CN212801966U - Strong bending resistance connected node structure between container house modules - Google Patents
Strong bending resistance connected node structure between container house modules Download PDFInfo
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- CN212801966U CN212801966U CN202021030281.2U CN202021030281U CN212801966U CN 212801966 U CN212801966 U CN 212801966U CN 202021030281 U CN202021030281 U CN 202021030281U CN 212801966 U CN212801966 U CN 212801966U
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Abstract
A strong bending-resistant connecting node structure among container house modules comprises an upper layer module, a lower layer module and a connecting plate; the lower-layer module comprises a lower-layer upright post, a lower-layer top cross beam and a first beam-column connecting node; the top of the lower layer upright post is provided with a post top sealing plate; the first beam-column connecting node comprises a bottom plate, a first longitudinal side plate and a first inner side plate; the upper-layer module comprises an upper-layer upright post, an upper-layer bottom cross beam and a second beam-column connecting node; the bottom of the upper-layer upright post is provided with a post bottom sealing plate; the second beam-column connecting node comprises a top plate, a second longitudinal side plate and a second inner side plate; the connecting plate is arranged between the column top sealing plate and the column bottom sealing plate, the top of the connecting plate is provided with an upper positioning cone, and the bottom of the connecting plate is provided with a lower positioning cone. The utility model provides a traditional intermodule connected node bending resistance bearing capacity poor, rigidity is lower and can not be applicable to high-rise building's technical problem.
Description
Technical Field
The utility model belongs to steel construction module building engineering field, in particular to strong bending resistance connected node structure between container house module.
Background
The container house has unique advantages in the aspects of industrial production, standardized design and assembly construction, and completely accords with the development concept of building industrialization. Under the push of building industrialization, container houses are rapidly developed and applied, and are widely extended in project size, box body specification and box body application. For example, the shadow of the container house can be seen in various properties such as a construction site room, a villa house, an office room, a school, a hospital and the like. The convenient disassembly and assembly performance and the reusability of the building are particularly for saving human and material resources, the building cost is reduced, and the living environment is improved.
Due to the limitation of the connecting node structure between the existing container modules, the container house has certain restriction in the aspect of building height. Under the condition that urban construction land is in short supply, the development of the container house module to a high level becomes an inevitable trend of long-term popularization and development. The horizontal load of the container house increases along with the increase of the building height, the connecting node structure between the modules of the container house is easy to damage, and in order to ensure the safety of the building, the bending resistance bearing capacity of the connecting node structure between the modules of the container house needs to be enhanced.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a strong bending resistance connected node structure between container house module will solve traditional intermodule connected node bending resistance bearing capacity poor, rigidity is lower and can not be applicable to high-rise building's technical problem.
In order to achieve the above purpose, the utility model adopts the following technical scheme.
A strong bending-resistant connecting node structure among container house modules comprises an upper layer module, a lower layer module and a connecting plate; the lower-layer module comprises a lower-layer upright post, a lower-layer top cross beam and a first beam-column connecting node; a column top sealing plate is arranged at the top of the lower-layer upright column, and the end part of one side of the column top sealing plate, which is close to the lower-layer top cross beam, exceeds the corresponding side surface of the lower-layer upright column; the column top sealing plate is provided with first through holes at positions corresponding to the lower-layer stand columns, and first connecting holes are formed in the column top sealing plate and at positions exceeding the lower-layer stand columns at intervals along the transverse direction; the first beam-column connecting node comprises a bottom plate, a first longitudinal side plate and a first inner side plate; the bottom plate is horizontally connected to the side surface of the lower-layer upright post and positioned right below the post top sealing plate, and the end part of the bottom plate exceeds the end part of the corresponding side of the post top sealing plate; the first longitudinal side plate is connected to the end part of the top surface of the bottom plate, and the top of the first longitudinal side plate is flush with the top surface of the column top sealing plate; the first inner side plate is arranged at the top of the bottom plate along the inner side length of the bottom plate, and the top edge of the first inner side plate is connected with the column top closing plate; the end part of the lower-layer top beam is connected with the first longitudinal side plate;
