CN220285028U - Semicircular integrated assembled house - Google Patents

Abstract

The utility model discloses a semicircular integrated assembled house which comprises a semicircular top frame and a semicircular bottom frame, wherein the bottom frame is arranged on a horizontal basis, a column a component, a column b and a column c component are correspondingly connected with a bottom corner piece a, a bottom corner piece b and a bottom corner piece c of the bottom frame in sequence, the top frame is connected to a column, a T-shaped wallboard and a long-side wallboard are further arranged between the top frame and the bottom frame, and the position of a door is reserved on the wallboard. The utility model is convenient to assemble and disassemble; the manufacturing part is simple and convenient to manufacture through structural design, so that the utility model has low manufacturing cost, attractive appearance and good visual effect after the assembly is completed.

Description

Semicircular integrated assembled house

Technical Field

The utility model belongs to the technical field of integrated assembly type houses, and particularly relates to a semicircular integrated assembly type house.

Background

The existing integrated assembly type house is single, most of the integrated assembly type houses are rectangular, and the visual effect is general. The structural design of the semicircular house needs to consider the specificity of the curve shape. The curved shape of a semicircular house may place higher demands on the strength and stability of the material than a conventional straight-line structure. Thus, careful structural analysis and calculations are required to ensure that the house is able to withstand the load steadily and maintain structural integrity during use. The modular design and manufacture of semi-circular houses requires consideration of the flexibility of the curved shape. The size, shape and manner of connection of the modular components require precise design to ensure that the correct curvilinear configuration is achieved during assembly. Consistency and quality of the different modules are ensured during the manufacturing process to achieve a seamless combination and tight connection between the modules.

Disclosure of Invention

The utility model aims to increase a semicircular integrated assembled house and solve the problem of singleness of the integrated assembled house.

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

the utility model discloses a semicircular integrated assembled house which comprises a semicircular top frame and a semicircular bottom frame, wherein the bottom frame is arranged on a horizontal basis, a column a component, a column b and a column c component are correspondingly connected with a bottom corner piece a, a bottom corner piece b and a bottom corner piece c of the bottom frame in sequence, the top frame is connected to a column, a T-shaped wallboard and a long-side wallboard are further arranged between the top frame and the bottom frame, and the position of a door is reserved on the wallboard.

Further, the T-shaped wallboard is clamped in the U-shaped piece connected with the T-shaped wallboard, the U-shaped piece connected with the T-shaped wallboard is connected with the upper top and bottom frames, the long-side wallboard is clamped in the U-shaped piece connected with the long-side wallboard, and the U-shaped piece connected with the long-side wallboard is connected with the upper top and bottom frames.

Further, two ends of a top and bottom frame long beam are respectively connected to corner piece assemblies E of a bottom corner piece b and a bottom corner piece c through bolts, two top and bottom annular beams are connected to corner piece assemblies H3 of the bottom corner piece a, the bottom corner piece b and the bottom corner piece c, secondary beams are connected to the top and bottom frame long beam, the top and bottom annular beams and the bottom corner piece a, a bottom lining plate/top hanging baseplate is mounted on the top and bottom annular beams and the top and bottom frame long beam, a bottom frame long beam wrapping piece and a bottom frame annular beam wrapping piece are mounted through bolts, and finally a bottom frame cement pressure plate is covered on a frame; the lower connecting plate of the upright post b, the lower connecting plate of the upright post c and the connecting plate of the upright post a are connected with other connecting pieces through bolts.

Further, screws are driven to the secondary beam and the top and bottom frame long beam, the top corner piece c is connected with the top and bottom frame long beam through bolts, the top corner piece c is connected with the connecting plate on the upright post c, the top frame annular beam wrapping piece is clamped on the top and bottom annular beam, and the top corner piece a is connected with the top and bottom annular beam through bolts.

Further, bottom corner piece B includes bottom corner piece B/C assembly A, bottom corner piece B/C assembly B, bottom corner piece B/C assembly C, bottom corner piece B/C assembly D, corner piece assembly E, bottom corner piece B/C assembly G, corner piece assembly H, bottom corner piece B/C assembly I, and bottom corner piece B/C assembly J;

the bottom corner piece B/c assembly A is a connecting plate with a mounting hole arranged beside a round hole in the middle, the bottom corner piece B/c assembly B is a round drain pipe, and the bottom corner piece B/c assembly A is arranged below the round hole in the middle; the bottom corner piece B/C assembly C, the bottom corner piece B/C assembly D, the bottom corner piece B/C assembly I and the bottom corner piece B/C assembly J form a hollow rectangular piece, one side of the lower end of the bottom corner piece B/C assembly D and one side of the lower end of the bottom corner piece B/C assembly I are opened, a pipe can conveniently enter and exit the bottom corner piece B/C assembly B during drainage, and the bottom corner piece B/C assembly B is arranged in the hollow rectangular piece; the bottom corner piece b/c assembly G is in a folded angle shape and is arranged below the hollow rectangular piece.

