CN108442529B

CN108442529B - Cage formula building unit and assembled cage formula structure building of assembled building

Info

Publication number: CN108442529B
Application number: CN201810411964.3A
Authority: CN
Inventors: 王晓军
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-04-26
Filing date: 2018-04-26
Publication date: 2023-12-22
Anticipated expiration: 2038-04-26
Also published as: CN108442529A

Abstract

The invention discloses a cage type structural unit of an assembled building and the assembled cage type structural building, wherein the cage type structural unit comprises: a quadrilateral first plane skeleton formed by a plurality of first beam modules; a quadrilateral second planar skeleton formed by a plurality of second beam modules; the upright post modules are arranged between the quadrilateral first plane framework and the quadrilateral second plane framework, and the quadrilateral first plane framework, the quadrilateral second plane framework and the upright post modules form a cuboid main frame; and the pipe network frameworks are arranged in six side surfaces of the cuboid main frame, and two ends of the transverse tubular member and two ends of the vertical tubular member are respectively connected with the frames of the frame structure. The cage type structural unit for the assembled building disclosed by the invention can be used for obtaining the assembled cage type structural building with a required structure by utilizing assembled building components produced in an industrial assembly line, and is a completely assembled building structural unit and a completely assembled building.

Description

Cage formula building unit and assembled cage formula structure building of assembled building

Technical Field

The invention belongs to the technical field of buildings, and particularly relates to a cage type structural unit of an assembled building and the assembled cage type structural building.

Background

Fabricated building refers to a building assembled from prefabricated components at a worksite. The building has the advantages of high building speed, less limitation of weather conditions, labor saving and building quality improvement.

At present, most of assembled buildings adopt traditional reinforced concrete materials as raw materials of assembled modules of the assembled buildings, the assembled modules are connected by adopting traditional connecting pieces, welding and other modes, concrete is poured on an assembled connection part at a construction site after the assembled connection, and the assembly of the modules can be completed after the concrete is poured and molded. Complete modular production and assembly of the building is not achieved.

Disclosure of Invention

At least in view of one of the above problems, the present invention provides a cage construction unit for a fabricated building, the cage construction unit comprising:

the first beam modules are integrally formed metal members and are sequentially connected end to form a quadrilateral first plane framework;

the second beam modules are integrally formed metal members and are sequentially connected end to form a quadrilateral second planar framework;

the upright post modules are integrally formed metal members, the upright post modules are arranged between the quadrilateral first plane framework and the quadrilateral second plane framework, one end of each upright post module is connected with the quadrilateral first plane framework, and the other end of each upright post module is connected with the second plane framework;

the quadrangular first plane framework, the quadrangular second plane framework and the upright post module form a cuboid main frame;

the pipe network framework comprises a plurality of cross tubular members and a plurality of vertical tubular members, the cross tubular members are arranged on the pipe network framework, the pipe network framework is arranged in six side faces of the cuboid main frame, and two ends of the cross tubular members and two ends of the vertical tubular members are respectively connected with the frames of the frame structure.

In the cage-type structural unit of the fabricated building disclosed by some embodiments of the invention, a plurality of first beam modules are sequentially connected end to end through connecting members.

The cage-type structural unit of the fabricated building disclosed by some embodiments of the invention is characterized in that a plurality of second beam modules are sequentially connected end to end through connecting members.

According to the cage-type structural unit of the fabricated building disclosed by some embodiments of the invention, one end of the upright post module is connected with the head-tail connecting part of the first beam module, and the other end of the upright post module is connected with the head-tail connecting part of the second beam module.

According to the cage-type structural unit of the fabricated building disclosed by some embodiments of the invention, one end of the upright post module is connected with the head-tail connection part of the first beam module through a connecting member, and the other end of the upright post module is connected with the head-tail connection part of the second beam module through a connecting member.

The cage-type structural units of the fabricated building disclosed in some embodiments of the present invention, the transverse tubular members and the vertical tubular members are in communication with each other at the intersection location.

The cage-type structural unit of the fabricated building disclosed by some embodiments of the invention is characterized in that the transverse tubular members and the vertical tubular members are fixedly connected in a welding mode at the crossing arrangement positions.

The cage-type structural units of the fabricated building disclosed by some embodiments of the invention are characterized in that two ends of the transverse tubular member are respectively connected with the side frame of the main frame through connecting pieces.

According to the cage-type structural unit of the fabricated building disclosed by some embodiments of the invention, two ends of the vertical tubular member are respectively connected with the side frame of the main frame through connecting pieces.