the upper-layer module comprises an upper-layer upright post, an upper-layer bottom cross beam and a second beam-column connecting node; a column bottom sealing plate is arranged at the bottom of the upper-layer upright column, and the end part of one side of the column bottom sealing plate, which is close to the upper-layer bottom cross beam, exceeds the corresponding side surface of the upper-layer upright column; a second through hole is formed in the column bottom sealing plate at the position corresponding to the upper-layer stand column, and second connecting holes are formed in the column bottom sealing plate at the position exceeding the upper-layer stand column at intervals along the transverse direction; the second beam-column connecting node comprises a top plate, a second longitudinal side plate and a second inner side plate; the top plate is horizontally connected to the side surface of the upper-layer upright post and is positioned right above the post bottom sealing plate, and the end part of the top plate exceeds the end part of the corresponding side of the post bottom sealing plate; the second longitudinal side plate is connected to the end part of the bottom surface of the top plate, and the bottom of the second longitudinal side plate is flush with the bottom surface of the column bottom sealing plate; the second inner side plate is arranged at the bottom of the top plate along the inner side length of the top plate, and the bottom edge of the second inner side plate is connected with the column bottom sealing plate; the end part of the upper-layer bottom beam is connected with the second longitudinal side plate;
the connecting plate is arranged between the column top sealing plate and the column bottom sealing plate, an upper positioning cone is arranged at the top of the connecting plate and at a position corresponding to the second through hole, and a lower positioning cone is arranged at the bottom of the connecting plate and at a position corresponding to the first through hole; the upper positioning cone is inserted into the second through hole, and the lower positioning cone is inserted into the first through hole; a third connecting hole is formed in the connecting plate at a position corresponding to the first connecting hole and the second connecting hole; connecting bolts are arranged in the first connecting hole, the second connecting hole and the third connecting hole; the end part of the connecting plate, which is close to one side of the upper-layer bottom cross beam, exceeds the end part of the column bottom sealing plate and the end part of the column top sealing plate; the bottom edge of the first longitudinal side plate is connected with the bottom surface of the connecting plate, and the bottom edge of the second longitudinal side plate is connected with the top surface of the connecting plate.
Preferably, the length of the end part of the column top sealing plate, which is close to one side of the lower-layer top beam, exceeding the corresponding side surface of the lower-layer upright column is 180-220 mm; the length that the tip of column bottom shrouding is close to upper bottom crossbeam one side surpasss the corresponding side of upper stand is 180mm ~220 mm.
Preferably, the length of the end part of the bottom plate, which exceeds the end part of the corresponding side of the column top sealing plate, is 0-12 mm; the length of the end part of the top plate exceeding the end part of the corresponding side of the column bottom sealing plate is 0 mm-12 mm.
Preferably, the length of the end part of the connecting plate exceeding the end part of the column top closing plate is 23-35 mm; the length that the tip of connecting plate surpassed column bottom shrouding tip is 23mm ~35 mm.
Preferably, the distance between the bottom plate and the column top closing plate is 160-300 mm; the distance between the top plate and the column bottom sealing plate is 160 mm-300 mm.
Preferably, a first diaphragm plate is arranged in the lower-layer upright post at a position corresponding to the bottom plate; and a second diaphragm plate is arranged in the upper-layer upright post and at the position corresponding to the top plate.
Compared with the prior art, the utility model has the following characteristics and beneficial effect.
1. The traditional container house building method has the defects of long construction period, large quantity of required field production workers, waste of material resources, serious environmental pollution and the like; the utility model discloses well first beam column connected node and lower floor's module, the beam column of second beam column connected node and upper module all can be prefabricated in the mill, has practiced thrift workman's demand quantity, has solved the extravagant and serious problem of environmental pollution of material resources that the site operation caused.
2. In the utility model, a first working groove is formed among the first beam-column connecting node, the column top sealing plate and the lower-layer upright column; a second working groove is formed among the second beam-column connecting node, the column bottom sealing plate and the upper-layer upright column; the groove-shaped structure not only brings convenience to the construction of the node structure, but also increases the bending resistance bearing capacity and rigidity at the node position.
3. The upper part of the connecting plate is provided with an upper positioning cone, the lower part of the connecting plate is provided with a lower positioning cone, and the upper positioning cone and the lower positioning cone are used for positioning the upper layer module and the lower layer module; the diameter of the upper positioning cone is larger than that of the lower positioning cone, the splicing process of the upper-layer module through the second beam-column connecting node and the first beam-column connecting node of the lower-layer module is not prone to dislocation, and splicing errors of a construction site can be effectively reduced.
4. In the utility model, the notch of the first working groove faces to one side outside the wall and does not penetrate through the first inner side plate, so as to keep the integrity of the connecting node and increase the stress balance; likewise, the notch of the second working channel faces the outer side of the wall and does not extend through to the second inner decking to maintain the integrity of the connection node and to increase the force balance.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings.
