CN117071952A

CN117071952A - Modularized assembled multi-layer building box house and construction method thereof

Info

Publication number: CN117071952A
Application number: CN202311108537.5A
Authority: CN
Inventors: 李波; 张亮
Original assignee: Tengzhou Municipal Government Service Center
Current assignee: Tengzhou Municipal Government Service Center
Priority date: 2023-08-30
Filing date: 2023-08-30
Publication date: 2023-11-17

Abstract

The invention belongs to the technical field of buildings, and discloses a modular assembled multi-storey building box house and a construction method thereof, wherein the construction method comprises the following steps: s1, manufacturing prefabricated parts of a box room, S2, installing a first-layer box room frame, S3, installing a second-layer box room frame, and S4, enclosing and shielding the periphery of the box room. According to the invention, through scientific structural design and construction steps, modular and standardized design and manufacturing production are adopted, industrial production and assembly type construction are realized, each layer of prefabricated member frame can be replaced, a plurality of structural layers are realized as one prefabricated unit, the prefabricated member types and parts are few, the transportation is convenient, the cost is saved, the production efficiency of the prefabricated member is improved, the installation and connection process is simplified, the construction speed of a main body of a high-grade temporary building is obviously accelerated on the premise of ensuring the use function, the site construction period is short, the prefabricated member of the box is easy to install and detach, can be recycled and reused, and the multi-aspect requirements of a low-layer high-grade temporary building can be met.

Description

Modularized assembled multi-layer building box house and construction method thereof

Technical Field

The invention relates to the technical field of buildings, in particular to a modular assembled multi-storey building box house and a construction method thereof.

Background

In the building engineering of the prior art, high-grade non-permanent low-rise buildings (including landscape houses, show houses, temporary working places, tourist centers and the like) are often required to be built in temporary and other scenes such as scenic spots, environment protection areas, outdoor exposition venues and the like so as to meet the short-term exhibition, work, life, travel and other requirements of people. These non-permanent buildings, also known as temporary buildings, must be dismantled for a limited period of time, but are based on high-end functional designs and various uses, and generally require construction from other durable materials such as steel, reinforced concrete, cement, bricks, wood, stone, etc. After the construction is completed and the specified use time is reached, the temporary buildings need to be dismantled, the sites are cleaned and restored. At present, the buildings generally adopt the traditional building construction process, a large amount of building rubbish can be generated during construction and dismantling, building materials cannot be recycled, and huge building material waste is caused. The traditional construction process has the following defects: the method has the advantages that various building raw materials (steel, reinforced concrete, cement, bricks, wood, stone and the like) are transported to the site and then are constructed, the raw materials are various, the occupied area is large, the management is difficult, the dosage is inaccurate, the waste is large, the site construction period is long, the required manpower resources are large, the energy consumption of building construction is large, the garbage produced by the building pollutes the environment, the noise affects the life of residents, the dust pollutes the air and the like.

In order to solve the problems, the method is used for developing applicable, economical and green buildings, improving the technical level of the buildings and greatly promoting the assembled buildings. The assembled building has the characteristics of standardized design, industrialized component production, mechanized construction and the like, and the on-site wet operation and the use of labor force can be greatly reduced through the assembled construction, so that the assembled building is a main development direction of future temporary buildings in China.

In the prior art, the document with the application number of CN202010538783.4 discloses a green energy-saving house structure and a construction method thereof, wherein the green energy-saving house structure comprises a bottom plate, two sides of the bottom plate are respectively connected with a first riser through hinge rotation, the upper surfaces of the first risers are respectively connected with a second riser through hinge rotation, the upper surfaces of the two groups of second risers are respectively connected with a top plate through hinge rotation, two ends of the bottom plate are respectively connected with an end plate through hinge rotation, one end plate is provided with a mounting hole, the inner wall of the mounting hole is rotationally connected with a door body, and limiting mechanisms for limiting the rotation of the first risers, the second risers and the end plates are arranged among the two ends of the first risers, the two ends of the second risers and the two sides of the end plates. The green energy-saving house is integrally prefabricated, all the wallboards are provided with hinges for folding, the whole house is folded and stored when not in use, and the whole house is unfolded when in use. However, the prefabricated mode of the whole house can only be used for prefabricating a small container house, the use space is limited, efficient double-layer and three-layer combination cannot be realized, and the requirement of multiple functions of a high-grade temporary building is difficult to achieve.

In the prior art, the document with the application number of CN202210594413.1 discloses a method for designing and constructing an assembled archaized steel structure board house system, which comprises the following steps: s1, paving a board house foundation; s2, square pipe column installation: installing a square pipe column on the basis of the board room; s3, building bolster installation: after a wooden sleeve is arranged outside the building girder, the building girder is arranged on the square pipe column; s4, mounting a glass magnesium fireproof plate: sequentially installing purlines and glass magnesium fireproof plates on the building bolster; s5, mounting a wallboard of a board room: mounting house wall boards on the periphery; s6, wood cylinder installation: a hollow wood cylinder is arranged outside the square pipe column; s7, roof structure installation: a roof structure is arranged on the square pipe column and the wallboard of the board house; s8, installing an archaizing window: installing an archaized flower window on the wallboard of the board room; s9, spraying fireproof archaized wood grain paint. The construction method needs to lay the foundation and the ground of the board house before assembly, has complex structure, inconvenient construction and disassembly and long site construction period, and is not suitable for modularization and standardization of prefabricated member production.

