CN114263278B - Modularized annular expansion type container house - Google Patents

Abstract

The utility model provides a modularization annular expansion type container house, two corner posts of container box one end are corresponding to be set up in the inboard of corner fittings; the four corner upright posts of the container body are lifting pipe columns sleeved in a sliding manner, and lifting limiting parts are arranged on the lifting pipe columns; the two lifting pipe columns positioned at the inner side of the corner fitting are circumferentially provided with annular pipe fittings, and a plurality of supporting frame units with lantern rings are correspondingly arranged at two sides of the inner part of the container body and are in sliding connection with the annular pipe fittings through the lantern rings. According to the invention, a modularized annular expansion type container house is realized through a lifting corner upright post structure and an annular expansion supporting frame unit structure; the invention mainly solves the problem of small using area inside a single box body in the technical field of container houses, and solves the problems of poor external heat insulation performance, single building style of the box body and power supply in special areas of the container houses.

Description

Modularized annular expansion type container house

Technical Field

The invention belongs to the container house technology, and particularly relates to a modularized annular expansion container house.

Background

In order to meet the requirements of various fields on movable houses, container houses have the advantages of convenient transportation, easy assembly and disassembly, shock-proof structure and the like.

However, the main problem of the existing container house is that the using area in a single container box is too small, the available area in the common container house box is only 14.4 square meters (the box is 6 meters long and 2.4 meters wide), the using area can only be increased by overlapping a plurality of container boxes in the prior art, but the technology increases the transportation quantity of the container boxes and improves the transportation cost. In the prior art of container houses, how to maximize the internal use area of the container house by a single container body becomes a problem at the present stage.

Other problems exist in the existing container house: the external heat preservation performance of the container house is poor, the common container house only adopts heat preservation materials such as heat preservation boards, and the like, and the heat preservation requirement is difficult to reach for severe cold or hot areas;

the power supply problem inside the container house, and the special area has no power supply facility, so that the power supply requirement of the container house cannot be met; the style of the container house is single, most container houses still take the original container as the appearance, and aesthetic requirements of users on the houses can not be met.

Disclosure of Invention

The invention aims to provide a modularized annular expansion type container house, which mainly solves the problem that the usable area of the inside of a single container body is too small in the prior art, and also solves the problems that the container house has poor external heat insulation performance, no power supply facility in a special area and single style.

The invention is realized by the following technical scheme: a modular ring-shaped expansion container house comprises a container body, a ground beam, a floor, a roof plate, a kitchen and bathroom system, a door and a window, wherein the container body comprises an upper frame, corner pieces, corner posts, wall plates, a lower frame and a forklift opening; two corner upright posts at one end of the container body are correspondingly arranged at the inner sides of the corner pieces; the four corner upright posts of the container body are lifting pipe columns sleeved in a sliding manner, the lifting pipe columns consist of inner pipe columns and outer pipe columns sleeved on the inner pipe columns, and lifting limiting parts are arranged on the lifting pipe columns; the periphery of the two lifting pipe columns positioned at the inner side of the corner fitting is provided with an annular pipe fitting in a surrounding manner, and the annular pipe fitting is respectively connected and fixed with the lower part and the upper part of the outer pipe column and the upper part of the inner pipe column through pipe fitting fixing pieces; the annular pipe fitting consists of a pipe column connecting pipe arranged between the lifting pipe columns and U-shaped telescopic pipes correspondingly sleeved at two ends of the pipe column connecting pipe; support frame units with lantern rings are correspondingly arranged on two sides of the inside of the container body, and the support frame units are in sliding connection with the annular pipe fittings through the lantern rings; the support frame unit further comprises a wallboard frame, a hinge seat, a sleeve hinge piece, a lacing wire beam and a folding roof plate; the upper part and the lower part of one end of the wallboard frame are respectively connected with annular pipe fittings at the upper part and the lower part of the outer pipe column in a sliding way through lantern rings; the hinge seat is arranged at the top of the other end of the wallboard frame and is hinged with the sleeve hinge piece; the sleeve hinge piece is sleeved at one end of the lacing wire beam in a sliding manner, and the other end of the lacing wire beam is connected with the annular pipe fitting at the upper part of the inner pipe column in a sliding manner through the lantern ring; folding roof boards hinged with the lacing wire beams are correspondingly arranged on two sides of the lacing wire beams; and a frame wallboard group hinged with the wallboard frame is also arranged in the wallboard frame.

Further, the lifting pipe column is communicated with a flue of a kitchen and bathroom system in the container house, and a flue opening communicated with the flue pipe is further formed in the roof position at the top end of the lifting pipe column.

Further, a solar panel is provided on the folded roof sheet.

Further, the frame wall panel group further includes a frame wall panel provided with a window and a frame wall panel provided with a door.

Further, a floor fixedly connected with the upper end of the ground beam is also arranged in the container body.

Further, a multi-layer modularized heat preservation air bag connected with the inner side of the container house is also arranged in the container body.

Further, the multi-layer modularized heat preservation air bags are spliced and matched through the concave-convex structure to form a multi-layer air bag heat preservation structure.