Fig. 1 is a schematic perspective view of the strong bending-resistant connecting node structure of the present invention.
Fig. 2 is a schematic view of the vertical section structure of the strong bending-resistant connecting node structure of the present invention.
Fig. 3 is a schematic diagram of the connection board of the present invention disposed between the upper module and the lower module.
Fig. 4 is a schematic view of the three-dimensional structure of the upper positioning cone and the lower positioning cone arranged on the connecting plate of the present invention.
Fig. 5 is a schematic front structural view of the upper positioning cone and the lower positioning cone arranged on the connecting plate of the present invention.
Fig. 6 is the structure diagram of the connection between the second beam-column connection node and the column bottom sealing plate of the present invention.
Fig. 7 is the structure diagram of the first beam-column connection node connected with the column top closing plate of the present invention.
Reference numerals: 1-upper module, 1.1-upper column, 1.2-upper bottom beam, 1.3-top plate, 1.4-second longitudinal side plate, 1.5-second inner side plate, 1.6-second diaphragm plate, 2-lower module, 2.1-lower column, 2.2-lower top beam, 2.3-bottom plate, 2.4-first longitudinal side plate, 2.5-first inner side plate, 2.6-first diaphragm plate, 3-connecting plate, 4-column top closing plate, 5-first through hole, 6-first connecting hole, 7-column bottom closing plate, 8-second through hole, 9-second connecting hole, 10-upper positioning cone, 11-lower positioning cone, 12-third connecting hole, 13-connecting bolt, 14-first working groove and 15-second working groove.
Detailed Description
As shown in fig. 1-7, the structure of the strong bending-resistant connecting node between the modules of the container house comprises an upper layer module 1, a lower layer module 2 and a connecting plate 3; the lower-layer module 2 comprises a lower-layer upright post 2.1, a lower-layer top cross beam 2.2 and a first beam-column connecting node; a column top sealing plate 4 is arranged at the top of the lower-layer upright column 2.1, and the end part of one side, close to the lower-layer top cross beam 2.2, of the column top sealing plate 4 exceeds the corresponding side surface of the lower-layer upright column 2.1; a first through hole 5 is arranged on the column top sealing plate 4 and the part corresponding to the lower-layer upright post 2.1, and first connecting holes 6 are arranged on the column top sealing plate 4 and the part exceeding the lower-layer upright post 2.1 at intervals along the transverse direction; the first beam-column connecting joint comprises a bottom plate 2.3, a first longitudinal side plate 2.4 and a first inner side plate 2.5; the bottom plate 2.3 is horizontally connected to the side surface of the lower-layer upright post 2.1 and is positioned right below the post top seal plate 4, and the end part of the bottom plate 2.3 exceeds the end part of one side corresponding to the post top seal plate 4; the first longitudinal side plate 2.4 is connected to the end part of the top surface of the bottom plate 2.3, and the top of the first longitudinal side plate 2.4 is flush with the top surface of the column top closing plate 4; the first inner side plate 2.5 is arranged on the top of the bottom plate 2.3 along the inner side length of the bottom plate 2.3, and the top edge of the first inner side plate 2.5 is connected with the column top closing plate 4; the end part of the lower-layer top cross beam 2.2 is connected with a first longitudinal side plate 2.4;
the upper-layer module 1 comprises an upper-layer upright post 1.1, an upper-layer bottom cross beam 1.2 and a second beam-post connecting node; a column bottom sealing plate 7 is arranged at the bottom of the upper-layer upright column 1.1, and the end part of one side, close to the upper-layer bottom cross beam 1.2, of the column bottom sealing plate 7 exceeds the corresponding side surface of the upper-layer upright column 1.1; a second through hole 8 is formed in the part, corresponding to the upper-layer upright post 1.1, of the column bottom seal plate 7, and second connecting holes 9 are formed in the part, exceeding the upper-layer upright post 1.1, of the column bottom seal plate 7 at intervals along the transverse direction; the second beam-column connecting node comprises a top plate 1.3, a second longitudinal side plate 1.4 and a second inner side plate 1.5; the top plate 1.3 is horizontally connected to the side surface of the upper-layer upright post 1.1 and is positioned right above the post bottom seal plate 7, and the end part of the top plate 1.3 exceeds the end part of one side corresponding to the post bottom seal plate 7; the second longitudinal side plate 1.4 is connected to the end part of the bottom surface of the top plate 1.3, and the bottom of the second longitudinal side plate 1.4 is flush with the bottom surface of the column bottom seal plate 7; the second inner side plate 1.5 is arranged at the bottom of the top plate 1.3 along the inner side length of the top plate 1.3, and the bottom edge of the second inner side plate 1.5 is connected with the column bottom closing plate 7; the end part of the upper-layer bottom cross beam 1.2 is connected with a second longitudinal side plate 1.4;