Therefore, there is a need to develop a modular assembled multi-story building box and a construction method thereof, which can be produced in a modular, standardized manner, and can be conveniently constructed and disassembled, and can be recycled and reused, so as to meet various demands of high-grade temporary buildings.

Disclosure of Invention

The invention aims at providing a modularized assembled multi-layer building box house and a construction method thereof aiming at the multi-aspect requirements of high-grade temporary buildings, and adopts modularized and standardized design and manufacturing production through scientific structural design to realize industrial production and assembled construction, and the box house frames of each layer can be replaced mutually, so that a plurality of structural layers are used as a prefabricated unit, the prefabricated member types and parts are few, the transportation is convenient, the manufacturing cost is saved, and the production efficiency of the multi-layer building box house is improved; the bottom plate and the top plate are connected with the upright posts in a dry splicing way, so that the installation and connection process is greatly simplified, the construction or disassembly speed of the temporary construction project is obviously accelerated on the premise of ensuring the use function, the structure is simple, the construction and the disassembly are quick, and the site construction period is shortened; simplify the installation and the dismantlement of case room, can retrieve circulation used repeatedly to the prefabricated part of multi-layer building case room, can satisfy the appearance of high-grade temporary building and delicately, stable in structure, the security is good, functional good, environmental protection and energy saving etc. many-sided demands.

The technical scheme is as follows:

a construction method of a modular assembled multi-storey building box house comprises the following steps:

S1, manufacturing a prefabricated box room, wherein the prefabricated box room comprises a first bottom plate, a second bottom plate, a first top plate, a second top plate, a plurality of supporting columns and a plurality of side plates, a plurality of first pits and second pits matched with bottom ends of the supporting columns are respectively arranged on the circumferential edges of the top plate surfaces of the first bottom plate and the second bottom plate, a plurality of first column top connectors and a plurality of second column top connectors are respectively arranged on the circumferential edges of the bottom plate surfaces of the first top plate and the second top plate, and a first groove and a second groove matched with the top ends of the supporting columns are respectively arranged on the bottom surfaces of the first column top connectors and the second column top connectors; a plurality of board bottom connectors are arranged on the circumferential edges of the bottom surfaces of the first bottom plate and the second bottom plate; a plurality of board top connecting pits matched with the board bottom connectors are formed in the circumferential edges of the top surfaces of the first top board and the second top board;

s2, installing a layer of box house frame, namely firstly placing a first bottom plate on the ground of a leveled site, and then respectively inserting the bottom ends of a plurality of support columns into a plurality of first pits on the top plate surface of the first bottom plate in a matched manner and fixedly connecting the first bottom plate; then, a plurality of first column top connectors on the bottom surface of the first top plate are respectively matched and arranged on the top ends of a plurality of supporting columns, and are respectively and fixedly connected with the supporting columns;

S3, installing a two-layer box house frame, namely respectively inserting a plurality of plate bottom connectors on the bottom surface of a second bottom plate into a plurality of plate top connecting pits on the top surface of the first top plate in a matched manner, fixedly connecting the plate top connecting pits with the first top plate, and respectively inserting bottom ends of a plurality of supporting upright posts into a plurality of second pits on the top surface of the second bottom plate in a matched manner, and fixedly connecting the bottom ends of a plurality of supporting upright posts with the second bottom plate; then, a plurality of second column top connectors on the bottom surface of the second top plate are respectively matched and arranged on the top ends of a plurality of supporting columns, and are respectively fixedly connected with the supporting columns;

s4, surrounding the periphery of the box room, and installing a plurality of side plates around the first-layer box room frame and the second-layer box room frame to complete assembly of the assembled box room.

The support column includes first support column, be equipped with first post bottom through-hole on the side of first support column bottom end, first pit is close to be equipped with first through-hole on the lateral wall of first bottom plate circumference edge one side first pit with be equipped with first screw on the lateral wall of one side that first pit and first through-hole are opposite, step S2 still includes the following step:

s21, a plurality of connecting bolts sequentially penetrate through the first through holes and the first column bottom through holes to be in threaded connection with the first screw holes, and the bottom ends of the plurality of first supporting columns are fixedly connected with the first bottom plate.

The side of first support stand top end is equipped with first post top through-hole, first recess is close to be equipped with the second through-hole on the lateral wall of first roof circumference edge one side, first recess with be equipped with the second screw on the lateral wall of one side opposite to the second through-hole, step S2 still includes the following step:

s22, a plurality of connecting bolts sequentially penetrate through the second through holes and the first column top through holes to be in threaded connection with the second screw holes, and the top ends of the plurality of first supporting columns are fixedly connected with the first top plate.