The upper end of the corner fitting assembly E is a concave plate, one side of the concave plate is connected with a straight plate, the lower side of the straight plate is inwards connected with a bevel plate, and the corner fitting assembly E is provided with a mounting hole according to the position of the attached long beam; the upper end and the lower end of the corner fitting assembly H are both angle plates, and the middle is a straight plate which is adapted to the shape of the attached long beam;

the corner fitting b/c assembly A is connected with the upright post, the corner fitting assembly E is connected with the beam bolt, a drainage ditch is designed at the same time, and the opening of the bottom corner fitting b/c assembly G is connected with the ground through an expansion bolt; the bottom corner piece c is identical in shape to the bottom corner piece b.

Further, the shape of the top corner piece C is the same as that of the top corner piece B, in the top corner piece B, the bottom corner piece a component A is a connecting plate, the opening is in order to be connected with the upright post through a bolt, the large round hole is used for drainage, the bottom corner piece a component E is connected with the bottom corner piece a component E, the bottom corner piece a component B is a side plate, the round hole and the waist hole are formed in the bottom corner piece a component B, the corner piece component H is connected with the beam in a shape similar to that of a beam in corresponding bolt connection, the bottom corner piece a component D is a polygonal plate, the bottom corner piece a component B is surrounded to form a hollow component, the bottom corner piece a component C is a strip-shaped connecting plate and is arranged below the bottom corner piece a component B, the opening of the bottom corner piece a/B component A and the bottom corner piece a/B component B are arranged on the upper side and the lower side of the top surface of the bottom corner piece a component D, and the opening is connected with the secondary beam through bolts.

Further, the long beams of the top and bottom frames bear the force transfer of the roof and are used as drainage ditches, and the shapes of the top and bottom are the same; the bottom frame is thicker than the top frame, one end of the secondary beam is connected with the long beam, and the other end of the secondary beam is tangential to the semicircular integrated assembly type house.

Further, the bottom frame annular beam edge covering piece and the annular beam are arc-shaped, the top frame annular beam edge covering piece and the top frame annular beam edge covering piece are arc-shaped, the top and bottom annular beam is arc-shaped, the top frame roof board, the bottom lining board/the top hanging bottom board are arranged on the top and bottom annular beam and the top and bottom frame long beam, and the top hanging top board and the bottom lining board are identical in shape;

the bottom frame cement pressure plate is semicircular in shape, and all upright column sections are formed by rolling; all the upright post connecting plates are welded on the upright posts, and the upper corner fitting and the lower corner fitting are connected with the upright posts through bolts;

the T-shaped wallboard is in a T-shaped form, and is a semicircular wall body after being spliced.

Further, the upright post a connecting plates are arranged at two ends of the upright post a to form an upright post a assembly;

the lower connecting plate of the upright post c and the upper connecting plate of the upright post c are arranged at two ends of the upright post c, the upper connecting plate of the upright post b and the lower connecting plate of the upright post b are arranged at two ends of the upright post b, and the upright post c and the upright post b have the same structure.

According to the utility model, the integrated prefabrication is realized in a factory, the quick assembly is realized on a transportation site, and the assembly and the disassembly are convenient; the manufacturing part is simple and convenient to manufacture through structural design, so that the utility model has low manufacturing cost, attractive appearance and good visual effect after the assembly is completed.

The utility model comprises a semicircular integrated assembled house design, and all parts of the whole house are independently designed and innovated. Comprises a semicircular integrated assembled house bottom frame, a top frame, a middle upright post and a wallboard.

Preferably, the semi-circular integrated assembled house bottom frame can be prefabricated in factories and baked to be uniformly packaged and delivered, and consists of bottom corner pieces, annular beams, secondary beams, long beams, cement pressure plates, bottom lining plates and edge covering pieces, wherein the bottom corner pieces, the annular beams, the secondary beams, the long beams, the cement pressure plates, the bottom lining plates and the edge covering pieces are connected in a connecting mode through bolts, a gap in the middle of the bottom frame can be filled with heat insulation materials, and the heat insulation materials can be organic heat insulation materials, inorganic heat insulation materials and metal heat insulation materials.

Preferably, the semi-circular integrated assembled house top frame can be prefabricated in factories and baked to be uniformly packaged and delivered, and consists of top corner pieces, long beams, annular beams, secondary beams, bottom lining plates, top frame roof plates and edge covering pieces, wherein the top corner pieces, the long beams, the annular beams, the secondary beams, the bottom lining plates, the top frame roof plates and the edge covering pieces are connected in a connecting mode through bolts, a gap in the middle of the top frame can be filled with heat insulation materials, and the heat insulation materials can be organic heat insulation materials, inorganic heat insulation materials and metal heat insulation materials.