Further, openings matched with the supporting frame units to move outwards and spread are also formed in the wall plates on two sides of the container body.

The invention has the beneficial effects and characteristics that: in the whole structure, through the deformation overlap joint structure of the lifting angle stand column and the annular expansion type supporting frame unit, the use area of a single container body is increased from 14.4 square meters to about 70 square meters, and the use area is about 5 times of that of the original container body.

In the concrete structure, a multi-layer airbag heat-insulation structure formed by splicing a plurality of multi-layer modularized heat-insulation airbags is fixedly connected to the inner wall of the container house, so that the external heat-insulation performance of the container house is improved, and the heat-insulation requirements of different areas can be met by adjusting the thickness and the number of layers of the inflatable layers of the multi-layer modularized heat-insulation airbags;

a solar panel is arranged on the roof of the container house consisting of the folding roof plates, and the solar panel is matched with power storage equipment to meet the electric energy requirement of the electricity-shortage area;

the unfolded and connected folding roof boards form a wavy triangular roof structure, so that a single building style of the box body is broken, and aesthetic requirements of users are met;

the size of the container body in the transportation state accords with the international container transportation standard, and is provided with lifting corner fittings and forklift openings which accord with the international standard, so that the requirements of wharf lifting, forklift transportation and container type truck transportation are met.

The invention also has the advantages of repeated disassembly and assembly, less labor and working hours required by disassembly and assembly, shock-proof structure and the like.

Drawings

FIG. 1 is a schematic diagram of the shipping state of the container body of the present invention;

FIG. 2 is a simplified cross-sectional view of a portion of the structure of FIG. 1 as it would appear;

FIG. 3 is an enlarged schematic diagram of portion A of FIG. 2;

FIG. 4 is an enlarged schematic diagram of portion B of FIG. 2;

FIG. 5 is a simplified cross-sectional view of a portion of the structure of the container body of the present invention in a raised condition;

FIG. 6 is an enlarged schematic diagram of portion C of FIG. 5;

FIG. 7 is a schematic illustration of the container body of the present invention in an expanded state;

FIG. 8 is a schematic diagram of the mounting portion structure based on FIG. 7;

FIG. 9 is a schematic diagram of a portion of the structure of the expanded section based on FIG. 8;

FIG. 10 is a schematic diagram of a portion of the structure of the expanded section based on FIG. 9;

FIG. 11 is a schematic diagram of the structure of the mounting portion based on FIG. 10;

FIG. 12 is an enlarged cross-sectional schematic view of portion D of FIG. 11;

FIG. 13 is a schematic diagram of a multi-layer airbag insulation structure of the present invention;

FIG. 14 is a schematic diagram of the connection of the various parts of FIG. 13;

FIG. 15 is a schematic illustration of the use of the invention in overlap with a container body;

FIG. 16 is a schematic illustration of a layer of the present invention in use in combination with a container body and other frame overlap;

FIG. 17 is a front view of FIG. 16;

FIG. 18 is a schematic diagram of the two-layer use of the present invention in combination with a container body and other frame overlap;

FIG. 19 is a front view of FIG. 18;

FIG. 20 is a schematic illustration of the three layers of the present invention in use in combination with a container body and other frames;

fig. 21 is a front view of fig. 20.

In the figure, the main part number is described: 1. a corner piece; 2. a lower base; 203. a fork truck port; 3. lifting the pipe column; 301. an inner pipe column; 302. an outer tubular column; 4. an upper top cover; 5. an annular pipe fitting; 501. a pipe column connecting pipe, 502 and a U-shaped telescopic pipe; 6. a pipe fitting fixing member; 7. a support frame unit; 701. a collar; 702. a wallboard frame; 703. a hinge base; 704. a sleeve hinge; 705. a lacing wire beam; 706. folding the roof panel; 8. a set of frame wall panels; 9. a box wallboard; 901. a wallboard at the inner side of the box body; 10. a ground beam; 11. a floor; 12. a floor structure; 13. a roof structure; 14. a wall structure; 15. a multi-layer modular thermal insulation balloon; 16. an air bag connecting rope; 18. a frame door panel set; 19. roof boarding; 20. waterproof tiles; 21. a waterproof adhesive tape; 22. a waterproof cover plate; 23. roof panels; 24. roof decorative strip; 25. roof decorative angles; 26. a kitchen and bathroom system; 27. a solar cell panel; 28. rain cover; 29. a smoke gate; 30. an inflation valve; 31. a multi-layer air bag heat preservation structure; 32. the box body is lapped with the bottom beam.

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Detailed Description

The present invention is described in detail below with reference to fig. 1-14 by way of specific examples.

