CN213268368U - Multi-functional splicing apparatus of assembled building based on BIM - Google Patents

Abstract

The utility model discloses a multi-functional splicing apparatus of assembly type structure based on BIM, including concatenation roof beam, first panel and second panel. The utility model discloses in, bordure through first metal and bordure respectively the block in first panel and second panel corresponding one side with the second metal, later place the second panel at the connecting plate top again, the stable sand grip of connecting plate top one side bordures the block with the second metal, place first panel again, the block is bordured with first metal to the connecting plate, and two metals are bordured and are also corresponded the block, connect into one piece, at last through bolt with first panel and second panel and concatenation roof beam fixed connection, this method because two metals are bordured mutual block and respectively with the connecting plate block, after long-term use, can cushion the horizontal direction's traction force when taking place the skew to the assembled panel, guaranteed that the metal is bordured and the bolt can not take place to warp, the result of use of device has been increased.

Description

Multi-functional splicing apparatus of assembled building based on BIM

Technical Field

The utility model relates to an assembly type structure technical field especially relates to a multi-functional splicing apparatus of assembly type structure based on BIM.

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.

At present, in the connection process of the assembly type panels, metal wrapping edges are clamped on one corresponding side of the two panels, the two wrapping edges are not connected, then the metal wrapping edges are connected with the assembly type panels and the splicing beams through bolts, and after the connection method is used for a long time, the metal wrapping edges on the outer layers of the two connecting plates deform and deviate towards the corresponding direction or cause the deformation of the bolts due to traction force caused by factors such as vibration of the two panels, and therefore the connection stability of the assembly type panels can be reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, the assembled building multifunctional splicing device based on the BIM is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a multi-functional splicing apparatus of assembled building based on BIM, is including splicing roof beam, first panel and second panel, one side difference block that first panel and second panel correspond is connected with first metal and bordures and bordure with the second metal, just first metal is bordured and is connected through the block of borduring of T type connecting block and second metal, it is provided with the connecting plate to splice roof beam top, two sets of stable sand grips of connecting plate top fixedly connected with, two sets of stable sand grip is bordured with first metal respectively and the block of borduring of second metal is connected, first metal is bordured and is passed through first bolt and splice roof beam fixed connection with first panel and connecting plate, the second metal is bordured and is passed through the second bolt and splice roof beam fixed connection with second panel and connecting plate.

As a further description of the above technical solution:

and elastic pieces are arranged between the first bolt and the first metal wrapping edge and between the second bolt and the second metal wrapping edge.

As a further description of the above technical solution:

and an elastic cushion layer is arranged at the top of the connecting plate.

As a further description of the above technical solution:

the first metal edge, the first panel and the connecting plate are fixedly connected with the splicing beam through the first bolts, and the second metal edge, the second panel and the connecting plate are fixedly connected with the splicing beam through the second bolts. As a further description of the above technical solution:

to sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses in, through will bordure first metal and bordure respectively the block in first panel and second panel corresponding one side with the second metal, later place the second panel at the connecting plate top again, the stable sand grip of connecting plate top one side bordures the block with the second metal, place first panel again, the connecting plate bordures the block with first metal, and two metals are bordured and are also corresponded the block, connect into one whole, at last through bolt with first panel and second panel and concatenation roof beam fixed connection, this method because two metals are bordured mutual block and respectively with the connecting plate block, after long-term use, can cushion the horizontal direction's when skew takes place to the assembled panel traction force, metal is bordured and the bolt can not take place to warp during having guaranteed, the result of use of device has been increased.

Drawings

Fig. 1 shows a schematic structural diagram provided according to an embodiment of the present invention;

fig. 2 shows a schematic top view structure provided according to an embodiment of the present invention;

fig. 3 shows an enlarged schematic structural diagram at a provided according to an embodiment of the present invention.