the connecting plate 3 is arranged between the column top sealing plate 4 and the column bottom sealing plate 7, an upper positioning cone 10 is arranged at the top of the connecting plate 3 and at a position corresponding to the second through hole 8, and a lower positioning cone 11 is arranged at the bottom of the connecting plate 3 and at a position corresponding to the first through hole 5; the upper positioning cone 10 is inserted in the second through hole 8, and the lower positioning cone 11 is inserted in the first through hole 5; a third connecting hole 12 is formed in the connecting plate 3 at the position corresponding to the first connecting hole 6 and the second connecting hole 9; connecting bolts 13 are arranged in the first connecting hole 6, the second connecting hole 9 and the third connecting hole 12; the end part of the connecting plate 3 close to one side of the upper-layer bottom cross beam 1.2 exceeds the end part of the column bottom seal plate 7 and the end part of the column top seal plate 4; the bottom edge of the first longitudinal side plate 2.4 is connected with the bottom surface of the connecting plate 3, and the bottom edge of the second longitudinal side plate 1.4 is connected with the top surface of the connecting plate 3.
In this embodiment, the side corresponding to the inner side of the module wall is the inner side, and the side corresponding to the outer side of the module wall is the outer side.
In this embodiment, there are two lower layer modules 2, and the two lower layer modules 2 are spliced in the transverse direction.
In the embodiment, the length of the end part of the column top seal plate 4, which is close to one side of the lower-layer top cross beam 2.2 and exceeds the corresponding side surface of the lower-layer upright column 2.1 is 80 mm-220 mm; the length of the end part of the column bottom seal plate 7 close to one side of the upper-layer bottom cross beam 1.2, which exceeds the corresponding side surface of the upper-layer upright column 1.1, is 180 mm-220.
In the embodiment, the length of the end part of the bottom plate 2.3, which exceeds the end part of one side corresponding to the column top seal plate 4, is 0-12 mm; the length of the end part of the top plate 1.3 exceeding the end part of one side corresponding to the column bottom sealing plate 7 is 0 mm-12 mm.
In the embodiment, the length of the end part of the connecting plate 3 exceeding the end part of the column top closing plate 4 is 23-35 mm; the length that the tip of connecting plate 3 surpassed the tip of post bottom shrouding 7 is 23mm ~35 mm.
In the embodiment, the distance between the bottom plate 2.3 and the column top closing plate 4 is 160 mm-300 mm; the distance between the top plate 1.3 and the column bottom sealing plate 7 is 160 mm-300 mm.
In this embodiment, a first diaphragm plate 2.6 is arranged in the lower-layer upright post 2.1 at a position corresponding to the bottom plate 2.3; and a second diaphragm plate 1.6 is arranged in the upper-layer upright post 1.1 and at the position corresponding to the top plate 1.3.
In this embodiment, the first through hole 5 is provided with one in a range corresponding to the lower-layer column 2.1, and two portions of the first connection hole 6 exceeding the lower-layer column 2.1 are provided.
In this embodiment, one second through hole 8 is formed in a range corresponding to the upper-layer upright post 1.1, and two second connecting holes 9 are formed in positions exceeding the upper-layer upright post 1.1.
In this embodiment, the upper end of the first longitudinal side plate 2.4 is connected to the end face of the column top closure plate 4.
In this embodiment, one of the vertical sides of the first inner side plate 2.5 is connected to the lower column 2.1, and the other vertical side of the first inner side plate 2.5 is connected to the first longitudinal side plate 2.4.
In this embodiment, the lower end of the second longitudinal side plate 1.4 is connected to the end face of the column bottom closing plate 7.
In this embodiment, one of the vertical sides of the second inner side plate 1.5 is connected to the upper column 1.1, and the other vertical side of the second inner side plate 1.5 is connected to the second longitudinal side plate 1.4.
In this embodiment, the upper positioning cone 10 and the lower positioning cone 11 are both welded to the connecting plate 3.
