CN111519766A - Container module with edge connecting node and container module building - Google Patents

Abstract

The invention relates to a container module with an edge connecting node and a container module building, wherein the container module is a cuboid container module, the edge connecting node comprises a column edge plate, an upper beam edge plate and a lower beam edge plate, the column edge plate is provided with a column edge plate screw hole, the upper beam edge plate and the lower beam edge plate are both provided with beam edge plate screw holes, two sides of each side surface of the container module, which are close to a container upright post, are both fixedly provided with the column edge plates, the upper beam edge plate is arranged on the top surface of the container module, the lower beam edge plate is arranged on the bottom surface of the container module, and a plurality of container modules are fixedly connected through the adjacent column edge plates, the upper beam edge plate and the lower beam edge plate to form the container module building. Compared with the prior art, the invention has the advantages that enough container module connecting space is provided; the difficulty in building and installing the container module is reduced; the number and the positions of the bolts are adjusted according to different stress requirements, so that the applicability is strong; effectively improve the installation quality of the container module building.

Description

Container module with edge connecting node and container module building

Technical Field

The invention relates to the field of container module buildings, in particular to a container module with edge connecting nodes and a container module building.

Background

The modular steel structure building is a high-level stage of building industrialization development and is a highly integrated assembly type building. The node design of the modular building is the key and difficult point of the building, and whether the node design is reasonable or not directly determines the quality and progress of construction. Traditional container node adopts to connect at the column end more, and space limitation, the operation difficulty, especially when the structure atress is great, adopts the mode that the column end is connected, and the column end atress is too big to lead to the operation degree of difficulty to promote, and the fixed effect of installation of container module building is not good, and installation quality can not obtain the guarantee to each junction of current column end connected node all is necessary junction, can not adjust joint strength according to the overall arrangement needs of actual container module building.

Disclosure of Invention

The present invention is directed to overcome the above-mentioned drawbacks of the prior art and to provide a container module and a container module building having edge connecting nodes.

The purpose of the invention can be realized by the following technical scheme:

a container module with edge connection nodes comprises four container columns, four container upper beams and four container lower beams, wherein the top ends of the container columns are fixedly connected with the end parts of the container upper beams, the bottom ends of the container columns are fixedly connected with the end parts of the container lower beams to form a rectangular container module, the edge connection nodes comprise column edge plates, upper beam edge plates and lower beam edge plates, the column edge plates are provided with column edge plate screw holes, the upper beam edge plates and the lower beam edge plates are both provided with beam edge plate screw holes,

every side of container module be close to the both sides of container stand and all fixedly be equipped with post edge plate, the side and the container stand fixed connection of post edge plate, the topside and the container upper beam fixed connection of post edge plate, the base and the container underbeam fixed connection of post edge plate, upper beam edge plate locate the top surface of container module, the side of upper beam edge plate respectively with four container upper beam fixed connection, underbeam edge plate locate the bottom surface of container module, the side of underbeam edge plate respectively with four container underbeam fixed connection.

Preferably, the container module still include side wall face, top wall face and end wall face, the both sides limit of side wall face respectively with container stand fixed connection, the topside of side wall face and container upper beam fixed connection, the base and the container underbeam fixed connection of side wall face, side wall face and post edge board screw correspond and seted up the wall screw on the position, top wall face respectively with four container upper beam fixed connection, end wall face respectively with four container underbeam fixed connection, top wall face and upper beam edge board correspond and seted up the wall screw on the position, end wall face and underbeam edge board correspond and seted up the wall screw on the position.

Preferably, the column edge plate is vertically arranged on the side surface of the container upright column, and the side edge of the column edge plate is welded with the container upright column.

Preferably, the side edges of the upper beam edge plates are respectively welded with four upper container beams, and the lower beam edge plates are respectively welded with four lower container beams.

Preferably, the upper beam edge plate and the lower beam edge plate are both rectangular frames.