Some embodiments of the invention also disclose an assembled cage structure building, which consists of cage structure units for the assembled building disclosed by the embodiment of the invention.

The cage type structural unit for the assembled building can be assembled on site by utilizing assembled building components produced by an industrial assembly line, such as a beam module, a column module, a pipe network framework and the like, so that the assembled cage type structural building with a required structure is obtained, the construction process is short in time, high in efficiency, low in cost and free of emission, meets the environmental protection requirement, realizes the complete assembled production of building construction, and is a complete assembled building structural unit and building.

Drawings

FIG. 1 is a schematic diagram of an assembled building cage construction unit

FIG. 2 is a schematic diagram of a cage construction unit main frame

FIG. 3 is a schematic diagram of a pipe network framework structure

FIG. 4 is a schematic diagram of a main frame connection structure of a pipe network framework

FIG. 5 is a schematic diagram of a wall panel structure including a pipe network framework

FIG. 6 is a schematic view of the end structure of a tubular member in a pipe network framework

FIG. 7 is a schematic diagram of the assembly of cage-type building blocks

Reference numerals

11 first beam module 12 second beam module

13 column module 21 transverse tubular member

22 vertical tubular member 3 connecting part

4 wallboard 50 bolt

51 half open end 52 open end

Detailed Description

Any "embodiment" described as "exemplary" in this disclosure is not necessarily to be construed as preferred or advantageous over other embodiments. Performance index testing in this method example unless otherwise specified, conventional testing methods in the art were employed.

Unless otherwise defined, 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; other raw materials, reagents, test methods and technical means not specifically noted in the present invention refer to raw materials and reagents commonly used by those skilled in the art, and experimental methods and technical means commonly employed; the first, second, etc. of the invention described in this disclosure are not strictly limited in order, but are merely distinguishing between two or more elements; the invention discloses that the transverse direction and the vertical direction are only the differences of the extending directions of the expression components, and the arrangement directions are not strictly limited, for example, the invention can be arranged in a horizontal plane and can be arranged in a vertical plane; the numerical ranges disclosed herein, unless specifically stated otherwise, generally include all the optional values within the numerical ranges as well as optional values within the error range that is generally acceptable in the art; the main frame described in the embodiments of the present invention generally refers to a frame composed of beam modules and column modules, where the beam modules, column modules, combined beam modules, combined column modules, etc. are the frames of the main frame, or the frames of the side frames; in the quadrilateral plane framework with any side length, the sides forming the plane framework can be single beam modules or any number of beam modules, namely the beam modules can be combined into a combined beam module; the column modules can be connected, for example, by connecting parts, so as to form column modules with arbitrary height, which can be also called as combined column modules in general; the integrated molding disclosed by the invention generally refers to a single structural unit which is processed and molded on an industrial production site, can be directly used as a standardized building module or assembly, and does not need secondary processing on a construction site; the invention discloses a metal component, which refers to a component part of a cage type structural unit, such as a beam module, a column module and the like, which can be used as a component part of an assembled building for a standard module, wherein the material comprises, but is not limited to, commonly used aluminum alloy materials, steel structural materials and the like, and can be used as metal property materials of building materials; the first beam module and the first planar skeleton according to the embodiments of the present invention are also commonly referred to as ring beams by those skilled in the art, and the first beam module and the second planar skeleton according to the embodiments of the present invention are also commonly referred to as ground beams by those skilled in the art, depending on the location and the function of the arrangement.

Numerous specific details are set forth in the following examples in order to provide a better understanding of the present invention. It will be understood by those skilled in the art that the present invention may be practiced without some of these specific details. In the examples, some methods, means, instruments, devices, etc. well known to those skilled in the art are not described in detail in order to facilitate the gist of the present invention.