In this embodiment, the bottom plate 2.3, the first longitudinal side plate 2.4, the first inner side plate 2.5, the column top sealing plate 4 and the upper part of the lower-layer column 2.1 together enclose a first working groove 14; and a second working groove 15 is defined by the top plate 1.3, the second longitudinal side plate 1.4, the second inner side plate 1.5, the column bottom sealing plate 7 and the lower part of the upper-layer upright column 1.1.
In this embodiment, the notch of the first working channel 14 faces the outer wall side and does not extend through to the first inner decking 2.5, so as to maintain the integrity of the connection node and increase the force balance. Likewise, the rebate of the second working groove 15 faces the outer wall side and does not extend through to the second inner decking 1.5 so as to maintain the integrity of the connection node and increase the force balance.
In this embodiment, when assembling, lower floor's module 2 is fixed, through welding the upper location awl 10 on the connecting plate 3 and the accurate and upper module 1 of lower location awl 11 directly dock, lower floor's module 2 is fixed, insert first perforation 5 with the lower location awl 11 of connecting plate 3, upper module 1 is according to the position hoist and mount of upper location awl 10 to lower floor's module 2's top, insert upper location awl 10 in the second perforation 8 of column bottom shrouding 7 of upper module 1, splice upper module 1 to lower floor's module 2 on, stretch into first work groove 14 and second work groove 15 from the house is outdoor and fix first beam column connected node and second beam column connected node through connecting bolt 13, connecting bolt 13 chooses for use M24 high strength bolt.
In this embodiment, the first beam-column connection node is welded between the beam columns of the lower module 2; the second beam-column connecting node is welded between the beam columns of the upper-layer module 1
The embodiment of the utility model provides a, the diameter of second perforation 8 is greater than the diameter of first perforation 5, guarantees that upper module 1 is difficult for producing the dislocation through the concatenation process of the first beam column connected node of second beam column connected node and lower floor module 2, can effectively reduce job site's concatenation error.
In the embodiment, the production workshop of the prefabricated component completes the manufacture of the second beam-column connecting node at the bottom of the upper module 1, the first beam-column connecting node at the top of the lower module 2 and the connecting plate 3; a column bottom sealing plate 7 at the bottom of the upper module 1 is provided with a second through hole 8 and a second connecting hole 9 according to the construction size in a production workshop, and a second beam-column connecting node at the bottom of the upper module 1 is welded at the beam-column node of the upper module 1; set up first perforation 5 and first connecting hole 6 according to the construction size to the post top shrouding 4 at 2 tops of lower floor's module, weld the first beam column connected node at 2 tops of lower floor's module in the second beam column connected node of 1 bottoms of upper module. And respectively welding an upper positioning cone 10 and a lower positioning cone 11 on the upper side and the lower side of the connecting plate 3 and opening a third connecting hole 12 according to construction size.
Claims (6)
1. The utility model provides a strong bending resistance connected node structure between container house module which characterized in that: comprises an upper layer module (1), a lower layer module (2) and a connecting plate (3); the lower-layer module (2) comprises a lower-layer upright post (2.1), a lower-layer top cross beam (2.2) and a first beam-column connecting node; a column top sealing plate (4) is arranged at the top of the lower-layer upright column (2.1), and the end part of one side, close to the lower-layer top cross beam (2.2), of the column top sealing plate (4) exceeds the corresponding side surface of the lower-layer upright column (2.1); the column top sealing plate (4) is provided with first through holes (5) at the part corresponding to the lower-layer upright columns (2.1), and the column top sealing plate (4) is provided with first connecting holes (6) at intervals along the transverse direction at the part exceeding the lower-layer upright columns (2.1); the first beam-column connecting joint comprises a bottom plate (2.3), a first longitudinal side plate (2.4) and a first inner side plate (2.5); the bottom plate (2.3) is horizontally connected to the side face of the lower-layer upright post (2.1) and located right below the post top sealing plate (4), and the end part of the bottom plate (2.3) exceeds the end part of the corresponding side of the post top sealing plate (4); the first longitudinal side plate (2.4) is connected to the end part of the top surface of the bottom plate (2.3), and the top of the first longitudinal side plate (2.4) is flush with the top surface of the column top closing plate (4); the first inner side plate (2.5) is arranged at the top of the bottom plate (2.3) along the inner side length of the bottom plate (2.3), and the top edge of the first inner side plate (2.5) is connected with the column top closing plate (4); the end part of the lower-layer top cross beam (2.2) is connected with the first longitudinal side plate (2.4);