Preferably, the column edge plate is a steel plate.

Preferably, the upper beam edge plate and the lower beam edge plate are both steel plates.

Preferably, the column edge plate screw holes are uniformly formed in the column edge plate, the distance between every two adjacent column edge plate screw holes is larger than or equal to three times the diameter of the column edge plate screw holes, the beam edge plate screw holes are uniformly formed in the upper beam edge plate and the lower beam edge plate, and the distance between every two adjacent beam edge plate screw holes is larger than or equal to three times the diameter of the beam edge plate screw holes.

A container module building has a plurality of foretell container modules, and horizontal direction is a plurality of the container module passes through adjacent post edge board fixed connection through the column connecting bolt, and vertical direction is a plurality of the container module passes through adjacent upper beam edge board and underbeam edge board fixed connection through roof beam connecting bolt.

Preferably, the beam connecting bolt and the column connecting bolt are high-strength bolts, and the diameter of each high-strength bolt corresponds to the hole diameter of the column edge plate screw hole and the beam edge plate screw hole.

Compared with the prior art, the invention has the following advantages:

(1) the container module adopts the column edge plate connected with the container upright column and the upper/lower beam edge plate connected with the upper/lower beam of the container as the inter-module connecting structure to form a module building, can be connected and installed in the container module, overcomes the problem of high operation difficulty of the existing column end connecting mode, improves the connecting strength between the container modules and reduces the installation difficulty of the container module building;

(2) when the container module with the edge connecting node is adopted for building assembly, the connecting positions and the connecting quantity of the column edge plates, the upper beam edge plates and the lower beam edge plates can be selected according to the stress condition, the connecting strength of different connecting positions is adjusted, and the applicability is strong;

(3) the connecting structure of the column edge plate, the upper beam edge plate and the lower beam edge plate is simple, the connecting stress is dispersed uniformly, and the mounting quality of the container module building is effectively improved.

Drawings

FIG. 1 is a structural side view of a container module having edge connection nodes in accordance with the present invention;

FIG. 2 is a top plan view of a container module having edge connection nodes in accordance with the present invention;

fig. 3 is a bottom view of the construction of the connection node of the present invention applied to a container module building;

fig. 4 is a structural plan view of a container module building formed by connecting four container modules in a plane manner in example 1;

fig. 5 is a structural plan view of a container module building formed by connecting four container modules in a plane manner in example 1;

fig. 6 is a top view of a structure of a container module building formed by connecting two container modules up and down in embodiment 2.

The container comprises 1, container columns, 2, container upper beams, 3, container lower beams, 4, column edge plates, 5, beam connecting bolts, 6, upper beam edge plates, 7, beam edge plate screw holes, 8, column edge plate screw holes, 9, lower beam edge plates and 10, and column connecting bolts.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. Note that the following description of the embodiments is merely a substantial example, and the present invention is not intended to be limited to the application or the use thereof, and is not limited to the following embodiments.

Example 1

As shown in fig. 1, a container module with edge connection nodes, the container module includes four container columns 1, four container upper beams 2 and four container lower beams 3, the top ends of the container columns 1 are fixedly connected with the end portions of the container upper beams 2, and the bottom ends of the container columns 1 are fixedly connected with the end portions of the container lower beams 3, so as to form a rectangular parallelepiped container module.

Further, the container module also comprises side wall surfaces, a top wall surface and a bottom wall surface, wherein two side edges of the side wall surfaces are fixedly connected with the container upright posts 1 respectively, the top edges of the side wall surfaces are fixedly connected with the upper beam 2 of the container, and the bottom edges of the side wall surfaces are fixedly connected with the lower beam 3 of the container.