The invention provides a cage type structural unit of an assembled building, which comprises the following components:

the first beam modules are integrally formed metal members and are sequentially connected end to form a quadrilateral first plane framework; the beam module comprises a beam module and a beam module assembly; as an alternative embodiment, generally, the first beam modules are standard components of modular design and flow production, and any number of the first beam modules can be connected end to obtain a polygonal first plane skeleton; any number of first beam modules can be connected end to obtain beam module assemblies with any length, and the beam module assemblies can be further connected end to form a quadrilateral first plane skeleton with any side length; for example, a square first planar skeleton may be formed, the sides of the square may be arbitrarily set and combined, or a rectangular first planar skeleton may be formed, and the sides of the rectangle may be arbitrarily set and combined. As an alternative embodiment, a plurality of first beam modules are connected end to end in sequence through connecting members to form a quadrangular first plane skeleton, for example, a cuboid-shaped connecting member may be provided, two faces of the connecting member, which are oppositely disposed, are mutually adapted to the end face structure of the first beam module, through holes connected through connecting pieces are provided, the first beam module is fixedly connected with one side of the connecting piece through the connecting pieces, and then the other side of the connecting piece is fixedly connected with another first beam module through the connecting pieces to form a combined beam module of beam module-connecting piece-beam module interconnection.

The second beam modules are integrally formed metal members and are sequentially connected end to form a quadrilateral second planar framework; as an alternative embodiment, the second beam modules are standard components of modular design and flow production, and any number of the second beam modules can be connected end to obtain a quadrilateral second planar skeleton; any number of second beam modules can be connected end to obtain beam module assemblies with any length, and the beam module assemblies can be further connected end to form a quadrilateral second planar framework with any side length; for example, a square second planar skeleton may be formed, the sides of the square may be arbitrarily set and combined, or a rectangular second planar skeleton may be formed, and the sides of the rectangle may be arbitrarily set and combined. As an alternative embodiment, the plurality of second beam modules are connected end to end in sequence by a connecting member to form a quadrilateral second planar skeleton. For example, a rectangular parallelepiped connecting element can be provided, the two faces of the connecting element arranged opposite to each other being adapted to the end face structure of the second beam module, through-holes being provided for connection by means of connecting elements, the second beam module being fixedly connected to one side of the connecting element by means of connecting elements, and then the other side of the connecting element being fixedly connected to the other second beam module by means of connecting elements, forming a beam module-connecting element-beam module interconnecting composite beam module.

The upright post modules are integrally formed metal members, the upright post modules are arranged between the quadrilateral first plane framework and the quadrilateral second plane framework, one end of each upright post module is connected with the quadrilateral first plane framework, and the other end of each upright post module is connected with the quadrilateral second plane framework; as an alternative implementation manner, the upright column modules are standard components of modularized design and streamline production, the number of the matched upright column modules can be set according to the side lengths and the number of the sides of the first plane framework and the second plane framework, and the upright column modules can be arranged between the first plane framework and the second plane framework to connect and fix the first plane framework and the second plane framework; as an alternative embodiment, one end of the upright post module is connected with the head-tail connection part of the first beam module, and the other end of the upright post module is connected with the head-tail connection part of the second beam module; as other embodiments, one end of the column module is connected to the end-to-end connection portion of the first beam module through a connecting member, and the other end of the column module is connected to the end-to-end connection portion of the second beam module through a connecting member. For example, a cuboid-shaped connecting member may be provided, the right side surface of the connecting member is adapted to the end surface structure of the first beam module, through holes connected by connecting members are provided, for example, bolts may be used as connecting members, the right side surface of the first beam module is fixedly connected to the right side surface of the connecting member by means of bolt connecting members, the lower surface of the connecting member is adapted to the end surface structure of the column module, through holes connected by connecting members are provided, the column module is fixedly connected to the lower surface of the connecting member by means of connecting members, that is, the connecting member connects the first beam module and the column module to each other, and according to the same manner, the connecting member can connect the column module and the second beam module to each other, and thus a side frame in which the first beam module, the column module and the second beam module are sequentially connected end to end can be formed.

As an alternative embodiment, the column modules may be connected end to obtain column modules of different lengths, e.g. two column modules may be combined to obtain a combined column module of twice the length, or three column modules may be combined to obtain a combined column module of three times the length of the column modules.

The quadrangular first plane framework, the quadrangular second plane framework and the upright post modules form a cuboid main frame. The cuboid main frame is a supporting structure of the cage type structural unit, and on the basis, the cage type structural unit is further obtained through the assembly of a pipe network framework.