Illustration of the drawings:

1. splicing the beams; 2. a first bolt; 3. a first panel; 4. a first metal wrapping; 5. a second metal wrapping; 6. a second panel; 7. a second bolt; 8. a T-shaped connecting block; 9. an elastic sheet; 10. stabilizing the convex strip; 11. A connecting plate; 12. an elastic cushion layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a multi-functional splicing apparatus of assembled building based on BIM, including concatenation roof beam 1, first panel 3 and second panel 6, first panel 3 is connected with first metal bordure 4 and second metal bordure 5 with the corresponding one side difference block of second panel 6, and first metal bordure 4 and second metal bordure 5 block through T type connecting block 8 and be connected, 1 top of concatenation roof beam is provided with connecting plate 11, two sets of stable sand grips 10 of connecting plate 11 top fixedly connected with, two sets of stable sand grips 10 are bordured 4 with first metal and second metal respectively and are bordured 5 blocks and be connected, first metal bordure 4 and first panel 3 and connecting plate 11 through first bolt 2 and concatenation roof beam 1 fixed connection, second metal bordure 5 and second panel 6 and connecting plate 11 through second bolt 7 and concatenation roof beam 1 fixed connection.

Specifically, as shown in fig. 1, the elastic pieces 9 are arranged between the first bolt 2 and the first metal covering edge 4 and between the second bolt 7 and the second metal covering edge 5, so that the contact area between the bolt and the metal covering edge is increased, the friction force is increased, and the bolt can be effectively prevented from loosening.

Specifically, as shown in fig. 1, an elastic cushion 12 is disposed on the top of the connecting plate 11, so that the friction force between the connecting plate 11 and the first metal wrapping 4 and the second metal wrapping 5 is increased, and the shockproof effect is achieved to a certain extent.

Specifically, as shown in fig. 2, the first metal edge 4, the first panel 3 and the connecting plate 11 are fixedly connected with the spliced beam 1 by the multiple groups of first bolts 2, and the second metal edge 5, the second panel 6 and the connecting plate 11 are fixedly connected with the spliced beam 1 by the multiple groups of second bolts 7, so that the stability of connection between the first panel 3 and the spliced beam 1 and the stability of connection between the second panel 6 and the spliced beam 1 are further improved.

The working principle is as follows: when the device is used, the first metal edge-covering 4 and the second metal edge-covering 5 are respectively clamped on one corresponding side of the first panel 3 and the second panel 6, then the second panel 6 is placed at the top of the connecting plate 11, the stabilizing raised strips 10 on one side of the top of the connecting plate 11 are clamped with the second metal edge-covering 5, then the first panel 3 is placed, the connecting plate 11 is clamped with the first metal edge-covering 4, the two metal edge-covering are correspondingly clamped and connected into a whole, and finally the first panel 3 and the second panel 6 are fixedly connected with the splicing beam 1 through the bolts.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (4)

1. A BIM-based multifunctional assembly device for an assembly type building comprises an assembly beam (1), a first panel (3) and a second panel (6), and is characterized in that one side of the first panel (3) corresponding to the second panel (6) is respectively connected with a first metal edge (4) and a second metal edge (5) in a clamping manner, the first metal edge (4) is connected with the second metal edge (5) in a clamping manner through a T-shaped connecting block (8), a connecting plate (11) is arranged at the top of the assembly beam (1), two groups of stabilizing convex strips (10) are fixedly connected at the top of the connecting plate (11), the two groups of stabilizing convex strips (10) are respectively connected with the first metal edge (4) and the second metal edge (5) in a clamping manner, the first metal edge (4) is fixedly connected with the first panel (3) and the connecting plate (11) through a first bolt (2) and the assembly beam (1), and the second metal wrapping edge (5), the second panel (6) and the connecting plate (11) are fixedly connected with the spliced beam (1) through a second bolt (7).

2. The BIM-based assembly type multifunctional building splicing device is characterized in that elastic pieces (9) are arranged between the first bolt (2) and the first metal wrapping edge (4) and between the second bolt (7) and the second metal wrapping edge (5).

3. The BIM-based assembly type building multifunctional splicing device is characterized in that an elastic cushion layer (12) is arranged on the top of the connecting plate (11).

4. The BIM-based assembly type multifunctional building splicing device is characterized in that a plurality of groups of first bolts (2) fixedly connect a first metal edge covering (4), a first panel (3) and a connecting plate (11) with a splicing beam (1), and a plurality of groups of second bolts (7) fixedly connect a second metal edge covering (5), a second panel (6) and a connecting plate (11) with the splicing beam (1).

Images