CN219219369U - Device for splicing assembly type components - Google Patents

Abstract

The utility model provides a device for splicing assembled components, which comprises a caulking plate assembly for blocking the joint of two adjacent components, wherein the caulking plate assembly comprises a first caulking plate and a second caulking plate which are symmetrically arranged at the joint of two sides of the two adjacent components; the positioning assembly is clamped with the caulking plate assembly and abuts against two adjacent components; at least three screw assemblies penetrating the positioning assembly and the adjacent two members and used for adjusting the flatness between the adjacent two members; the adjusting nut is in threaded connection with the screw assembly and is used for adjusting the distance between the positioning assembly and the component; the positioning assembly comprises a first positioning plate and a second positioning plate which are symmetrically arranged on two sides of two adjacent components and are respectively clamped with the first caulking plate and the second caulking plate. The device for splicing the assembly type components solves the problem that the assembly type components are not flat in splicing in the installation process; simple structure, convenient operation.

Description

Device for splicing assembly type components

Technical Field

The utility model relates to the technical field of assembly type components, in particular to a device for splicing assembly type components.

Background

With the rapid development of industrialization and town of China and the continuous increase of labor cost, assembled concrete members have become hot spots for the development of the building industry in recent years.

When the assembled concrete member is installed, the problems of dislocation, uneven splicing, overlarge flatness deviation and the like easily occur among the members. The requirements can be met before concrete pouring by splicing or diagonal bracing through the keels. But the construction procedures of splicing and straightening through keels are more, the required working hours are longer, and the construction efficiency is low. And when the joists are assembled and straightened, the joists are easy to shift due to vibration in the concrete pouring process, so that the two components are still spliced unevenly after pouring.

The above drawbacks are to be overcome by those skilled in the art.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides a device for splicing assembled components, which has a simple structure and is convenient to operate.

In order to achieve the above purpose, the main technical scheme adopted by the utility model comprises the following steps:

the utility model provides a device for assembled component concatenation, includes the caulking plate subassembly that is used for plugging up the seam of two adjacent components, and this caulking plate subassembly includes the first caulking plate and the second caulking plate of symmetry installation in two adjacent component both sides seam; the positioning assembly is clamped with the caulking plate assembly and abuts against two adjacent components; at least three screw assemblies passing through the positioning assembly and two adjacent members; the adjusting nuts are in threaded connection with the screw rod assembly and are used for adjusting the distance between the positioning assembly and the component;

the positioning assembly comprises a first positioning plate and a second positioning plate which are symmetrically arranged on two sides of two adjacent components and are respectively clamped with the first caulking plate and the second caulking plate; the screw rod assembly sequentially penetrates through the first locating plate, the two adjacent components and the second locating plate and is used for adjusting the flatness between the two adjacent components.

Through set up first caulking board, second caulking board in the seam crossing symmetry of two adjacent component both sides, set up first locating plate, second locating plate respectively with first caulking board, second caulking board joint in two adjacent component both sides symmetry, screw rod subassembly passes first locating plate in proper order, two adjacent component and second locating plate, and set up adjusting nut and screw rod subassembly threaded connection, through rotatory adjusting nut, realize adjusting the distance between locating component and the component, make first locating plate, second locating plate all contact with the component, and then make first locating plate, second locating plate be in straight state with the component respectively, can solve dislocation of two adjacent components, the uneven problem of concatenation.

Further, two ends of the screw rod assembly are provided with base plates, and the base plates are arranged between the positioning assembly and the adjusting nut. Through setting up the backing plate between locating component and adjusting nut, when rotatory adjusting nut, provide effort to locating component through the backing plate, can improve adjusting nut's rotatory reliability.

Further, the screw assembly comprises a first screw and a second screw which are arranged in parallel and sequentially penetrate through the first positioning plate, the two adjacent components and the second positioning plate. Preferably, the first screw rod comprises a first connecting part, a first adjusting part and a second adjusting part which are respectively arranged at two ends of the first connecting part; the second screw comprises a second connecting part, a third adjusting part and a fourth adjusting part which are respectively arranged at two ends of the second connecting part; external threads are arranged on the outer surfaces of the first adjusting part, the second adjusting part, the third adjusting part and the fourth adjusting part.