Preferably, the semicircular integrated assembled house stand column is provided with three stand columns in total, stand column connecting plates are welded at two ends of the stand columns, and the welded stand columns are used for connecting a top frame and a ground frame and play a role in bearing force.

Preferably, the semicircular integrated assembled house wallboard is required to be manufactured into a T shape except for the long-side wallboard.

Compared with the prior art, the utility model has the beneficial effects that:

the shape of the integrated assembled house is semicircular, so that monotonous space forms and functions of the existing box house are enriched. Attractive appearance and good visual effect. In the utility model, the following components are added:

1. the corner fittings and the upright posts are in non-right-angle design, and the corner fittings and the upright posts of the traditional assembled house are in right-angle design;

2. compared with the traditional structure, the long beam shape structure is unique in structure, and drainage and secondary beam lap joint are considered in function;

3. one end of the secondary beam structure is tangent to the annular beam, and two ends of the traditional secondary beam are the same;

4. the annular beam and the edge covering piece are circular in structure, the annular beam is equivalent to a traditional long beam, and the traditional long beam is straight and non-annular.

Drawings

FIG. 1 is a schematic view of a semi-circular integrated fabricated building of the present utility model;

FIG. 2 is a schematic view of a bottom frame of the present utility model;

FIG. 3 is a schematic top frame of the present utility model;

FIG. 4 is a schematic view of the bottom corner fitting b of the present utility model;

FIG. 5 is a schematic view of the bottom corner fitting c of the present utility model;

FIG. 6 is a schematic view of the bottom corner fitting a of the present utility model;

FIG. 7 is a schematic view of a top corner fitting b of the present utility model;

FIG. 8 is a schematic view of a top corner fitting c of the present utility model;

FIG. 9 is a schematic view of a top corner fitting a of the present utility model;

FIG. 10 is a schematic view of a top-bottom long beam of the present utility model;

FIG. 11 is a schematic view of a top and bottom secondary beam of the present utility model;

FIG. 12 is a schematic view of a bottom ring beam hemming member of the present utility model;

FIG. 13 is a schematic view of a top ring beam hemming member of the present utility model;

FIG. 14 is a schematic view of a top and bottom ring beam according to the present utility model;

FIG. 15 is a schematic view of a roof truss roof panel of the present utility model;

FIG. 16 is a schematic view of a top hanger plate/bottom liner plate of the present utility model;

FIG. 17 is a schematic view of a cement pressure plate of the present utility model;

FIG. 18 is a schematic view of a column a according to the present utility model;

FIG. 19 is a schematic view of a pillar a hemming member of the present utility model;

FIG. 20 is a schematic view of a T-wall panel of the present utility model;

FIG. 21 is a schematic view of a stud a connecting plate of the present utility model;

FIG. 22 is a schematic view of a post b connection plate of the present utility model;

FIG. 23 is a schematic view of column a and column a hemming member of the present utility model;

FIG. 24 is a schematic view of a post b/c of the present utility model;

FIG. 25 is a schematic view of a column a assembly of the present utility model;

FIG. 26 is a schematic view of a post b/c assembly of the present utility model;

FIG. 27 is a U-shaped member for a long side wall panel connection of the present utility model;

FIG. 28 is a U-shaped member of the T-wall connection of the present utility model;

in the figure, 1-bottom frame, 2-top frame, 3-long side wallboard, 4-T type wallboard, 5-column a, 6-column C, 7-column B, 8-bottom corner piece B, 9-column B lower connecting plate, 10-column a edging piece, 11-bottom corner piece C, 12-column C lower connecting plate, 13-top bottom frame long beam, 14-bottom frame long beam edging piece, 15-bottom frame annular beam edging piece, 16-bottom lining plate/top hanging bottom plate, 17-secondary beam, 18-bottom corner piece a, 19-bottom frame cement pressure plate, 20-column B upper connecting plate, 21-top corner piece B, 22-column C upper connecting plate, 23-top corner piece C, 24-top frame annular beam edging piece, 25-top corner piece a, a roof panel of a roof frame, 27-top and bottom ring beams, 28-column a connection plates, 29-bottom corner B/C assemblies A, 30-bottom corner B/C assemblies B, 31-bottom corner B/C assemblies C, 32-bottom corner B/C assemblies D, 33-corner assemblies E, 34-bottom corner B/C assemblies G, 35-corner assemblies H, 36-bottom corner B/C assemblies I, 37-bottom corner B/C assemblies J, 38-top corner B/C assemblies A, 39-top corner B shear plates, 40-top corner B/C assemblies B, 41-top corner B/C assemblies C, 42-top corner B/C assemblies D, 43-top corner B/C assemblies E, 44-top corner B/C assemblies F, 45-top corner piece B/C assembly G, 46-top corner piece B/C assembly H, 47-top corner piece C shear panel, 48-bottom corner piece a assembly a, 49-bottom corner piece a assembly B, 50-bottom corner piece a assembly C, 51-bottom corner piece a/B assembly a, 52-bottom corner piece a/B assembly B, 53-bottom corner piece a assembly D, 54-bottom corner piece a assembly E, 55-top corner piece shear panel, 56-top corner piece a assembly a, 57-top corner piece a assembly B, 58-top corner piece a assembly C, 59-top corner piece a assembly D, 60-long side wall panel connected U-shaped pieces, 61-T wall panel connected U-shaped pieces.