As shown in fig. 1 to 3, the edge connection node includes a column edge plate 4, an upper beam edge plate 6 and a lower beam edge plate 9, the column edge plate 4 is provided with column edge plate screw holes 8, the upper beam edge plate 6 and the lower beam edge plate 9 are both provided with beam edge plate screw holes 7, the column edge plate screw holes 8 are uniformly arranged on the column edge plate 4, and adjacent to each other, the distance between the column edge plate screw holes 8 is greater than or equal to three times the diameter of the column edge plate screw holes 8, the beam edge plate screw holes 7 are uniformly arranged on the upper beam edge plate 6 and the lower beam edge plate 9, and adjacent to each other, the distance between the beam edge plate screw holes 7 is greater than or equal to three times the diameter of the beam edge plate screw holes 7.

Specifically, every both sides that the side of container module is close to container stand 1 all fixedly are equipped with post edge plate 4, the side and the container stand 1 fixed connection of post edge plate 4, the topside and the 2 fixed connection of container upper beam of post edge plate 4, the base and the 3 fixed connection of container underbeam of post edge plate 4, the top surface of container module is located to upper beam edge plate 6, the side of upper beam edge plate 6 respectively with four 2 fixed connection of container upper beam, the bottom surface of container module is located to underbeam edge plate 9, the side of underbeam edge plate 9 respectively with four 3 fixed connection of container underbeam.

Further, in this embodiment, the column edge plate 4, the upper beam edge plate 6, and the lower beam edge plate 9 are steel plates, the upper beam edge plate 6 and the lower beam edge plate 9 are rectangular frames, the column edge plate 4 is vertically disposed on the side surface of the container upright post 1, the side edge of the column edge plate 4 is welded to the container upright post 1, the side edge of the upper beam edge plate 6 is welded to the four container upper beams 2, and the lower beam edge plate 9 is welded to the four container lower beams 3.

The side wall surface and the column edge plate screw hole 8 are provided with wall surface screw holes, the top wall surface is fixedly connected with the four container upper beams 2, the bottom wall surface is fixedly connected with the four container lower beams 3, the top wall surface and the upper beam edge plate 6 are provided with wall surface screw holes, and the bottom wall surface and the lower beam edge plate 9 are provided with wall surface screw holes.

A container module building has a plurality of above-mentioned container modules, and a plurality of horizontal direction the container module passes through adjacent post marginal plate 4 fixed connection through post connecting bolt 10, and a plurality of vertical direction the container module passes through adjacent upper beam marginal plate 6 and lower beam marginal plate 9 fixed connection through roof beam connecting bolt 5.

The container module building is formed by connecting a plurality of container modules, the plurality of container modules can be adjacently arranged in the horizontal direction and can also be vertically arranged up and down, the plurality of container modules in the same container module building can be adjacently connected in the horizontal direction and can also be arranged and connected in the vertical direction, and the combined arrangement mode is not limited.

As shown in fig. 4 ~ 5, a container module building in this embodiment has four container modules, and two rows of two of four container modules are two rows of horizontal distribution, as shown in fig. 4, two liang of positions of four post edge boards 4 on the adjacent face of two adjacent container modules are relative, pass wall screw, post edge board screw 8 and wall screw with post connecting bolt 10 in proper order inside the container module and connect two adjacent container modules of level. After the connection of each adjacent container module is completed, a container module building with a stable structure is formed.

The position and number of the column connecting bolts 10 can be selected according to the stress requirement of the container building, and in the embodiment, each column edge plate screw hole 8 on the column edge plate 4 is connected through the column connecting bolt 10.

Example 2

The difference between this embodiment and embodiment 1 lies in that a container module building in this embodiment has two container modules, and these two container modules set up from top to bottom, and the upper beam edge board 6 of bottom container module is relative with the underbeam edge board 9 position of top container module, passes wall screw, beam edge board screw and wall screw in proper order inside container module and connects two adjacent container modules from top to bottom with roof beam connecting bolt 5.

The above embodiments are merely examples and do not limit the scope of the present invention. These embodiments may be implemented in other various manners, and various omissions, substitutions, and changes may be made without departing from the technical spirit of the present invention.