The side of the board bottom connector is provided with a board bottom connecting through hole, a board top connecting pit of the first top board is close to a side wall of one side of the circumferential edge of the first top board and is provided with a third through hole, the board top connecting pit of the first top board is provided with a third screw hole on a side wall of one side opposite to the third through hole, and the step S3 further comprises the following steps:

s31, a plurality of connecting bolts sequentially penetrate through the third through hole and the plate bottom connecting through hole to be in threaded connection with the third screw hole, and the second bottom plate is fixedly connected with the first top plate.

The support column includes the second support column, be equipped with the through-hole at the bottom of the second column bottom on the side of second support column bottom end, the second pit is close to be equipped with the fourth through-hole on the lateral wall of second bottom plate peripheral edge one side the second pit with be equipped with the fourth screw on the lateral wall of the side opposite to the fourth through-hole, step S3 still includes following step:

S32, a plurality of connecting bolts sequentially penetrate through the fourth through hole and the second bottom through hole to be in threaded connection with the fourth screw hole, and the bottom ends of the second supporting upright posts are fixedly connected with the second bottom plate.

The side of second support stand top end is equipped with the second roof through-hole, the second recess is close to be equipped with the fifth through-hole on the lateral wall of second roof peripheral edge one side, the second recess with be equipped with the fifth screw on the lateral wall of one side opposite to the fifth through-hole, step S3 still includes following step:

s33, a plurality of connecting bolts sequentially penetrate through the fifth through hole and the second roof through hole to be in threaded connection with the fifth screw hole, and the top ends of the second support upright posts are fixedly connected with the second roof.

The curb plate includes preceding wallboard, back wallboard, side wall board, be equipped with door opening and window opening on the preceding wallboard, back wallboard and side wall board are equipped with the window opening respectively, step S4 still includes the following step:

s41, the front wallboard is installed on the front side surfaces of the first-layer box room frame and the second-layer box room frame in a surrounding manner, the rear wallboard is installed on the rear side surfaces of the first-layer box room frame and the second-layer box room frame in a surrounding manner, and the side wall boards are installed on the side surfaces of the left side and the right side of the first-layer box room frame and the second-layer box room frame in a surrounding manner.

The modular assembled multi-storey building box house for implementing the construction method comprises a first bottom plate, a second bottom plate, a first top plate, a second top plate, a plurality of side plates and supporting columns, wherein the supporting columns comprise a plurality of first supporting columns and second supporting columns, first pits and second pits are respectively arranged on the circumferential edges of the top plate surfaces of the first bottom plate and the second bottom plate, and the bottom ends of the first supporting columns are respectively matched and inserted into the first pits of the first bottom plate and are fixedly connected with the first pits; the circumferential edges of the bottom surfaces of the first top plate and the second top plate are respectively provided with a plurality of first column top connectors and second column top connectors, and the bottom surfaces of the first column top connectors and the second column top connectors are respectively provided with a first groove and a second groove; each first column top connector is matched and arranged on the top end of the first supporting column through the first groove, and is fixedly connected with the first column top connector to form a layer of box house frame; a plurality of board bottom connectors are arranged on the circumferential edges of the bottom surfaces of the first bottom plate and the second bottom plate; a plurality of board top connecting pits are formed in the circumferential edges of the top surfaces of the first top board and the second top board, and the second bottom board is inserted into the board top connecting pits of the first top board in a matched mode through the board bottom connectors and is fixedly connected with the board top connecting pits; the bottom end heads of the second supporting columns are respectively matched and inserted into the second pits of the second bottom plate and are fixedly connected with the second pits, and the second column top connectors are matched and arranged on the top end heads of the second supporting columns through the second grooves and are fixedly connected with the second grooves to form a two-layer box room frame; the side plates are respectively arranged around the first-layer box house frame and the second-layer box house frame in a surrounding manner.

Still include a plurality of door plant and casement, the curb plate includes preceding wallboard, back wallboard, side wall board, be equipped with door opening and window opening on the preceding wallboard, back wallboard and side wall board are equipped with the window opening respectively, preceding wallboard encloses to cover and installs on the leading flank of one deck box room frame, two-layer box room frame, back wallboard encloses to cover and installs on the trailing flank of one deck box room frame, two-layer box room frame, the side wall board encloses to cover and installs on the side of one deck box room frame, two-layer box room frame left and right sides, the door plant is installed on the door opening, the casement is installed on the window opening.

The novel lifting device comprises a first bottom plate, a second bottom plate, a first top plate, a second top plate, a third top plate, a fourth top plate and a plurality of oblique support rods, wherein the oblique support rods comprise a first oblique support rod, a second oblique support rod, a third oblique support rod and a fourth oblique support rod, the upper end of the first oblique support rod is connected with the lower end of the first bottom plate, the lower end of the first oblique support rod is connected with the upper end of the first top plate, the upper end of the second oblique support rod is connected with the lower end of the second top plate, the lower end of the third oblique support rod is connected with the upper surface of the second bottom plate, and the lower end of the fourth oblique support rod is connected with the lower end of the second top plate.

It should be noted that:

the foregoing "first and second …" do not represent a specific number or order, but are merely for distinguishing between names.