Detailed Description

The following description of the embodiments will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. Based on the embodiments, all other embodiments that may be made by one of ordinary skill in the art without making any inventive effort are within the scope of the present application.

Unless otherwise defined, technical or scientific terms used in the embodiments of the present application should be given a general meaning as understood by one of ordinary skill in the art. The terms "first," "second," and the like, as used in this embodiment, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. "upper", "lower", "left", "right", "transverse", and "vertical", etc. are used only with respect to the orientation of the components in the drawings, these directional terms are relative terms, which are used for descriptive and clarity with respect thereto and which may vary accordingly with respect to the orientation in which the components are disposed in the drawings.

As shown in fig. 1 and 2, the semicircular integrated assembled house of the present embodiment has a semicircular shape, as shown in fig. 1. The bottom frame 1 is horizontally placed on the horizontal ground (foundation), the column a component 5, the column b7 and the column c component 6 are correspondingly connected with the bottom corner piece a18, the bottom corner piece b8 and the bottom corner piece c11 of the bottom frame 1 sequentially through bolts, the top frame 2 is lifted up through a crane and is connected to the column through bolts, the T-shaped wallboard 4 and the long-side wallboard 3 are finally installed, the T-shaped wallboard 4 is clamped in the U-shaped piece 61 connected with the T-shaped wallboard, the U-shaped piece 61 connected with the T-shaped wallboard is connected with the upper top and the lower bottom frames, the long-side wallboard 3 is clamped in the U-shaped piece 60 connected with the long-side wallboard, the U-shaped piece 60 connected with the upper top and the lower bottom frames is connected through the glue-beating connection mode, and the installed wallboard can be reserved in advance for the position of a door on the wallboard.

In the manufacturing process of the bottom frame 1 of this embodiment, as shown in fig. 2, two ends of a top and bottom frame long beam 13 are respectively connected to a corner piece assembly E33 of a bottom corner piece b8 and a bottom corner piece c11 by bolts, two top and bottom ring beams 27 are connected to a corner piece a18, a corner piece b8 and a corner piece assembly H35 of a bottom corner piece c11 by bolts, a secondary beam 17 is connected to the top and bottom frame long beam 13, the top and bottom ring beams 27 and the bottom corner piece a18 by bolts, a bottom lining plate/top and bottom plate 16 can be rivet-mounted on the top and bottom ring beams 27 and the top and bottom frame long beam 13, at this time, a thermal insulation material can be filled in the bottom frame 1, a bottom frame long beam covering member 14 and a bottom frame ring beam covering member 15 are mounted by bolts, and finally a bottom frame cement pressure plate 19 is covered on the frame. The lower connecting plate 9 of the upright post b, the lower connecting plate 12 of the upright post c and the connecting plate 28 of the upright post a are connected with other connecting pieces through bolts.

As shown in fig. 3, the top frame 2 of the present embodiment is assembled in the same manner as the bottom frame 1. The secondary beam 17 and the top and bottom frame long beam 13 are screwed, the top corner piece c23 is connected with the top and bottom frame long beam 13 through bolts, the top corner piece c23 is welded with the connecting plate 22 on the upright post c, the top frame annular beam wrapping piece 24 is clamped on the top and bottom annular beam 27, and the top corner piece a25 is connected with the top and bottom annular beam 27 through bolts. The connection mode of the top corner piece b21 and other components can be selected according to the field requirement as the connection mode of the top corner piece c 23.

The corner fitting of this embodiment, the shape is based on semi-circular integrated assembled house design, and the corner fitting is equipped with the component of being connected with stand and roof beam, and the shape design of connecting element is equipped with the wash port with the cross-section of stand and roof beam, and the corner fitting is opened there is water drainage tank in the perpendicular department of corner fitting and longeron connection, and 6 corner fittings altogether are held to upper and lower top and bottom frame, and the shape is as shown in fig. 4, 5, 6, 7, 8, 9.