Further, a fixing component is arranged on the screw component; the fixing assembly comprises a first fixing mechanism and a second fixing mechanism which are symmetrically arranged at two ends of the screw assembly and are used for adjusting the distance between the first screw and the second screw; the first fixing mechanism comprises a first pull rod used for connecting the first screw rod, a second pull rod used for connecting the second screw rod and a first connecting piece used for connecting the first pull rod and the second pull rod; the second fixing mechanism comprises a third pull rod used for being connected with the first screw rod, a fourth pull rod used for being connected with the second screw rod and a second connecting piece used for being connected with the third pull rod and the fourth pull rod.

Preferably, one end of the first pull rod and one end of the second pull rod are respectively provided with a first circular ring for the first screw rod and the second screw rod to penetrate; one end of the third pull rod and one end of the fourth pull rod are respectively provided with a second circular ring for the first screw rod and the second screw rod to penetrate. Preferably, left-handed threads are arranged at the other ends of the first pull rod and the third pull rod; the other ends of the second pull rod and the fourth pull rod are provided with right-handed threads; the first connecting piece, the inside both ends of second connecting piece all are provided with respectively with left-handed screw assorted first internal thread hole, and with right-handed screw assorted second internal thread hole.

The first fixing mechanism and the second fixing mechanism are symmetrically arranged at two ends of the screw rod assembly, and the first pull rod and the second pull rod can be close to the center of the first connecting piece or far away from the center of the first connecting piece by rotating the first connecting piece; likewise, the third pull rod and the fourth pull rod are close to the center of the second connecting piece or far away from the center of the second connecting piece by rotating the second connecting piece; therefore, the first pull rod and the third pull rod can pull or push the first screw rod, the second pull rod and the fourth pull rod can pull or push the second screw rod, the first screw rod and the second screw rod are enabled to synchronously displace, and the size of a joint between two adjacent components is adjusted.

Further, a first perforation through which the first screw rod passes and a second perforation through which the second screw rod passes are arranged in parallel on the first positioning plate; and a third perforation through which the first screw rod passes and a fourth perforation through which the second screw rod passes are arranged on the second positioning plate in parallel.

Preferably, the first positioning plate and the second positioning plate are both U-shaped with opening sides facing the member.

Preferably, a first concave position for clamping the first caulking plate is arranged on the opening side of the first positioning plate, and the depth of the first concave position is equal to the thickness of the first caulking plate; the opening side of the second positioning plate is provided with a second concave position for clamping the second caulking plate, and the depth of the second concave position is equal to the thickness of the second caulking plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the device for splicing the assembled components, the first caulking plates and the second caulking plates are symmetrically arranged at the joints of two sides of two adjacent components, the first positioning plates and the second positioning plates are respectively clamped with the first caulking plates and the second caulking plates, the screw assembly sequentially passes through the first positioning plates, the two adjacent components and the second positioning plates, and the adjusting nuts are in threaded connection with the screw assembly, and the distance between the positioning assembly and the components is adjusted by rotating the adjusting nuts, so that the first positioning plates and the second positioning plates are in contact with the components, and further the first positioning plates and the second positioning plates are in straight states with the components respectively, so that the problems of dislocation and uneven splicing of the two adjacent components can be solved. Simple structure, the staff operation of being convenient for can improve the efficiency of construction. In addition, as the device for splicing the assembly type components is directly connected to the two components, deflection caused by vibration can not occur in the subsequent concrete pouring process, and the flatness of the two components can be still maintained after the pouring process is completed;

2. the first fixing mechanism and the second fixing mechanism are symmetrically arranged at two ends of the screw rod assembly, and the first pull rod and the second pull rod can be close to the center of the first connecting piece or far away from the center of the first connecting piece by rotating the first connecting piece; likewise, the third pull rod and the fourth pull rod are close to the center of the second connecting piece or far away from the center of the second connecting piece by rotating the second connecting piece; therefore, the first pull rod and the third pull rod can pull or push the first screw rod, the second pull rod and the fourth pull rod can pull or push the second screw rod, the first screw rod and the second screw rod are enabled to synchronously displace, and the size of a joint between two adjacent components is adjusted.

Drawings

FIG. 1 is a schematic view of the overall structure of an apparatus for splicing assembled components according to one embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of a screw assembly according to one embodiment of the present utility model;

FIG. 3 is a schematic structural view of a fixing assembly according to an embodiment of the present utility model;

FIG. 4 is a left side view of one embodiment of the present utility model mounted to a fabricated component;

fig. 5 is a front view of one embodiment of the present utility model mounted to a fabricated component.

