CN215330519U - Assembled building element tie-beam - Google Patents

Abstract

This scheme belongs to building engineering construction technical field, concretely relates to assembled building element tie-beam. The crossbeam comprises a square, the crossbeam includes A end and B end, the A end is equipped with first installation piece, be equipped with first recess in the first installation piece, first installation piece is located the crossbeam upper end, first installation piece up end aligns with the crossbeam up end, the terminal surface is located in the middle of the vertical direction of crossbeam under the first installation piece, crossbeam B end is equipped with second installation piece, the second installation piece is located the crossbeam lower extreme, be equipped with on the second installation piece with first recess matched with lug, the lug slope sets up, the slope is equipped with in the middle of the second installation piece with first installation piece assorted second recess. Through making the lug on the second installation piece of B end get into in the recess on the second installation piece of A end for the connection of crossbeam is compacter, avoids horizontal and vertical removal.

Description

Assembled building element tie-beam

Technical Field

This scheme belongs to building engineering construction technical field, concretely relates to assembled building element tie-beam.

Background

At present, basic and modular components are often used in buildings, for example, modular components and accessories (such as external wall panels, internal wall panels, floor slabs, laminated slabs, balconies, air-conditioning panels, stairs, precast beams, precast columns and the like) for buildings are manufactured and manufactured in factories, transported to building construction sites, and assembled and installed on the sites through reliable connection modes to form the buildings.

The patent with the application number of CN201922159685.5 discloses an assembly type building element connecting beam, which is provided with a hollow square tube with a square cross section, wherein a pair of parallel opposite side surfaces of the square tube are respectively provided with a plurality of mounting holes which are arranged along the length direction of the square tube, and the mounting holes of each side surface are distributed at the positions of two ends of the side surface; the building component is fixedly connected with a hollow square tube body, and positioning holes are formed in four side faces of the square tube body; after the square pipe and the square pipe body are mutually inserted, bolts penetrate through the corresponding mounting holes and the corresponding positioning holes to connect the square pipe and the square pipe body.

The mounting hole that the several was arranged along the length direction of square pipe is seted up respectively on the relative side of a pair of parallel of square pipe in this scheme, consequently need to insert square pipe and square body each other when connecting and establish, then aim at mounting hole and locating hole, then pass corresponding mounting hole and locating hole and connect square pipe and square body with several bolt group, because there is several mounting hole consequently there is several bolt, when connecting, need in proper order screw up the bolt. The operation is complicated and the connection time is long.

SUMMERY OF THE UTILITY MODEL

This scheme provides an assembled building element tie-beam to solve the problem that complex operation connection time is long when carrying out building element and connecting.

In order to achieve the aim, the scheme provides an assembly type building element connecting beam which comprises a square beam, the beam comprises an end A and an end B, the end A is provided with a first installation block, a first groove is formed in the first installation block, the first installation block is located at the upper end of the beam, the upper end face of the first installation block is aligned to the upper end face of the beam, the lower end face of the first installation block is located in the middle of the vertical direction of the beam, the end B of the beam is provided with a second installation block, the second installation block is located at the lower end of the beam, a lug matched with the first groove is arranged on the second installation block, the lug is arranged in an inclined mode, and a second groove matched with the first installation block is formed in the middle of the second installation block in an inclined mode.

The principle of the scheme is as follows: the method comprises the following steps of firstly matching the ends A and B of two beams respectively, enabling a lug at the end B of the beam to enter a first groove at the end A of the beam, then enabling a first mounting block at the end A to enter a second groove of a second mounting block at the end B, and further completing the connection of the two beams.

The beneficial effect of this scheme:

1. the mounting blocks are arranged at the end A and the end B of the cross beam respectively, so that the mounting block at the end A is clamped in the second groove at the end B, and the two cross beams are connected; simultaneously through the lug that inclines on the second installation piece that makes the B end gets into the slope recess on the second installation piece of A end for the connection of crossbeam is compacter, avoids horizontal and vertical removal, avoids two crossbeams to drop.

2. In the connection process, only the two ends of the cross beam need to be matched, the cross beam does not need to be fixed through bolts, the operation is simple and convenient, the quick installation can be realized, and the production efficiency is improved.

Furthermore, the square vertical beam is further included, and second mounting blocks are respectively arranged on two adjacent side faces of the vertical beam. The A ends of the two cross beams are respectively matched with the second mounting blocks of the vertical beams, and the requirements of the three-dimensional members of the building can be met.

Further, the cross beam and the vertical beam are both of hollow structures. The hollow structure can reduce the load of the building and prolong the service life of the building.

Furthermore, corresponding threaded holes are formed in the first mounting blocks and the second mounting blocks of the cross beam and the vertical beam. After the cross beam and the vertical beam are installed, bolts penetrate through aligned threaded holes of the cross beam and the vertical beam to fasten the cross beam and the vertical beam, so that the component connection is more tight.

Furthermore, second mounting blocks are respectively arranged on two adjacent side faces of the vertical beam in the horizontal direction of the vertical beam according to the floor distribution. The connection of the building elements of the high-rise building can be realized.

Furthermore, the crossbeam and the vertical beam are covered with a zinc-plated protective layer. The galvanized protective layer can effectively enhance the corrosion resistance of the integral component and prolong the service life.

Drawings

Fig. 1 is a cross-sectional view of a beam structure according to the present novel embodiment.

Fig. 2 is a right side view of the beam of the present novel embodiment.

Fig. 3 is a left side view of a beam using the novel embodiment.

Fig. 4 is a schematic structural diagram of a beam B end using the novel embodiment.