The bottom corner piece B8 of this embodiment includes a bottom corner piece B/C assembly A29, a bottom corner piece B/C assembly B30, a bottom corner piece B/C assembly C31, a bottom corner piece B/C assembly D32, a corner piece assembly E33, a bottom corner piece B/C assembly G34, a corner piece assembly H35, a bottom corner piece B/C assembly I36, and a bottom corner piece B/C assembly J37.

The bottom corner piece B/c component A29 is a connecting plate with a mounting hole arranged beside the round hole in the middle, the bottom corner piece B/c component B30 is a round drain pipe, and the bottom corner piece B/c component A29 is arranged below the round hole in the middle.

The bottom corner piece B/C assembly C31, the bottom corner piece B/C assembly D32, the bottom corner piece B/C assembly I36 and the bottom corner piece B/C assembly J37 form a hollow rectangular piece, the bottom corner piece B/C assembly D32 and the bottom corner piece B/C assembly I36 are opened at one side of the lower end, and the bottom corner piece B/C assembly B30 is arranged in the hollow rectangular piece in order to facilitate the pipe to enter and exit the bottom corner piece B/C assembly B30 during drainage. The bottom corner piece b/c assembly G34 is in a folded angle shape and is arranged below the hollow rectangular piece.

The upper end of the corner fitting assembly E33 is provided with a concave plate, one side of the concave plate is connected with a straight plate, the lower side of the straight plate is inwards connected with a corner plate, and the corner fitting assembly E33 is provided with a mounting hole according to the position of the attached long beam. The upper end and the lower end of the corner fitting assembly H35 are both angle plates, and the middle is a straight plate which is adapted to the shape of the attached long beam.

All the bottom corner piece b8 are welded in the connecting mode, the corner piece b/C assembly A29 is designed to be connected through a column, the corner piece assembly E33 is connected with a beam through a bolt, a drainage ditch is designed at the same time, the bottom corner piece b/C assembly G34 is perforated for being connected with the ground through an expansion bolt, as shown in FIG. 4, a bottom corner piece b/C assembly C31 is firstly manufactured, a bottom corner piece b/C assembly D32 and a bottom corner piece b/C assembly J37 are welded on the bottom corner piece b/C assembly C31, and a bottom corner piece b/C assembly I36 is welded on the bottom corner piece b/C assembly D32 and the bottom corner piece b/C assembly J37.

In this embodiment, the bottom corner B/C assembly B30 is welded to the bottom corner B/C assembly a29, concentric with the drain hole during welding, the bottom corner B/C assembly a29 and the bottom corner B/C assembly G34 are welded to the upper and lower edges of the bottom corner B/C assembly C31 and the bottom corner B/C assembly J37, respectively, the corner assembly H35 is welded to the bottom corner B/C assembly I36 vertically, and finally the corner assembly E33 is welded to the bottom corner B/C assembly D32 vertically. The corner fitting assemblies E33 and H35 are designed to fit the long beam to achieve better connection and sealing properties, and the shape of the corner fitting assemblies matches that of the long beam.

The bottom corner piece c and the bottom corner piece b8 of the embodiment are symmetrically manufactured, as shown in fig. 5.

The bottom corner piece a18 and the two side corner piece assemblies H35 of the embodiment are similar to the shape of a beam, and the bottom corner piece a/B assembly A51 and the bottom corner piece a/B assembly B52 are connected with the secondary beam for good connection and sealing performance, and holes are formed on the corresponding beams.

As shown in FIG. 6, the bottom corner piece a assembly B49 is manufactured, the bottom corner piece a assembly D53 and the bottom corner piece a assembly B49 are welded, two corner piece assemblies H35 are welded on two sides of the bottom corner piece a assembly D53 and are perpendicular to the two sides, the bottom corner piece a assembly E54 is welded on the bottom corner piece a assembly A48 and is concentric with the drain hole of the piece 48 during welding, the bottom corner piece a assembly A48 and the bottom corner piece a assembly C50 are respectively welded on the upper side and the lower side of the bottom corner piece a assembly B49, and the bottom corner piece a/B assembly A51 and the bottom corner piece a/B assembly B52 are perpendicularly welded on the bottom corner piece a assembly D53.