1, caulking plate assembly; 11. a first caulking plate; 12. a second caulking plate; 2. a screw assembly; 21. a first screw; 211. a first connection portion; 212. a first adjusting part; 213. a second adjusting part; 22. a second screw; 221. a second connecting portion; 222. a third adjusting section; 223. a fourth adjusting section; 3. a positioning assembly; 31. a first positioning plate; 311. a first perforation; 312. a second perforation; 313. a first concave position; 32. a second positioning plate; 321. a third perforation; 322. a fourth perforation; 323. a second concave position; 4. a fixing assembly; 41. a first fixing mechanism; 411. a first pull rod; 412. a second pull rod; 413. a first connector; 414. a first ring; 42. a second fixing mechanism; 421. a third pull rod; 422. a fourth pull rod; 423. a second connector; 424. a second ring; 5. a member; 6. an adjusting nut; 7. a backing plate.

Detailed Description

The present utility model will be described more fully hereinafter in order to facilitate an understanding of the present utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1 to 5, an apparatus for splicing assembled components according to an embodiment of the present utility model includes a caulking plate assembly 1, at least three screw assemblies 2, at least three positioning assemblies 3, at least three fixing assemblies 4, a plurality of adjusting nuts 6, and a plurality of backing plates 7. The caulking plate assembly 1 is used for caulking joints of two adjacent components 5; the positioning assembly 3 is clamped with the caulking plate assembly 1 and abuts against two adjacent components 5; the screw assembly 2 passes through the positioning assembly 3 and two adjacent components 5; the fixed component 4 is arranged on the screw component 2; the adjusting nut 6 is in threaded connection with the screw assembly 2 and is used for adjusting the distance between the positioning assembly 3 and the member 5; the backing plate 7 is arranged between the positioning assembly 3 and the adjusting nut 6. The member 5 is provided with a bore.

The caulking plate assembly 1 comprises a first caulking plate 11 and a second caulking plate 12; the first caulking plate 11 and the second caulking plate 12 are all arranged in a strip shape. The first caulking plate 11 and the second caulking plate 12 are symmetrically arranged at the joint of two sides of two adjacent components 5.

Referring to fig. 2, the screw assembly 2 includes a first screw 21 and a second screw 22; the diameters of the sections of the first screw 21 and the second screw 22 are smaller than the bore diameter of the drilling holes formed in the component 5. The first screw 21 includes a first connection portion 211, a first adjustment portion 212, and a second adjustment portion 213; the first adjusting part 212 and the second adjusting part 213 are respectively arranged at two ends of the first connecting part 211; the outer surfaces of the first adjusting part 212 and the second adjusting part 213 are respectively provided with external threads matched with the adjusting nut 6. The second screw 22 includes a second connection part 221, a third adjustment part 222, and a fourth adjustment part 223; the third adjusting part 222 and the fourth adjusting part 223 are installed at both ends of the second connecting part 221; the outer surfaces of the third adjusting part 222 and the fourth adjusting part 223 are respectively provided with external threads matched with the adjusting nut 6.

Referring to fig. 1 and 4, the positioning assembly 3 includes a first positioning plate 31 and a second positioning plate 32; the first positioning plate 31 and the second positioning plate 32 are symmetrically arranged at two sides of two adjacent components 5. The first positioning plate 31 and the second positioning plate 32 are both U-shaped with their opening sides facing the member 5. A first concave position 313 is provided on the opening side of the first positioning plate 31 for the first positioning plate 31 to be clamped with the first caulking plate 11; the depth of the first recess 313 is equal to the thickness of the first caulking plate 11. The second positioning plate 32 is provided with a second concave 323 on the opening side for clamping the second positioning plate 32 with the second caulking plate 12; the depth of the second recess 323 is equal to the thickness of the second caulk plate 12.