In the description of the present invention, it should be understood that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship conventionally put in use of the product of the present invention, or the azimuth or positional relationship conventionally understood by those skilled in the art, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

The advantages and principles of the invention are described below:

1. according to the modularized assembled multi-layer building box house and the construction method thereof, provided by the invention, industrial production and assembled construction are realized through cooperation of scientific structures and construction process designs according to various requirements of high-grade low-layer temporary buildings, the box house frames of each layer can be replaced, a plurality of structural layers are realized as one prefabricated unit, the prefabricated member types and parts are few, the transportation is convenient, the manufacturing cost is saved, and the production efficiency of the multi-layer building box house is improved. The prefabricated member of the first-layer box room frame comprises a first bottom plate, a first top plate and a plurality of supporting columns, the prefabricated member of the second-layer box room frame comprises a second bottom plate, a second top plate and a plurality of supporting columns, and when the first-layer box room frame and the second-layer box room frame are prefabricated, the first bottom plate, the second bottom plate, the first top plate, the second top plate, the first-layer supporting columns, the second-layer supporting columns and the plurality of side plates can be respectively in modularized, standardized design and manufacturing production. The support upright post is respectively connected with the pit of the bottom plate and the groove of the top plate in a dry splicing way through the bottom end and the top end, so that the installation and connection process is greatly simplified, the construction speed of the temporary construction project is obviously accelerated on the premise of ensuring the use function, the structure is simple, the construction is quick, the site construction period is shortened, the prefabricated structural parts of the multi-layer building box house are easy to install and disassemble, the prefabricated parts of the multi-layer building box house can be conveniently recycled, the multi-aspect requirements of the low-layer high-grade temporary building can be better met, and the purposes of energy conservation, environmental protection, resource conservation and the like are realized.

2. The invention provides a modular assembled multi-layer building box room, which uses a first bottom plate as the ground of the box room, reduces the infrastructure and ground pavement before the box room is built, avoids the problem that water seeps from the ground into the box room in rainy weather, and has the advantages that the other layer of box room frame and the two layers of box room frames can be exchanged in a layered manner, the combination function of the box room frames is flexible, and the building is convenient.

3. According to the invention, the bottom end of the first support column is matched and inserted into the first pit of the first bottom plate, the top end of the first support column is matched and inserted into the first groove of the first top plate, the bottom end of the second support column is matched and inserted into the second pit of the second bottom plate, and the top end of the second support column is matched and inserted into the second groove of the second top plate, and the two support columns are fastened and connected through the connecting bolts.

4. The modular assembled multi-layer building box room provided by the invention further comprises a plurality of inclined support rods, wherein the triangular stable structure is formed by additionally arranging the inclined support rods at the joint of the support upright posts and the bottom plate or the top plate, so that the structural stability and the safety of the joint of the support upright posts and the bottom plate or the top plate are improved.

5. The modular assembled multi-layer building box house provided by the invention is taken as a main body, and is matched with other decorative components or decorative structures (various decorative plates, decorative lamps, integral hoisting type archaize building roofs and the like), so that high-end and low-layer temporary buildings with various styles can be quickly built, and the requirements of the high-grade temporary buildings in various aspects such as beautiful appearance, stable structure, good safety, good functionality, environmental protection, energy conservation and the like can be met.

Drawings

FIG. 1 is a block flow diagram of a method of constructing a modular multi-story building box room in accordance with an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a housing frame according to an embodiment of the present invention.

FIG. 3 is a schematic view of a partially cut-away structure of a housing frame according to an embodiment of the invention.

Fig. 4 is a partially enlarged structural schematic diagram of a in fig. 3.

Fig. 5 is a partially enlarged structural schematic view of B in fig. 3.

Fig. 6 is a schematic structural view of a peripheral enclosing side board of a housing frame according to an embodiment of the present invention.

FIG. 7 is a schematic perspective view of a modular multi-story building housing in accordance with an embodiment of the present invention

Fig. 8 is a schematic view of an installation structure of an oblique support bar according to an embodiment of the present invention.

Reference numerals illustrate:

10. the first bottom plate, 11, the first pit, 12, the plate bottom connector, 20, the second bottom plate, 21, the second pit, 30, the first top plate, 31, the first top connector, 311, the first groove, 32, the plate top connecting pit, 40, the second top plate, 41, the second top connector, 411, the second groove, 50, the side plate, 51, the front wall plate, 52, the rear wall plate, 53, the side wall plate, 54, the door opening, 55, the window opening, 60, the supporting upright post, 61, the first supporting upright post, 62, the second supporting upright post, 70, the inclined supporting rod, 71, the first inclined supporting rod, 72, the second inclined supporting rod, 73, the third inclined supporting rod, 74, the fourth inclined supporting rod, 80, the connecting bolt, 91, the first box room frame, 92 and the second box room frame.

Detailed Description

The following describes embodiments of the present invention in detail.

The modular assembled multi-layer building box room and the construction method thereof provided by the invention are designed aiming at the requirements of high-grade temporary buildings on aspects of beautiful appearance, stable structure, good safety, good functionality, environmental protection, energy conservation and the like, and the developed prefabricated parts are modularized and standardized in production, convenient to build and disassemble, and capable of recycling and reusing the multi-layer building box room, and are suitable for building, construction and dismantling of various high-grade temporary buildings.