In the embodiment, the top corner piece B21, the bottom corner piece a component a48 is a connecting plate, the opening is used for being connected with the upright post through a bolt, the large round hole is used for drainage, the large round hole is welded with the bottom corner piece a component E54, the bottom corner piece a component E54 is a drain pipe, the bottom corner piece a component B49 is a side plate, the round hole is formed in the side plate for being connected with an assembled house, the waist hole is formed in the side plate for being convenient to hoist, the corner piece component H35 is connected with a beam, the shape of the corner piece is similar to that of a beam connected with the corresponding bolt, the bottom corner piece a component D53 is a polygonal plate, the corner piece a component B49 is surrounded into a hollow component, the bottom corner piece a component C50 is a strip-shaped connecting plate and is arranged below the bottom corner piece a component B49, the opening is used for being connected with the ground through an expansion bolt, and the bottom corner piece a/B component a51 and the bottom corner piece a/B component B52 are arranged on the upper side and the lower side of the top surface of the bottom corner piece a component D53 through a bolt.

As shown in FIG. 7, the assembly is similar in shape to the assembly of FIG. 4, the corner piece B/C assembly G45 and the corner piece B/C assembly B40 are welded, the corner piece B/C assembly C41 and the corner piece B/C assembly H46 are welded to the corner piece B/C assembly G45 and the corner piece B/C assembly B40, respectively, the corner piece B/C assembly E43 is welded to the corner piece B/C assembly F44, concentric welding is required, the welding members of the corner piece B/C assembly E43 and the corner piece B/C assembly F44 are welded to the corner piece B/C assembly B40, the corner piece B/C assembly C41, the corner piece B/C assembly G45 and the corner piece B/C assembly H46 are welded to the inner wall of the corner piece B/C assembly G46, the corner piece B/C assembly A and the corner piece B/C assembly D42 are welded to the corner piece B/C assembly B40, the corner piece B/C assembly C41, the corner piece B/C assembly G45 and the corner piece B/C assembly H46 are welded to the corner piece B/C assembly B40, and the corner piece B/C assembly B33 and the corner piece B/C assembly B46 are welded to the corner piece B/C assembly B40, respectively, and the corner piece B/C assembly B46 and the corner piece B/C assembly B33 are welded to the corner piece B/C assembly B and the corner piece B/C assembly B. The top corner piece b shear plate 39 is arranged on the top corner piece b/c assembly A38, the top corner piece b/c assembly A38 is a folded corner piece, the top corner piece b shear plate 39 is arranged on the folded corner position, the top corner piece b/c assembly D42 is connected with the upright post plate as a folded corner piece and is arranged below the top corner piece b/c assembly F44, the top corner piece b/c assembly F44 is in a flat plate shape, a through hole is arranged in the middle of the top corner piece b shear plate, and the top corner piece b/c assembly F44 is arranged below the hollow rectangular assembly and is used for draining water.

The apex angle c23 of the present embodiment is made symmetrical to the apex angle b21 as shown in fig. 8.

As shown in fig. 9, the top corner piece a25 of this embodiment is a shear plate, the top corner piece a component a56 is a top plate, and is designed as a whole plate, the top corner piece a component C58 is a rear side plate, the round holes are formed in the rear side plate for connection between assembled houses, the waist holes are formed in the rear side plate for convenient hoisting, the bottom corner piece a/B component a51 and the bottom corner piece a/B component B52 are formed in the rear side plate for bolting with a secondary beam, the top corner piece a component D59 is a bottom plate, the small round holes are formed in the top side plate for bolting with a vertical column, the large round holes are used for subsequent threading, and the rest is similar to the structure of fig. 6, as shown in fig. 9, the top corner piece a component C58 is firstly manufactured, the top corner piece a component B57 is welded on both sides of the top corner piece a component C58, the top corner piece a component D59 and the top corner piece a component a56 are respectively welded on both ends of the top corner piece a component C58, the two bottom corner piece B/C component H35 are respectively welded on the top corner piece a/B57 and the bottom corner piece a/B52, and the top corner piece B55 a/C component B are respectively perpendicular to the top corner piece B and the top corner piece B55 a/B.

In this embodiment, the long beam is divided into a top-bottom frame long beam 13, the top-bottom frame long beam 13 bears the force of the roof and is used as a drainage ditch, the top and bottom shapes are the same, and the long beam shape is shown in fig. 10.

The secondary beams 17 used for the top and bottom frames are of the same shape and different specifications, the thickness used for the bottom frame 1 is thicker than that of the top frame, one end of each secondary beam 17 is connected with the corresponding long beam through bolts, the other end of each secondary beam is required to be manufactured tangentially to the semicircular integrated assembled house, and the shape of each secondary beam is shown in figure 11.

The bottom frame ring-shaped beam edge covering piece 15 and the ring-shaped beam are arc-shaped, can be manufactured according to the unfolding diagram and are opened during manufacturing, and the arc-shaped beam edge covering piece is manufactured through welding among the openings, as shown in fig. 12.