The pipe network skeleton includes a plurality of horizontal tubular members and a plurality of tubular members of vertical setting of alternately setting, and the pipe network skeleton sets up in the six sides of cuboid main frame, and the both ends of horizontal tubular member and the both ends of vertical tubular member are connected with frame structure's frame respectively. As an alternative embodiment, the transverse tubular members and the vertical tubular members are interconnected at the intersection, i.e. the tubular members form interconnected cavities, in which other building-required fittings, such as water lines, grid lines, communication lines, etc., may be laid. As an alternative embodiment, the transverse tubular members and the vertical tubular members are fixedly connected by welding at the crossing location. Further, as an alternative embodiment, two ends of the transverse tubular member are respectively connected with the frame of the main frame through connecting pieces, and two ends of the vertical tubular member are respectively connected with the frame of the main frame through connecting pieces. As an alternative embodiment, the number of the transverse tubular members in the pipe network skeleton may be set to 2, 3, etc., the number of the vertical tubular members may be set to 2, 3, etc., and the number of the transverse tubular members and the number of the vertical tubular members in the same pipe network skeleton may be set to be the same or different; as an alternative embodiment, typically, the pipe network skeleton is disposed in the wallboard, and forms a modularized wallboard assembly with the wallboard, where the pipe network skeleton is used as a structural reinforcement part of the wallboard assembly, and the wallboard forms a function of using the wallboard assembly such as heat insulation and heat preservation as a building wallboard, and is adapted to the cage-type structural unit to form the cage-type structural unit.

Some embodiments of the invention also disclose an assembled cage structure building, which consists of cage structure units for the assembled building disclosed by the embodiment of the invention. In the cage type structural unit disclosed by the invention, the parts, such as the cross beam module, the upright column module and the like, of the main frame, which are mutually connected, can be further connected with the cross beam module and the upright column module, and the cage type structural unit is further assembled by using the same connecting and combining mode for forming the cage type structural unit and taking the cage type structural unit as a base, so that a plurality of cage type structural units are obtained, and the plurality of cage type structural units can further form assembled cage type structural buildings with different shapes and different sizes.

Fig. 1 is a schematic structural diagram of a cage-type structural unit provided in embodiment 1 of the present disclosure, in fig. 1, four first beam modules 11 are connected end to form a square first planar skeleton, and are disposed above the structural unit, four second beam modules 12 are connected end to form a square second planar skeleton, and are disposed below the structural unit, and the edges of the two planar skeletons are disposed correspondingly from top to bottom; the four column modules 13 are respectively arranged between four vertexes of the square plane skeleton which are correspondingly arranged to form a cuboid main frame of the cage type structural unit, as shown in fig. 2, in the cuboid main frame of the cage type structural unit, a first plane skeleton and a second plane skeleton are respectively an upper frame and a lower frame, a plurality of column modules, a first beam module and a second beam module form four side frames, namely, an upper frame, a lower frame and four side frames are formed in the cuboid main frame, namely, six frames are formed in a conformal manner, and in each frame, a pipe network skeleton consisting of two transverse tubular members 21 and two vertical tubular members 22 is arranged; the schematic diagram of the pipe network skeleton structure is shown in fig. 3, and the cuboid main frame and six pipe network skeletons form the cage-type structural unit disclosed in the embodiment 1, and the cage-type structural unit is shown in fig. 1.

Fig. 4 is a schematic side assembly of a cage-type structural unit according to embodiment 2 of the present disclosure, where the side assembly is composed of side frames and a pipe network skeleton disposed therein. Two ends of a first beam module 11 in fig. 4 are respectively connected with a column module 13 through a connecting part 3, two ends of a second beam module 12 in the fig. are respectively connected with the column module 13 through the connecting part 3 to form a side frame, two transverse tubular members 21 and two vertical tubular members 22 are arranged in the side frame in a crossing manner, connection crossing parts A of the transverse tubular members 21 and the vertical tubular members are formed in a welding manner to form a groined pipe network framework, two ends of the transverse tubular members 21 are respectively connected and fixed with the column modules on two sides, and two ends of the vertical tubular members 22 are respectively connected and fixed with the first beam module and the second beam module to form a side assembly of a cage type structural unit.

Fig. 5 is a schematic structural diagram of a wall board including a pipe network skeleton provided in embodiment 3 of the present disclosure, in fig. 5, a pipe network skeleton formed by two transverse tubular members 21 and two vertical tubular members 22 is provided in a wall board 4, and ends of the pipe network skeleton extend from four sides of the wall board and are used for being fixedly connected with frames of a cage-type structural unit.

Fig. 6 is a schematic diagram of an end structure of a tubular member in a pipe network skeleton provided in embodiment 4 of the present invention, wherein one end of the tubular member is provided with an open end 52, the other end is provided with a half open end 51, the half open end 51 is matched with a bolt 50, and a hole matched with the bolt 50 is formed in a member arranged on the left side, namely, the tubular member in the figure is connected with a member on the left side thereof through the bolt 50; as an alternative embodiment, the components include, but are not limited to, beam modules, column modules.