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention 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 invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

Embodiment one:

referring to fig. 1 to 7, the construction method of the modular assembled multi-storey building box provided by the embodiment of the invention specifically relates to a scenic spot tourist reception center (the total height of prefabricated box members of a first storey and a second storey is 4.5 m) which comprises a two-storey main body structure and has an imitation italian building style with the total height of 10 m, and the construction method comprises the following steps:

s1, manufacturing a prefabricated box room, wherein the prefabricated box room comprises a first bottom plate 10, a second bottom plate 20, a first top plate 30, a second top plate 40, a plurality of supporting columns 60 and a plurality of side plates 50, wherein a plurality of first pits 11 and second pits 21 matched with bottom ends of the supporting columns 60 are respectively arranged on the circumferential edges of the top plate surfaces of the first bottom plate 10 and the second bottom plate 20, a plurality of first top post connectors 31 and second top post connectors 41 are respectively arranged on the circumferential edges of the bottom plate surfaces of the first top plate 30 and the second top plate 40, and a first groove 311 and a second groove 411 matched with the top ends of the supporting columns 60 are respectively arranged on the bottom surfaces of the first top post connectors 31 and the second top post connectors 41; a plurality of board bottom connectors 12 are arranged on the circumferential edges of the bottom surfaces of the first bottom plate 10 and the second bottom plate 20; a plurality of board top connecting pits 32 matched with the board bottom connectors 12 are formed on the peripheral edges of the top surfaces of the first top board 30 and the second top board 40;

S2, installing a layer of box house frame 91, firstly placing the first bottom plate 10 on the ground of a leveled place, then respectively inserting the bottom ends of the plurality of support columns 60 into a plurality of first pits 11 on the top surface of the first bottom plate 10 in a matched manner, and fixedly connecting the first bottom plate 10; then, a plurality of first column top connectors 31 on the bottom surface of the first top plate 30 are respectively matched and arranged on the top ends of a plurality of supporting columns 60, and are respectively fixedly connected with the supporting columns 60;

s3, installing a two-layer box house frame 92, namely respectively inserting a plurality of board bottom connectors 12 on the bottom surface of a second bottom plate 20 into a plurality of board top connecting pits 32 on the top surface of a first top plate 30 in a matched manner, fixedly connecting the board top connectors with the first top plate 30, respectively inserting bottom ends of a plurality of supporting upright posts 60 into a plurality of second pits 21 on the top surface of the second bottom plate 20 in a matched manner, and fixedly connecting the bottom ends with the second bottom plate 20; then, a plurality of second column top connectors 41 on the bottom surface of the second top plate 40 are respectively matched and arranged on the top ends of a plurality of support columns 60, and are respectively fixedly connected with the plurality of support columns 60;

s4, surrounding the periphery of the box room, and surrounding and installing a plurality of side plates 50 around the first-layer box room frame 91 and the second-layer box room frame 92 to complete assembly of the assembled box room.

The embodiment of the invention also provides a modular multi-storey building box room with the construction method, which comprises a first bottom plate 10, a second bottom plate 20, a first top plate 30, a second top plate 40, a plurality of side plates 50 and supporting columns 60, wherein the plurality of supporting columns 60 comprise a plurality of first supporting columns 61 and second supporting columns 62, first pits 11 and second pits 21 are respectively arranged on the circumferential edges of the top plate surfaces of the first bottom plate 10 and the second bottom plate 20, and the bottom ends of the first supporting columns 61 are respectively matched and inserted into the first pits 11 of the first bottom plate 10 and are fixedly connected with the first pits 11; the circumferential edges of the bottom surfaces of the first top plate 30 and the second top plate 40 are respectively provided with a plurality of first column top connectors 31 and second column top connectors 41, and the bottom surfaces of the first column top connectors 31 and the second column top connectors 41 are respectively provided with a first groove 311 and a second groove 411; each first column top connector 31 is matched and matched on the top end of the first support column 61 through the first groove 311, and is fixedly connected with the first column top connector to form a layer of box house frame 91; a plurality of board bottom connectors 12 are arranged on the circumferential edges of the bottom surfaces of the first bottom plate 10 and the second bottom plate 20; the peripheral edges of the top surfaces of the first top plate 30 and the second top plate 40 are provided with a plurality of plate top connecting pits 32, and the second bottom plate 20 is inserted into the plate top connecting pits 32 of the first top plate 30 in a matched manner through the plate bottom connector 12 and is fixedly connected with the plate top connecting pits; the bottom ends of the second support columns 62 are respectively matched and inserted into the second pits 21 of the second bottom plate 20 and fixedly connected with the second pits, and the second column top connectors 41 are matched and arranged on the top ends of the second support columns 62 through the second grooves 411 and fixedly connected with the second support columns to form a two-layer box room frame 92; the plurality of side plates 50 are respectively installed around the first-layer housing frame 91 and the second-layer housing frame 92.