The top frame ring beam edge covering member 24 and the ring beam are arc-shaped, can be manufactured according to the unfolding diagram and opened during manufacturing, and the arc-shaped shape is processed through welding among the openings, as shown in fig. 13.

The top and bottom ring beams 27 are arc-shaped, can be manufactured according to the unfolded view and are opened during manufacturing, and are arc-shaped after being welded among the openings, and the top and bottom frames are the same in shape, as shown in fig. 14.

The roof truss roof panels 26, bottom liners/ceiling panels 16 are mounted by screws to the top and bottom ring beams 27 and the top and bottom truss long beams 13 as shown in fig. 15 and 16, wherein the top and bottom liners 16 are shaped identically.

The bottom frame cement pressure plate 17 increases the comfort and flatness of the floor of the integrated fabricated building, and has a semicircular shape as shown in fig. 17.

All the column sections are rolled and formed, and the shapes are shown in the following figures 18 and 23.

The pillar a hemming member of this embodiment has a shape as shown in fig. 19.

All the upright post connecting plates of the embodiment are welded on the upright posts to play roles in connecting the upper corner fitting with the lower corner fitting with the upright posts through bolts.

T-shaped wallboard 4, T-shaped wallboard shape is T type, and T-shaped wallboard is semi-circular wall body after passing through the concatenation, and its shape is as shown in figure 20.

Fig. 21 shows a connection plate 28 of the present utility model, fig. 22 shows a connection plate 12 of the present utility model, which is formed according to the shape of the corresponding column, fig. 24 shows a schematic view of the column b/c of the present utility model, and the columns c6 and b7 are formed symmetrically.

The connection plates 28 of the column a of this embodiment are welded to both ends of the column a5 to form a column a assembly, as shown in fig. 25.

In this embodiment, the lower connection plate 12 of the upright c and the upper connection plate 22 of the upright c are welded on two ends of the upright c6, the upper connection plate 20 of the upright b and the lower connection plate 9 of the upright b are welded on two ends of the upright b7, and as shown in fig. 26, the upright c6 and the upright b7 are symmetrically manufactured. Fig. 27 shows a U-shaped member 60 for connecting long side wall panels of the present utility model in a channel shape, and fig. 28 shows a U-shaped member 61 for connecting T-shaped wall panels of the present utility model in a multi-stage foldable structure.

The bottom frame and the top frame are prefabricated, formed and packaged in a factory, and the upright posts, the wallboard and the edge covering pieces are packaged into bundles and assembled after being transported to the site.

According to the embodiment, the assembly and disassembly are convenient by integrating and prefabricating in a factory and rapidly assembling on a transportation site; the structural design is adopted to enable the manufactured parts to be manufactured simply and conveniently, the manufacturing cost is low, the appearance is attractive after the assembly is completed, and the visual effect is good.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (9)

1. A semicircular integrated assembled house is characterized in that: the novel vertical column comprises a semicircular top frame and a semicircular bottom frame, wherein the bottom frame is arranged on a horizontal foundation, a column a component, a column b component and a column c component are correspondingly connected with a bottom corner piece a, a bottom corner piece b and a bottom corner piece c of the bottom frame in sequence, the top frame is connected to the column, a T-shaped wallboard and a long-side wallboard are further arranged between the top frame and the bottom frame, and the position of a door is reserved on the wallboard.

2. The semi-circular integrated fabricated building of claim 1, wherein: t type wallboard card is in the U type spare that T type wallboard is connected, and the U type spare that T type wallboard is connected with top underframe from top to bottom, and long sideboard card is in the U type spare that long sideboard is connected, and the U type spare that long sideboard is connected with top underframe from top to bottom.

3. The semi-circular integrated fabricated building of claim 1, wherein: the two ends of the top and bottom frame long beam are respectively connected to corner piece assemblies E of a bottom corner piece b and a bottom corner piece c through bolts, two top and bottom annular beams are connected to corner piece assemblies H3 of the bottom corner piece a, the bottom corner piece b and the bottom corner piece c, secondary beams are connected to the top and bottom frame long beam, the top and bottom annular beams and the bottom corner piece a, a bottom lining plate/top hanging baseplate is arranged on the top and bottom annular beams and the top and bottom frame long beam, a bottom frame long beam wrapping piece and a bottom frame annular beam wrapping piece are arranged through bolts, and finally a bottom frame cement pressure plate is covered on the frame; the lower connecting plate of the upright post b, the lower connecting plate of the upright post c and the connecting plate of the upright post a are connected with other connecting pieces through bolts.

4. A semicircular integrated fabricated building according to claim 3, wherein: the secondary beam is screwed with the top and bottom frame long beam, the top corner piece c is connected with the top and bottom frame long beam through bolts, the top corner piece c is connected with the connecting plate on the upright post c, the top frame annular beam wrapping piece is clamped on the top and bottom annular beam, and the top corner piece a is connected with the top and bottom annular beam through bolts.

