wall and are provided with first reinforcement platform (601) and second respectively and consolidate reinforcement base station (600) that platform (602) is constituteed, first reinforcement platform (601) and second are consolidated and are provided with between platform (602) and add and link firmly connection structure (700).

2. A coupling structure for a fabricated construction support according to claim 1, wherein: first mounting groove (101) have been seted up to first wallboard (100) surface symmetry, second mounting groove (102) have been seted up between first mounting groove (101), fixed slot (103) with the bottom surface intercommunication are seted up to first wallboard (100) inner chamber both sides, first mounting groove (101) and second mounting groove (102) are the rectangular channel.

3. A coupling structure for a fabricated construction support according to claim 1 or 2, wherein: bearing structure (200) is including locating fly leaf (201) in first mounting groove (101), fly leaf (201) one end fixed connection picture peg (202), just fly leaf (201) other end fixed connection push pedal (203), push pedal (203) activity is located between first mounting groove (101) and second mounting groove (102), the left and right sides connect through two hydraulic support pole (205) between push pedal (203), just it has backup pad (204) to slide to peg graft between push pedal (203).

4. A coupling structure for a fabricated construction support according to claim 2 or 3, wherein: a communication opening matched with the push plate (203) is formed between the first mounting groove (101) and the second mounting groove (102), a groove matched with the support plate (204) is formed in the side wall of the push plate (203), and the support plate (204) is connected with the first wall plate (100) through a fixing bolt.

5. A coupling structure for a fabricated construction support according to claim 1, wherein: shock-absorbing structure (400) include with first wallboard (100) bottom surface fixed connection's bearing platform (401), bearing platform (401) bottom surface fixedly connected with symmetry connecting rod (402) that set up perpendicularly, connecting rod (402) tip is provided with integrated into one piece's connecting block, shock-absorbing structure (400) are still including inlaying snubber block (403) of locating second wallboard (500) inner chamber, snubber block (403) top surface and the equal symmetry in bottom surface are provided with snubber rod (405) with second wallboard (500) inner wall fixed connection, snubber rod (405) outer wall cover is equipped with damping spring (406), set up the recess with connecting block looks adaptation on snubber block (403), just through positioning bolt (404) fixed connection between snubber block (403) and the connecting block.

6. A coupling structure for a fabricated construction support according to claim 1 or 5, wherein: the lateral wall of the second wallboard (500) is provided with an operation opening (501) corresponding to the position of the damping block (403), and the second wallboard (500) is connected with the first wallboard (100) in a mutually adaptive mode.

7. A coupling structure for a fabricated construction support according to claim 1, wherein: add firm connection structure (700) including the joint in first positioning seat (701) of consolidating between platform (601) and the second and consolidate platform (602), positioning seat (701) top is pegged graft and is had fixed arm (702) of running through first consolidating platform (601), fixed arm (702) tip fixed connection concave type dish (703), positioning seat (701) bottom is pegged graft and is had trachea (704) of running through second and consolidating platform (602), trachea (704) one end fixed connection location sucking disc (705), just trachea (704) other end is connected with extraction opening (706) of positioning seat (701) lateral wall, be provided with valve (707) in extraction opening (706).

8. A construction connection method of a connection structure for an assembled building support is characterized by comprising the following steps:

s1: sequentially arranging a first mounting groove (101) and a second mounting groove (102) which are of square structures on a first wall plate (100), arranging fixing grooves (103) on two sides of the bottom surface of the first wall plate (100), wherein the fixing grooves (103) are cylindrical grooves with square sections, and sequentially arranging the first mounting groove (101), the second mounting groove (102), the first mounting groove (101) and the fixing grooves (103);

s2: placing the inserting plate (202) into the first mounting groove (101) and sliding towards one side, then placing the movable plate (201) into the first mounting groove (101), then placing the push plate (203) into the second mounting groove (102), finally fixedly connecting the two ends of the movable plate (201) with the inserting plate (202) and the push plate (203), and then mounting a hydraulic support rod (205) between the two push plates (203);

s3: installing an assembly structure of a shock absorption block (403), a shock absorption rod (405) and a shock absorption spring (406) into the second wall plate (500), and symmetrically and fixedly installing an upper connecting column (300) at the top of the second wall plate (500);

s4: when in connection, the connecting column (300) on the second wall plate (500) is aligned to the fixing groove (103) on the first wall plate (100) and is completely inserted, the push plates (203) are pushed to two sides through the hydraulic support rod (205), the inserting plate (202) is driven to move in the fixing groove (103) through the movable plate (201) until the inserting plate (202) passes through a connecting port which is formed in the connecting column (300) and is matched with the connecting column, and then the support plate (204) is inserted between the two push plates (203) and is fixed through the fixing bolt;

s5: when the first wall plate (100) and the second wall plate (500) are butted, the connecting rod (402) is inserted into the second wall plate (500) and is butted with the damping block (403), the damping block (403) and the connecting block are fixedly connected through the positioning bolt (404), and the damping block (403) has damping and buffering performance through the damping spring (406) and the damping rod (405);

s6: the positioning seat (701) is clamped on the first reinforcing platform (601) and the second reinforcing platform (602), the concave disc (703) is abutted to the positioning suction disc (705), and the external suction pump is connected through the suction opening (706), so that the positioning suction disc (705) generates a negative pressure suction effect, and the connection stability of the first wall plate (100) and the second wall plate (500) is improved.