According to the modular assembled multi-layer building box house and the construction method thereof, provided by the invention, according to various building design requirements of the scenic spot tourist reception center imitating the Italian building style, the scientific structural design is combined with the simplified construction steps, so that the efficiency is improved, the cost is reduced, and the building grade is improved. The prefabricated member of the first-layer box room frame 91 in the embodiment of the invention comprises a first bottom plate 10, a first top plate 30 and a plurality of supporting columns 60, the prefabricated member of the second-layer box room frame 92 comprises a second bottom plate 20, a second top plate 40 and a plurality of supporting columns 60, when the first-layer box room frame 91 and the second-layer box room frame 92 are prefabricated, the first bottom plate 10, the second bottom plate 20, the first top plate 30, the second top plate 40, the first-layer supporting columns 60, the second-layer supporting columns 60 and the plurality of side plates 50 can be respectively modularized, standardized design and manufacturing production, industrial production and assembly construction are realized, each layer of box room frame can be replaced with each other, a plurality of structural layers are used as a prefabricated unit, the prefabricated member types and parts are few, the transportation is convenient, the manufacturing cost is saved, and the production efficiency of the multi-layer building box room is improved; the support upright post 60 is respectively connected with the concave pit of the bottom plate and the concave groove of the top plate in a dry splicing way through the bottom end and the top end, so that the installation and connection process is greatly simplified, the construction speed of the temporary construction project is obviously accelerated on the premise of ensuring the use function, the structure is simple, the construction is quick, the site construction period is shortened, the installation and the disassembly of the multi-layer building box house are easy, the recycling and the repeated use of the multi-layer building box house are convenient, and the popularization and the application are facilitated.

The invention provides a modularized assembled multi-layer building box house main body structure, which uses a first bottom plate 10 as the ground of a box house, reduces the infrastructure and ground pavement before the box house is built, avoids the problem that rainwater weather can infiltrate from the ground into the box house, and the box house frame 91 and the box house frame 92 of the first layer can be exchanged in a layered manner, so that the combined function of the box house frame is flexible and the box house frame is convenient to build.

The supporting upright post 60 comprises a first supporting upright post 61 and a second supporting upright post 62, a first post bottom through hole is formed in the side face of the bottom end of the first supporting upright post 61, a first through hole is formed in the side wall of the first pit 11, which is close to one side of the circumferential edge of the first bottom plate 10, and a first screw hole is formed in the side wall of the first pit 11, which is opposite to the first through hole; a first column top through hole is formed in the side face of the top end of the first support column 61, a second through hole is formed in the side wall, close to the circumferential edge of the first top plate 30, of the first groove 311, and a second screw hole is formed in the side wall, opposite to the second through hole Kong Xiangchao, of the first groove 311;

step S2 further comprises the steps of:

s21, a plurality of connecting bolts 80 sequentially pass through the first through holes and the first column bottom through holes to be in threaded connection with the first screw holes, and the bottom ends of the plurality of first support columns 61 are fixedly connected with the first bottom plate 10;

S22, a plurality of connecting bolts 80 sequentially penetrate through the second through holes and the first column top through holes to be in threaded connection with the second screw holes, and the top ends of the plurality of first supporting columns 61 are fixedly connected with the first top plate 30.

The side surface of the plate bottom connector 12 is provided with a plate bottom connecting through hole, the side wall of the plate top connecting pit 32 of the first top plate 30, which is close to one side of the circumferential edge of the first top plate 30, is provided with a third through hole, and the side wall of the plate top connecting pit 32 of the first top plate 30, which is opposite to the third tee Kong Xiangchao, is provided with a third screw hole; a second bottom through hole is formed in the side surface of the bottom end of the second support upright post 62, a fourth through hole is formed in the side wall of the second pit 21, which is close to one side of the circumferential edge of the second bottom plate 20, and a fourth screw hole is formed in the side wall of one side of the second pit 21, which is opposite to the fourth through hole Kong Xiangchao; the side of the top end of the second support post 62 is provided with a second post through hole, the side wall of the second groove 411, which is close to one side of the circumferential edge of the second top plate 40, is provided with a fifth through hole, the side wall of the second groove 411, which is opposite to the fifth through hole, is provided with a fifth screw hole, and the step S3 further comprises the following steps:

s31, a plurality of connecting bolts 80 sequentially pass through the third through hole and the plate bottom connecting through hole to be in threaded connection with the third screw hole, and fixedly connect the second bottom plate 20 with the first top plate 30.

S32, a plurality of connecting bolts 80 sequentially pass through the fourth through hole and the second bottom through hole to be in threaded connection with the fourth screw hole, and the bottom ends of the plurality of second supporting columns 62 are fixedly connected with the second bottom plate 20.

Step S3 further comprises the steps of:

s33, a plurality of connecting bolts 80 sequentially pass through the fifth through hole and the second top through hole to be in threaded connection with the fifth screw hole, and the top ends of the plurality of second supporting columns 62 are fixedly connected with the second top plate 40.