5. The semi-circular integrated fabricated building of claim 1, wherein: the bottom corner piece B comprises a bottom corner piece B/C assembly A, a bottom corner piece B/C assembly B, a bottom corner piece B/C assembly C, a bottom corner piece B/C assembly D, a corner piece assembly E, a bottom corner piece B/C assembly G, a corner piece assembly H, a bottom corner piece B/C assembly I and a bottom corner piece B/C assembly J;

the bottom corner piece B/c assembly A is a connecting plate with a mounting hole arranged beside a round hole in the middle, the bottom corner piece B/c assembly B is a round drain pipe, and the bottom corner piece B/c assembly A is arranged below the round hole in the middle; the bottom corner piece B/C assembly C, the bottom corner piece B/C assembly D, the bottom corner piece B/C assembly I and the bottom corner piece B/C assembly J form a hollow rectangular piece, one side of the lower end of the bottom corner piece B/C assembly D and one side of the lower end of the bottom corner piece B/C assembly I are opened, a pipe can conveniently enter and exit the bottom corner piece B/C assembly B during drainage, and the bottom corner piece B/C assembly B is arranged in the hollow rectangular piece; the bottom corner piece b/c assembly G is in a folded angle shape and is arranged below the hollow rectangular piece;

the upper end of the corner fitting assembly E is a concave plate, one side of the concave plate is connected with a straight plate, the lower side of the straight plate is inwards connected with a bevel plate, and the corner fitting assembly E is provided with a mounting hole according to the position of the attached long beam; the upper end and the lower end of the corner fitting assembly H are both angle plates, and the middle is a straight plate which is adapted to the shape of the attached long beam;

the corner fitting b/c assembly A is connected with the upright post, the corner fitting assembly E is connected with the beam bolt, a drainage ditch is designed at the same time, and the opening of the bottom corner fitting b/c assembly G is connected with the ground through an expansion bolt; the bottom corner piece c is identical in shape to the bottom corner piece b.

6. The semi-circular integrated fabricated building of claim 4, wherein: the top corner fitting C and the top corner fitting B are the same in shape, in the top corner fitting B, the bottom corner fitting a component A is a connecting plate, the opening is in order to be in bolted connection with the upright post, the large round hole is used for drainage, the bottom corner fitting a component E is connected with the bottom corner fitting a component E, the bottom corner fitting a component B is a side plate, the round hole and the waist hole are formed in the bottom corner fitting a component B, the corner fitting component H is connected with a beam in a shape similar to that of a beam in corresponding bolted connection, the bottom corner fitting a component D is a polygonal plate, the bottom corner fitting a component B encloses a hollow component, the bottom corner fitting a component C is a strip-shaped connecting plate and is arranged below the bottom corner fitting a component B, the opening of the bottom corner fitting a component A is connected with the ground through expansion bolts, the bottom corner fitting a/B component A and the bottom corner fitting a/B component B are arranged on the upper side and the lower side of the top surface of the bottom corner fitting a component D, and the opening of the bottom corner fitting a component A is in bolted connection with a secondary beam.

7. A semicircular integrated fabricated building according to claim 3, wherein: the long beam of the top and bottom frame bears the force of the roof and is used as a drainage ditch, and the top and bottom shapes are the same; the bottom frame is thicker than the top frame, one end of the secondary beam is connected with the long beam, and the other end of the secondary beam is tangential to the semicircular integrated assembly type house.

8. A semicircular integrated fabricated building according to claim 3, wherein: the bottom frame annular beam edge covering piece and the annular beam are arc-shaped, the top frame annular beam edge covering piece and the top bottom annular beam edge covering piece are arc-shaped, the top frame roof board and the bottom lining board/top hanging baseplate are arranged on the top and bottom annular beam and the top and bottom frame long beam, and the top hanging board and the bottom lining board are identical in shape;

the bottom frame cement pressure plate is semicircular in shape, and all upright column sections are formed by rolling; all the upright post connecting plates are welded on the upright posts, and the upper corner fitting and the lower corner fitting are connected with the upright posts through bolts;

the T-shaped wallboard is in a T-shaped form, and is a semicircular wall body after being spliced.

9. A semicircular integrated fabricated building according to claim 3, wherein: the upright post a connecting plates are arranged at two ends of the upright post a to form an upright post a assembly;

the lower connecting plate of the upright post c and the upper connecting plate of the upright post c are arranged at two ends of the upright post c, the upper connecting plate of the upright post b and the lower connecting plate of the upright post b are arranged at two ends of the upright post b, and the upright post c and the upright post b have the same structure.