A first through hole 311 and a second through hole 312 are arranged in parallel on the first positioning plate 31; the second positioning plate 32 is provided with a third through hole 321 and a fourth through hole 322 in parallel. The first hole 311, the second hole 312, the third hole 321, and the fourth hole 322 are all rectangular holes with semicircular ends. The lengths of the first through hole 311 and the third through hole 321 in the horizontal direction are larger than the cross-sectional diameter of the first screw 21, so that the first screw 21 can move in the horizontal direction in the first through hole 311 and the third through hole 321. The second and fourth through holes 312 and 322 each have a length in the horizontal direction greater than the cross-sectional diameter of the second screw 22, so that the second screw 22 can move in the horizontal direction in the second and fourth through holes 312 and 322. The first screw 21 and the second screw 22 sequentially pass through the first positioning plate 31, the two adjacent components 5 and the second positioning plate 32. The adjusting nuts 6 at the two ends of the first screw rod 21 and the second screw rod 22 are rotated, and acting force is provided for the first positioning plate 31 and the second positioning plate 32 through the base plate 7, so that the first positioning plate 31 and the second positioning plate 32 are respectively in a straight state with the two adjacent components 5, and the flatness between the two adjacent components 5 can be adjusted.

Referring to fig. 1 and 3, the fixing assembly 4 includes a first fixing mechanism 41 and a second fixing mechanism 42; the first fixing mechanism 41 and the second fixing mechanism 42 are symmetrically arranged at two ends of the screw assembly 2, and are used for adjusting the distance between the first screw 21 and the second screw 22.

The first fixing mechanism 41 comprises a first pull rod 411, a second pull rod 412 and a first connecting piece 413; the first pull rod 411 is used for connecting with the first screw 21; the second pull rod 412 is used for connecting with the second screw 22; the first connector 413 is used for connecting the first pull rod 411 and the second pull rod 412. The ends of the first pull rod 411 and the second pull rod 412, which are far away from the first connecting piece 413, are provided with a first circular ring 414 for the first screw 21 and the second screw 22 to penetrate. One end of the first pull rod 411, which is close to the first connecting piece 413, is provided with left-handed threads; the second pull rod 412 is provided with a right-handed thread at one end near the first connecting member 413. The first connecting piece 413 is provided with a first internal threaded hole matched with the left-handed thread and a second internal threaded hole matched with the right-handed thread at two ends inside respectively.

The second fixing mechanism 42 includes a third pull rod 421, a fourth pull rod 422, and a second connecting member 423; the third pull rod 421 is used for connecting with the first screw 21; the fourth pull rod 422 is used for connecting the second screw 22; the second connecting piece 423 is used for connecting the third pull rod 421 and the fourth pull rod 422. The ends of the third and fourth tie rods 421, 422 far away from the second connecting piece 423 are provided with a second ring 424 for the first and second screws 21, 22 to penetrate. One end of the third pull rod 421 near the second connecting piece 423 is provided with left-handed threads; the end of the fourth pull rod 422 near the second connecting member 423 is provided with a right-handed thread. The second connecting piece 423 is provided with a first internal threaded hole matched with the left-handed thread and a second internal threaded hole matched with the right-handed thread at two ends inside respectively.

During construction, the joint of two adjacent components 5 is blocked by a first caulking plate 11 and a second caulking plate 12; the first positioning plate 31 is clamped into the first caulking plate 11, and the second positioning plate 32 is clamped into the second caulking plate 12; the first screw 21 and the second screw 22 sequentially pass through the first positioning plate 31, the two adjacent components 5 and the second positioning plate 32; both ends of the first screw rod 21 and the second screw rod 22 are provided with a backing plate 7 and an adjusting nut 6; the adjusting nut 6 is rotated, and acting force is provided for the first positioning plate 31 and the second positioning plate 32 through the base plate 7, so that the first positioning plate 31 and the second positioning plate 32 are respectively in straight states with two adjacent components, and the two adjacent components 5 which are originally misplaced and uneven in splicing are adjusted to be in a flush state.

Rotating the first link 413 such that the first and second tie rods 411 and 412 are moved closer to the center of the first link 413; rotating the second link 423 such that the third and fourth tie bars 421 and 422 are moved closer to the center of the second link 423; the first pull rod 411, the second pull rod 412, the third pull rod 421 and the fourth pull rod 422 cooperatively pull the first screw rod 21 and the second screw rod 22 to move towards the joint, so that the two adjacent components 5 move towards the joint, and the joint size between the two adjacent components 5 is adjusted. The device for splicing the assembly type components is simple in structure, convenient for operators to operate, capable of improving construction efficiency and high in practicality.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The device for splicing the assembled components is characterized by comprising a caulking plate assembly (1) for plugging the joint of two adjacent components (5), wherein the caulking plate assembly (1) comprises a first caulking plate (11) and a second caulking plate (12) symmetrically arranged at the joint at two sides of the two adjacent components (5); the device also comprises at least three positioning assemblies (3) which are clamped with the caulking plate assemblies (1) and are abutted against two adjacent components (5); at least three screw assemblies (2) passing through the positioning assembly (3) and the adjacent two members (5); the adjusting nuts (6) are in threaded connection with the screw rod assembly (2) and are used for adjusting the distance between the positioning assembly (3) and the component (5);