The side plate 50 comprises a front wall plate 51, a rear wall plate 52 and a side wall plate 53, wherein a door opening 54 and a window opening 55 are arranged on the front wall plate 51, the rear wall plate 52 and the side wall plate 53 are respectively provided with the window opening 55, and the step S4 further comprises the following steps:

s41, front wallboard 51 encloses and covers and install on the leading flank of one deck box room frame 91, two-layer box room frame 92, and back wallboard 52 encloses and covers and install on the trailing flank of one deck box room frame 91, two-layer box room frame 92, and side wall board 53 encloses and covers and install on the side of one deck box room frame 91, two-layer box room frame 92 left and right sides.

According to the embodiment of the invention, the bottom end of the first support column 61 is matched and inserted into the first pit 11 of the first bottom plate 10, the top end of the first support column 61 is matched and inserted into the first groove 311 of the first top plate 30, the bottom end of the second support column 62 is matched and inserted into the second pit 21 of the second bottom plate 20, and the top end of the second support column 62 is matched and inserted into the second groove 411 of the second top plate 40, and the two support columns are fastened and connected through the connecting bolts 80, so that the assembly operation is simple, the convenience in assembly and disassembly of a box room frame is improved, and recycling and repeated use of the box room are more convenient.

Further, the modular assembled multi-layer building box room provided by the embodiment of the invention further comprises a plurality of door panels and window sashes, wherein the side plates 50 comprise a front wall plate 51, a rear wall plate 52 and side wall plates 53, a door opening 54 and a window opening 55 are arranged on the front wall plate 51, the rear wall plate 52 and the side wall plates 53 are respectively provided with the window opening 55, the front wall plate 51 is arranged on the front side surfaces of the first-layer box room frame 91 and the second-layer box room frame 92 in a surrounding manner, the rear wall plate 52 is arranged on the rear side surfaces of the first-layer box room frame 91 and the second-layer box room frame 92 in a surrounding manner, the side wall plates 53 are arranged on the side surfaces of the left side and the right side of the first-layer box room frame 91 and the second-layer box room frame 92 in a surrounding manner, the door panels are arranged on the door opening 54, the window sashes are arranged on the window opening 55, the door opening 54 is arranged, the box room personnel can conveniently go in and go out, the window opening 55 is arranged, and the box room is conveniently ventilated and lighted.

Example two

Referring to fig. 8, this embodiment is an improvement on the basis of the first embodiment, specifically, a plurality of diagonal support rods 70 are added on a first-layer box frame 91 and a second-layer box frame 92, the diagonal support rods 70 include a first diagonal support rod 71, a second diagonal support rod 72, a third diagonal support rod 73 and a fourth diagonal support rod 74, the upper end of the first diagonal support rod 71 is connected with the lower end of the first support column 61, the lower end of the first diagonal support rod 71 is connected with the top surface of the first bottom plate 10, the lower end of the second diagonal support rod 72 is connected with the upper end of the first support column 61, the upper end of the second diagonal support rod 72 is connected with the bottom surface of the first top plate 30, the upper end of the third diagonal support rod 73 is connected with the lower end of the second support column 62, the lower end of the third diagonal support rod 73 is connected with the top surface of the second bottom plate 20, the lower end of the fourth diagonal support rod 74 is connected with the lower end of the second support column 62, and the upper end of the fourth diagonal support rod 74 is connected with the bottom surface of the second top plate 40. At the junction of the support column 60 and the bottom plate or the top plate, the diagonal support rod 70 is added to form a triangular stable structure, so that the structural stability and safety of the junction of the support column 60 and the bottom plate or the top plate are improved.

The embodiment of the invention provides a building structure and a construction scheme of a main structure of the two-layer temporary building, and various decorative structural members (external wall simulation roman posts), eave gypsum carving, integral roofs and other functional equipment and facilities are additionally arranged in the actual construction process, so that a high-grade scenic spot tourist reception center imitating the Italian building style with the total height of 10 meters is finally obtained. The interior of the reception center can be divided into functional spaces such as reception areas, navigation areas, rest areas and the like, and a comfortable environment is provided for tourists. The outside overall modeling design that this main part outside can be realized is nimble to decorate the style, can form the new view of scenic spot, brings new experience for the passenger of scenic spot tourism. The design service life of the temporary building is three years, and the temporary building can be reused after being dismantled after expiration and the structural member is transported out and can be easily built into a new temporary or permanent building; the original site of the temporary building can be rebuilt by taking the modular assembled multi-layer building box house as a main body and a brand new style tourist center according to new operation plans and popular elements of the scenic spot, so that a new scenic spot is added.

In other embodiments, the scheme of the invention can be adopted to design a three-layer building main body, so that other building functions and purposes are realized. And are not listed here.

The foregoing is merely exemplary embodiments of the present invention, and is not intended to limit the scope of the present invention; any substitutions and modifications made without departing from the spirit of the invention are within the scope of the invention.