the upper-layer module (1) comprises an upper-layer upright post (1.1), an upper-layer bottom cross beam (1.2) and a second beam-column connecting node; a column bottom sealing plate (7) is arranged at the bottom of the upper-layer upright column (1.1), and the end part of one side, close to the upper-layer bottom cross beam (1.2), of the column bottom sealing plate (7) exceeds the corresponding side surface of the upper-layer upright column (1.1); a second through hole (8) is arranged on the column bottom sealing plate (7) and the part corresponding to the upper-layer upright post (1.1), and second connecting holes (9) are arranged on the column bottom sealing plate (7) and the part exceeding the upper-layer upright post (1.1) at intervals along the transverse direction; the second beam-column connecting node comprises a top plate (1.3), a second longitudinal side plate (1.4) and a second inner side plate (1.5); the top plate (1.3) is horizontally connected to the side surface of the upper-layer upright post (1.1) and is positioned right above the post bottom sealing plate (7), and the end part of the top plate (1.3) exceeds the end part of the corresponding side of the post bottom sealing plate (7); the second longitudinal side plate (1.4) is connected to the end part of the bottom surface of the top plate (1.3), and the bottom of the second longitudinal side plate (1.4) is flush with the bottom surface of the column bottom sealing plate (7); the second inner side plate (1.5) is arranged at the bottom of the top plate (1.3) along the inner side length of the top plate (1.3), and the bottom edge of the second inner side plate (1.5) is connected with the column bottom closing plate (7); the end part of the upper-layer bottom cross beam (1.2) is connected with a second longitudinal side plate (1.4);
the connecting plate (3) is arranged between the column top sealing plate (4) and the column bottom sealing plate (7), an upper positioning cone (10) is arranged at the top of the connecting plate (3) and at a position corresponding to the second through hole (8), and a lower positioning cone (11) is arranged at the bottom of the connecting plate (3) and at a position corresponding to the first through hole (5); the upper positioning cone (10) is inserted into the second through hole (8), and the lower positioning cone (11) is inserted into the first through hole (5); a third connecting hole (12) is formed in the connecting plate (3) at a position corresponding to the first connecting hole (6) and the second connecting hole (9); connecting bolts (13) are arranged in the first connecting hole (6), the second connecting hole (9) and the third connecting hole (12); the end part of one side of the connecting plate (3) close to the upper-layer bottom cross beam (1.2) exceeds the end part of the column bottom sealing plate (7) and the end part of the column top sealing plate (4); the bottom edge of the first longitudinal side plate (2.4) is connected with the bottom surface of the connecting plate (3), and the bottom edge of the second longitudinal side plate (1.4) is connected with the top surface of the connecting plate (3).
2. The high moment connection node structure between container house modules of claim 1, wherein: the length of the end part of the column top sealing plate (4) close to one side of the lower-layer top cross beam (2.2) exceeding the corresponding side surface of the lower-layer upright column (2.1) is 180-220 mm; the length of the end part of the column bottom sealing plate (7) close to one side of the upper-layer bottom cross beam (1.2) exceeding the corresponding side surface of the upper-layer upright column (1.1) is 180-220 mm.
3. The high moment connection node structure between container house modules of claim 1, wherein: the length of the end part of the bottom plate (2.3) exceeding the end part of the corresponding side of the column top sealing plate (4) is 0-12 mm; the length of the end part of the top plate (1.3) exceeding the end part of the corresponding side of the column bottom sealing plate (7) is 0-12 mm.
4. The high moment connection node structure between container house modules of claim 1, wherein: the length of the end part of the connecting plate (3) exceeding the end part of the column top sealing plate (4) is 23-35 mm; the length of the end part of the connecting plate (3) exceeding the end part of the column bottom sealing plate (7) is 23 mm-35 mm.
5. The high moment connection node structure between container house modules of claim 1, wherein: the distance between the bottom plate (2.3) and the column top sealing plate (4) is 160-300 mm; the distance between the top plate (1.3) and the column bottom sealing plate (7) is 160-300 mm.
6. The high moment connection node structure between container house modules of claim 1, wherein: a first diaphragm plate (2.6) is arranged in the lower-layer upright post (2.1) at a position corresponding to the bottom plate (2.3); and a second diaphragm plate (1.6) is arranged in the upper-layer upright post (1.1) and at the position corresponding to the top plate (1.3).
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CN114775786A (en) * | 2022-03-02 | 2022-07-22 | 江苏科技大学 | Beam column connecting structure of modular steel structure building |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN114775786A (en) * | 2022-03-02 | 2022-07-22 | 江苏科技大学 | Beam column connecting structure of modular steel structure building |
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