the positioning assembly (3) comprises a first positioning plate (31) and a second positioning plate (32) which are symmetrically arranged on two sides of two adjacent components (5) and are respectively clamped with the first caulking plate (11) and the second caulking plate (12); the screw assembly (2) sequentially penetrates through the first locating plate (31), the two adjacent components (5) and the second locating plate (32) and is used for adjusting the flatness between the two adjacent components (5).

2. Device for splicing assembled components according to claim 1, characterized in that the screw assembly (2) is provided with a backing plate (7) at both ends, which backing plate (7) is arranged between the positioning assembly (3) and the adjusting nut (6).

3. A device for splicing assembled components according to claim 1, characterized in that the screw assembly (2) comprises a first screw (21) and a second screw (22) arranged in parallel and passing sequentially through a first positioning plate (31), two adjacent components (5) and a second positioning plate (32).

4. A device for splicing assembled components according to claim 3, wherein the first screw (21) comprises a first connecting portion (211), and a first adjusting portion (212) and a second adjusting portion (213) respectively arranged at two ends of the first connecting portion (211); the second screw (22) comprises a second connecting part (221), a third adjusting part (222) and a fourth adjusting part (223) which are respectively arranged at two ends of the second connecting part (221); external threads are arranged on the outer surfaces of the first adjusting part (212), the second adjusting part (213), the third adjusting part (222) and the fourth adjusting part (223).

5. A device for splicing assembled components according to any of claims 3-4, characterized in that the screw assembly (2) is provided with a fixing assembly (4); the fixing assembly (4) comprises a first fixing mechanism (41) and a second fixing mechanism (42) which are symmetrically arranged at two ends of the screw assembly (2) and are used for adjusting the distance between the first screw (21) and the second screw (22); the first fixing mechanism (41) comprises a first pull rod (411) used for being connected with the first screw rod (21), a second pull rod (412) used for being connected with the second screw rod (22), and a first connecting piece (413) used for being connected with the first pull rod (411) and the second pull rod (412); the second fixing mechanism (42) comprises a third pull rod (421) used for being connected with the first screw rod (21), a fourth pull rod (422) used for being connected with the second screw rod (22), and a second connecting piece (423) used for being connected with the third pull rod (421) and the fourth pull rod (422).

6. The device for splicing assembled components according to claim 5, wherein one end of each of the first pull rod (411) and the second pull rod (412) is provided with a first circular ring (414) for the first screw (21) and the second screw (22) to penetrate; one end of the third pull rod (421) and one end of the fourth pull rod (422) are respectively provided with a second circular ring (424) for the first screw rod (21) and the second screw rod (22) to penetrate.

7. The device for splicing assembled components according to claim 6, wherein the other ends of the first pull rod (411) and the third pull rod (421) are provided with left-hand threads; the other ends of the second pull rod (412) and the fourth pull rod (422) are provided with right-handed threads; the first connecting piece (413), the inside both ends of second connecting piece (423) all are provided with respectively with left-handed screw assorted first internal thread hole, and with right-handed screw assorted second internal thread hole.

8. A device for splicing assembled components according to claim 1, characterized in that said first positioning plate (31) is provided with first perforations (311) through which the first screw (21) passes, and second perforations (312) through which the second screw (22) passes; the second positioning plate (32) is provided with a third perforation (321) for the first screw rod (21) to pass through and a fourth perforation (322) for the second screw rod (22) to pass through in parallel.

9. A device for splicing assembled elements according to claim 8, characterized in that the first positioning plate (31) and the second positioning plate (32) are both "U" shaped with open sides facing the elements (5).

10. A device for splicing assembled components according to claim 9, characterized in that the open side of the first positioning plate (31) is provided with a first recess (313) for the first caulking plate (11) to snap-fit, the depth of the first recess (313) being equal to the thickness of the first caulking plate (11); the opening side of the second positioning plate (32) is provided with a second concave position (323) for clamping the second caulking plate (12), and the depth of the second concave position (323) is equal to the thickness of the second caulking plate (12).

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