Claims

1. The construction method of the modular assembled multi-storey building box house is characterized by comprising the following steps of:

2. The method for constructing a modular multi-story building box of claim 1, wherein the support posts include a first support post, a first post bottom through hole is formed in a side surface of a bottom end of the first support post, a first through hole is formed in a side wall of the first pit near a circumferential edge of the first base plate, a first screw hole is formed in a side wall of the first pit opposite to the first through hole, and the step S2 further includes the steps of:

3. The method for constructing a modular multi-story building box of claim 2, wherein a first post top through hole is provided on a side surface of the top end of the first supporting post, a second through hole is provided on a side wall of the first groove near a circumferential edge of the first top plate, and a second screw hole is provided on a side wall of the first groove opposite to the second through hole, and the step S2 further comprises the steps of:

4. The construction method of modular multi-story building housing of claim 3, wherein a board bottom connecting hole is provided on a side surface of the board bottom connector, a third through hole is provided on a side wall of the board top connecting pit of the first top board near a side of the peripheral edge of the first top board, a third screw hole is provided on a side wall of the board top connecting pit of the first top board opposite to the third through hole, and the step S3 further comprises the steps of:

5. The method for constructing a modular multi-story building housing of claim 4, wherein the support columns include a second support column, a second bottom through hole is formed in a side surface of a bottom end of the second support column, a fourth through hole is formed in a side wall of the second pit adjacent to a peripheral edge of the second bottom plate, and a fourth screw hole is formed in a side wall of the second pit opposite to the fourth through hole, and the step S3 further comprises:

6. The method for constructing a modular multi-story building of claim 5, wherein a second roof through hole is formed in a side surface of a top end of the second support column, a fifth through hole is formed in a side wall of the second recess near a peripheral edge of the second roof, a fifth screw hole is formed in a side wall of the second recess opposite to the fifth through hole, and the step S3 further comprises the steps of:

7. The method for constructing a modular multi-story building housing of any of claims 1-6, wherein the side panels comprise front wall panels, rear wall panels, and side wall panels, the front wall panels are provided with door openings and window openings, the rear wall panels and the side wall panels are respectively provided with window openings, and the step S4 further comprises the steps of:

8. A modular multi-storey building box building for implementing the construction method according to any one of claims 1 to 7, comprising a first bottom plate, a second bottom plate, a first top plate, a second top plate, a plurality of side plates and supporting columns, wherein the supporting columns comprise a plurality of first supporting columns and second supporting columns, first pits and second pits are respectively arranged on the circumferential edges of the top plate surfaces of the first bottom plate and the second bottom plate, and the bottom ends of the first supporting columns are respectively matched and inserted into the first pits of the first bottom plate and fixedly connected with the first pits; the circumferential edges of the bottom surfaces of the first top plate and the second top plate are respectively provided with a plurality of first column top connectors and second column top connectors, and the bottom surfaces of the first column top connectors and the second column top connectors are respectively provided with a first groove and a second groove; each first column top connector is matched and arranged on the top end of the first supporting column through the first groove, and is fixedly connected with the first column top connector to form a layer of box house frame; a plurality of board bottom connectors are arranged on the circumferential edges of the bottom surfaces of the first bottom plate and the second bottom plate; a plurality of board top connecting pits are formed in the circumferential edges of the top surfaces of the first top board and the second top board, and the second bottom board is inserted into the board top connecting pits of the first top board in a matched mode through the board bottom connectors and is fixedly connected with the board top connecting pits; the bottom end heads of the second supporting columns are respectively matched and inserted into the second pits of the second bottom plate and are fixedly connected with the second pits, and the second column top connectors are matched and arranged on the top end heads of the second supporting columns through the second grooves and are fixedly connected with the second grooves to form a two-layer box room frame; the side plates are respectively arranged around the first-layer box house frame and the second-layer box house frame in a surrounding manner.

9. The modular multi-story building housing of claim 8, further comprising a plurality of door panels and window sashes, wherein the side panels comprise front wall panels, rear wall panels and side wall panels, wherein door openings and window openings are formed in the front wall panels, the rear wall panels and the side wall panels are respectively provided with window openings, the front wall panels are arranged on the front side surfaces of the first-story housing frame and the second-story housing frame in a surrounding manner, the rear wall panels are arranged on the rear side surfaces of the first-story housing frame and the second-story housing frame in a surrounding manner, the side wall panels are arranged on the side surfaces of the left side and the right side of the first-story housing frame and the second-story housing frame in a surrounding manner, the door panels are arranged on the door openings, and the window sashes are arranged on the window openings.

10. The modular multi-story building of claim 8, further comprising a plurality of diagonal support bars, wherein the diagonal support bars comprise a first diagonal support bar, a second diagonal support bar, a third diagonal support bar, and a fourth diagonal support bar, wherein the upper end of the first diagonal support bar is connected to the lower end of the first support post, the lower end of the first diagonal support bar is connected to the top surface of the first bottom plate, the lower end of the second diagonal support bar is connected to the upper end of the first support post, the upper end of the second diagonal support bar is connected to the bottom surface of the first top plate, the upper end of the third diagonal support bar is connected to the lower end of the second support post, the lower end of the third diagonal support bar is connected to the top surface of the second bottom plate, the lower end of the fourth diagonal support bar is connected to the lower end of the second support post, and the upper end of the fourth diagonal support bar is connected to the bottom surface of the second top plate.