Claims (10)

1. A container module with edge connection nodes is characterized by comprising four container columns (1), four container upper beams (2) and four container lower beams (3), wherein the top ends of the container columns (1) are fixedly connected with the end parts of the container upper beams (2), the bottom ends of the container columns (1) are fixedly connected with the end parts of the container lower beams (3) to form a rectangular container module, the edge connection nodes comprise column edge plates (4), upper beam edge plates (6) and lower beam edge plates (9), the column edge plates (4) are provided with column edge plate screw holes (8), the upper beam edge plates (6) and the lower beam edge plates (9) are provided with beam edge plate screw holes (7),

every side of container module be close to both sides of container stand (1) and all fixedly be equipped with post edge plate (4), the side and container stand (1) fixed connection of post edge plate (4), the topside and the container upper beam (2) fixed connection of post edge plate (4), the base and container underbeam (3) fixed connection of post edge plate (4), upper beam edge plate (6) locate the top surface of container module, the side of upper beam edge plate (6) respectively with four container upper beam (2) fixed connection, underbeam edge plate (9) locate the bottom surface of container module, the side of underbeam edge plate (9) respectively with four container underbeam (3) fixed connection.

2. A container module with edge connection nodes according to claim 1, the container module also comprises a side wall surface, a top wall surface and a bottom wall surface, two side edges of the side wall surface are respectively fixedly connected with the container upright post (1), the top edge of the side wall surface is fixedly connected with the upper beam (2) of the container, the bottom edge of the side wall surface is fixedly connected with the lower beam (3) of the container, wall surface screw holes are arranged on the corresponding positions of the side wall surface and the column edge plate screw holes (8), the top wall surface is respectively and fixedly connected with four upper container beams (2), the bottom wall surface is respectively and fixedly connected with four lower container beams (3), the top wall surface and the upper beam edge plate (6) are provided with wall surface screw holes in corresponding positions, and the bottom wall surface and the lower beam edge plate (9) are provided with wall surface screw holes in corresponding positions.

3. A container module with edge joint according to claim 1, characterised in that the post edge panels (4) are arranged vertically on the sides of the container upright (1), the sides of the post edge panels (4) being welded to the container upright (1).

4. A container module with edge joint according to claim 1, characterised in that the sides of the upper beam edge panels (6) are welded to four container upper beams (2) respectively and the lower beam edge panels (9) are welded to four container lower beams (3) respectively.

5. A container module with edge connection nodes according to claim 1, characterised in that the upper beam edge panel (6) and the lower beam edge panel (9) are rectangular frames.

6. A container module with edge connection nodes according to claim 1, characterised in that the column edge panels (4) are steel panels.

7. A container module with edge joint according to claim 1, characterised in that the upper beam edge panel (6) and the lower beam edge panel (9) are both steel plates.

8. A container module with edge connection nodes according to claim 1, characterised in that said post edge panel screw holes (8) are evenly arranged on the post edge panel (4), the distance between adjacent said post edge panel screw holes (8) is more than or equal to three times the diameter of the post edge panel screw hole (8), said beam edge panel screw holes (7) are evenly arranged on the upper beam edge panel (6) and the lower beam edge panel (9), and the distance between adjacent said beam edge panel screw holes (7) is more than or equal to three times the diameter of the beam edge panel screw hole (7).

9. A container module building, characterized in that there are a plurality of container modules according to any one of claims 1-8, a plurality of said container modules in horizontal orientation being fixedly connected through adjacent column edge plates (4) by means of column connecting bolts (10), and a plurality of said container modules in vertical orientation being fixedly connected through adjacent upper beam edge plates (6) and lower beam edge plates (9) by means of beam connecting bolts (5).

10. A container module building according to claim 9, characterised in that the beam connecting bolts (5) and the column connecting bolts (10) are high strength bolts, the diameter of which corresponds to the diameter of the column edge plate screw holes (8) and the beam edge plate screw holes (7).

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