Fig. 5 is a schematic structural view of the connection of vertical beams and horizontal beams using the novel embodiment.

Detailed Description

The following is further detailed by way of specific embodiments:

the reference numbers in the drawings of the specification include: crossbeam 1, first installation piece 2, second installation piece 3, lug 4, first recess 5, perpendicular roof beam 6, screw hole 7, second recess 8.

The examples are substantially as shown in figures 1 to 4 of the accompanying drawings:

assembled building element tie-beam, crossbeam 1 including the square, crossbeam 1 includes A end and B end, the A end is equipped with first installation piece 2, be equipped with first recess 5 in the first installation piece 2, first installation piece 2 is located crossbeam 1 upper end, 2 up end of first installation piece align with 1 up end of crossbeam, 2 terminal surfaces are located the middle of the 1 vertical direction of crossbeam under the first installation piece, crossbeam 1B end is equipped with second installation piece 3, second installation piece 3 is located crossbeam 1 lower extreme, be equipped with on the second installation piece 3 with first recess 5 matched with lug 4, lug 4 slope sets up, be equipped with in the middle of the second installation piece 3 with first installation piece 2 assorted second recess 8.

The A ends and the B ends of the two cross beams 1 are matched well respectively, so that the lug 4 at the B end of the cross beam 1 enters the first groove 5 at the A end of the cross beam 1, and then the first mounting block 2 at the A end enters the second groove 8 of the second mounting block 3 at the B end, and the connection of the two cross beams 1 can be completed.

As shown in fig. 5:

the square vertical beam is also included 6, and the two adjacent side surfaces of the vertical beam 6 are respectively provided with a second mounting block 3. The A ends of the two cross beams 1 are respectively matched with the second mounting blocks 3 of the vertical beams 6, so that the requirement of the three-dimensional member of the building can be met. And corresponding threaded holes 7 are formed in the first mounting block 2 and the second mounting block 3 of the cross beam 1 and the vertical beam 6. After the installation of the cross beam 1 and the vertical beam 6 is completed, the cross beam 1 and the vertical beam 6 are fastened by bolts through the aligned threaded holes 7 of the cross beam 1 and the vertical beam 6, so that the component connection is more tight. The vertical beam 6 is provided with second mounting blocks 3 on two adjacent sides of the vertical beam 6 in the horizontal direction according to the floor distribution. The connection of the building elements of the high-rise building can be realized.

The cross beam 1 and the vertical beam 6 are both hollow structures. The hollow structure can reduce the load of the building and prolong the service life of the building. The cross beam 1 and the vertical beam 6 are covered with a zinc-plated protective layer, so that the corrosion resistance of the whole component can be effectively enhanced, and the service life is prolonged.

The method comprises the following specific operations:

the building member is fixedly connected with a cross beam 1 and a vertical beam 6, and one building member can be fixedly connected with a plurality of square pipe bodies so as to be connected with the connecting beams around to form a structure expanding around.

Then, the end A and the end B of the two beams 1 are matched with each other respectively, so that the lug 4 at the end B of the beam 1 enters the first groove 5 at the end A of the beam 1, then the first installation block 2 at the end A enters the second groove 8 of the second installation block 3 at the end B, and then the connection of the two beams 1 in the horizontal direction of the building is completed.

The A ends of the two cross beams 1 are respectively matched with the second mounting blocks 3 of the vertical beams 6, so that the requirement of the three-dimensional member of the building can be met.

After the installation of the cross beam 1 and the vertical beam 6 is completed, the cross beam 1 and the vertical beam 6 are fastened by bolts through the aligned threaded holes 7 of the cross beam 1 and the vertical beam 6, so that the component connection is more tight.

Meanwhile, when the connecting component is required to be arranged on one floor in the vertical direction, the connecting component can be arranged in the same way.

The above description is only for the purpose of illustrating the novel embodiments, and the general knowledge of the known specific structures and characteristics of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the novel structure of the present invention, several changes and modifications can be made, which should also be regarded as the scope of the present invention, and these will not affect the effectiveness of the novel implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. Assembled building element tie-beam, including crossbeam (1) of square, its characterized in that: crossbeam (1) is including A end and B end, the A end is equipped with first installation piece (2), be equipped with first recess (5) in first installation piece (2), first installation piece (2) are located crossbeam (1) upper end, first installation piece (2) up end aligns with crossbeam (1) up end, the terminal surface is located in the middle of crossbeam (1) vertical direction under first installation piece (2), crossbeam (1) B end is equipped with second installation piece (3), second installation piece (3) are located crossbeam (1) lower extreme, be equipped with on second installation piece (3) with first recess (5) matched with lug (4), lug (4) slope sets up, the slope is equipped with in the middle of second installation piece (3) with first installation piece (2) assorted second recess (8).

2. The fabricated building element coupling beam according to claim 1, wherein: the square vertical beam (6) is further included, and the two adjacent side faces of the vertical beam (6) are respectively provided with a second mounting block (3).

3. The fabricated building element coupling beam according to claim 2, wherein: the cross beam (1) and the vertical beam (6) are both of hollow structures.

4. The fabricated building element coupling beam according to claim 2, wherein: and the first mounting blocks (2) and the second mounting blocks (3) of the cross beam (1) and the vertical beam (6) are provided with corresponding threaded holes (7).

5. The fabricated building element coupling beam according to claim 2, wherein: and the vertical beam (6) is distributed on two adjacent side surfaces of the vertical beam (6) according to floors in the horizontal direction and is respectively provided with a second mounting block (3).

6. The fabricated building element coupling beam according to claim 2, wherein: the transverse beam (1) and the vertical beam (6) are covered with a zinc-plated protective layer.

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