Fig. 7 is a schematic diagram of an assembled cage structure building provided in embodiment 5 of the present invention, in which four first beam modules 11, four second beam modules 12 and four column modules 13 form a first cage structure unit, which is represented by solid lines, on the basis of which a second cage structure unit is formed on the right side thereof by three first beam modules, three second beam modules and two column modules, which is represented by broken lines, to form an assembled cage structure building consisting of two cage structure units. According to the similar method, on the basis of the first cage type junction unit, free assembly and combination can be carried out in other multiple directions, and the assembled cage type structure building formed by a plurality of cage type structure units is obtained.

The cage type structural unit for the assembled building can be assembled on site by utilizing assembled building components produced by an industrial assembly line, such as a beam module, a column module, a pipe network framework and the like, so that the assembled cage type structural building with a required structure is obtained, the structure is complete and firm, secondary construction on the building site is not needed, the construction process time is short, the efficiency is high, the cost is low, no emission is generated, the environment-friendly requirement is met, the complete assembled production of the building construction is realized, and the assembled cage type structural unit and the building are completely assembled.

The details and the invention nature of the technical solution of the present invention will become more apparent from the above description and the disclosure of data in connection with the embodiments, it should be understood that these details are not intended to limit the spirit and scope of the invention, and any combination of technical features disclosed in the present invention is intended to fall within the scope of the invention to be protected.

Claims

1. A cage construction unit for a fabricated building, the cage construction unit comprising:

the second beam modules are integrally formed metal members and are sequentially connected end to form a quadrilateral second plane framework;

the upright post modules are integrally formed metal members, the upright post modules are arranged between the quadrilateral first plane framework and the quadrilateral second plane framework, one end of each upright post module is connected with the quadrilateral first plane framework, and the other end of each upright post module is connected with the second plane framework, wherein the quadrilateral first plane framework, the quadrilateral second plane framework and the upright post modules form a cuboid main framework;

the pipe network frameworks comprise a plurality of transverse tubular members and a plurality of vertical tubular members which are arranged in a crossing manner, the pipe network frameworks are arranged in the side frames of the cuboid main frame, and two ends of the transverse tubular members and two ends of the vertical tubular members are respectively connected with the frames of the side frames;

the transverse tubular members and the vertical tubular members are mutually communicated at the crossed arrangement positions, cavities which are mutually communicated are formed in the tubular members, and pipelines are arranged in the mutually communicated cavities; the four first beam modules, the four second beam modules and the four upright column modules form a first cage type structural unit, and on the basis of the first cage type structural unit, free assembly and combination are carried out in other directions to obtain an assembled cage type structural building formed by a plurality of cage type structural units;

the wall of the cage structure building is a wallboard; the wall board is internally provided with a pipe network framework consisting of two transverse tubular members and two vertical tubular members, and the end parts of the pipe network framework extend out from four side surfaces of the wall board and are fixedly connected with the frame of the cage type structural unit; one end of the tubular member is provided with an open end, and the other end of the tubular member is provided with a half-open end which is matched with the bolt.

2. The cage structural unit of a fabricated building of claim 1, wherein the plurality of first beam modules are connected end-to-end in sequence by connecting members.

3. The cage structural unit of a fabricated building of claim 1, wherein the plurality of second beam modules are connected end-to-end in sequence by connecting members.

4. The cage structural unit of a fabricated building of claim 1, wherein one end of the column module is configured to connect with the head-to-tail connection of the first beam module and the other end of the column module is configured to connect with the head-to-tail connection of the second beam module.

5. The cage-type structural unit of an assembled building according to claim 4, wherein one end of the pillar module is connected to the head-to-tail connection portion of the first beam module through a connecting member, and the other end of the pillar module is connected to the head-to-tail connection portion of the second beam module through a connecting member.

6. The cage structural unit of a fabricated building of claim 1, wherein said transverse tubular members and said vertical tubular members are fixedly connected by welding at intersections.

7. The cage construction unit of the fabricated building according to claim 1, wherein both ends of the lateral tubular member are connected to the frame of the frame by connecting members, respectively.

8. The cage structural unit of the fabricated building according to claim 1, wherein both ends of the vertical tubular member are connected with the frame of the frame by connecting members, respectively.

9. A fabricated cage structure building consisting of cage structure units of the fabricated building of any one of claims 1-8.