Example 1

The modularized annular expansion type container house comprises a container body and a kitchen and bathroom system, wherein the container body comprises an upper frame, corner pieces, corner posts, wallboards, a lower frame and forklift openings, and two corner posts at one end of the container body are correspondingly arranged on the inner sides of the corner pieces 1; the four corner upright posts of the container body are a sliding sleeved lifting pipe column 3, the lifting pipe column consists of an inner pipe column and an outer pipe column 302 sleeved on the inner pipe column 301, lifting limiting pieces are arranged on the lifting pipe column, and limiting of the container body after lifting is achieved; an annular pipe fitting 5 is arranged around the periphery of the two lifting pipe columns at the inner side of the corner fitting, and the annular pipe fitting is respectively connected and fixed with the lower part and the upper part of the outer pipe column and the upper part of the inner pipe column through a pipe fitting fixing piece 6; the annular pipe fitting consists of a pipe column connecting pipe 501 arranged between the lifting pipe columns and U-shaped telescopic pipes 502 correspondingly sleeved at the two ends of the pipe column connecting pipe; a plurality of supporting frame units 7 with lantern rings 701 are correspondingly arranged at two sides of the inside of the container body, and the supporting frame units are in sliding connection with the annular pipe fittings through the lantern rings; the support frame unit further comprises a wall panel frame 702, a hinge seat 703, a sleeve hinge 704, a lacing beam 705, and a folding roof panel 706; the upper part and the lower part of one end of the wallboard frame are respectively connected with annular pipe fittings at the upper part and the lower part of the outer pipe column in a sliding way through lantern rings; the hinge seat is arranged at the top of the other end of the wallboard frame and is hinged with the sleeve hinge piece; the sleeve hinge piece is sleeved at one end of the lacing wire beam in a sliding manner, and the other end of the lacing wire beam is connected with the annular pipe fitting at the upper part of the inner pipe column in a sliding manner through the lantern ring; folding roof boards hinged with the lacing wire beams are correspondingly arranged on two sides of the lacing wire beams; a frame wallboard group 8 hinged with the wallboard frame is also arranged in the wallboard frame; a solar panel is prefabricated on the folding roof plate; the wall boards 9 on the two sides of the container body are also provided with an opening which is matched with the supporting frame units to move outwards and spread; the inner side of the box wallboard is also provided with a box inner wallboard 901.

The U-shaped telescopic pipes at the two ends of the annular pipe fitting are pulled out and are limited and fixed through screws; the supporting frame units on two sides of the box body are respectively and uniformly unfolded towards two sides of the outer part of the box body by taking annular pipe fittings as sliding rails, the unfolded supporting frame units are of two corresponding semicircular structures, and the adjacent supporting frame units are mutually connected and fixed through a ground beam 10 arranged at the bottom of the adjacent supporting frame units; a floor structure 12 formed by mutually splicing a plurality of floors 11 is arranged at the upper end of the floor beam.

After the floor structure is installed, the folding roof plates on each supporting frame unit are unfolded upwards, the folding roof plates on the two sides of the lacing wire beam are unfolded to form an inverted triangle structure, and the folding roof plates on the adjacent supporting frame units are fixedly connected through corner brackets and bolts after being unfolded to form a roof structure 13; roof plates 23 which are matched and installed on roof structures of container houses are also placed in the container boxes, and the container boxes are connected with the roof structures through the roof plates.

Still placed the waterproof part of roof that cooperates container house roof in container box, this waterproof part of roof is including setting up the waterproof tile 20 of roof closed angle structure department upper end, sets up the waterproof adhesive tape 21 in roof reentrant structure department and sets up the waterproof apron 22 in roof structure and container box junction. Roof decoration pieces such as roof decoration strips 24 and roof decoration corners 25 with Chinese ancient building styles are also arranged on the roof structure, and the Chinese ancient building styles are formed by matching the triangular undulating roof structure. A plurality of solar panels 27 are arranged on each folding roof panel, and the solar panels are also provided with connecting power storage equipment, so that the solar power supply requirement is met.

After the roof structure is installed, the frame wallboard group on each supporting frame unit is unfolded to form a fence structure 14, and the frame wallboard group is fixedly connected with the adjacent supporting frame units through corner brackets and bolts; roof plates 19 which are matched and installed on the container house enclosing wall structure are also placed in the container body, wall gaps at the top end of the enclosing wall structure are filled through the roof plates, and the wall gaps are fixedly connected with bolts through corner codes; two adjacent sets of frame wall panels at the front end of the container body are frame door panel sets 18 on which a rain fly 28 is disposed. The lifting pipe column is communicated with a flue of a kitchen and bathroom system in the container house, and a flue opening 29 communicated with the flue pipe is further formed in the roof position at the top end of the lifting pipe column.

Example 2

On the basis of the embodiment 1, in order to improve the heat preservation requirement of the container house, a multi-layer air bag heat preservation structure formed by splicing a plurality of multi-layer modularized heat preservation air bags 15 is further arranged on the inner side of the installed house body, and each multi-layer modularized heat preservation air bag is provided with an inflation valve 30 and an air bag connecting rope; the multi-layer modularized heat preservation air bags are fixedly connected by an air bag connecting rope after being mutually spliced by mutually spliced groove structures; the multi-layer air bag heat preservation structure is fixedly connected with a plurality of parts on the inner side of the house body through an air bag connecting rope.

The fittings for installation or decoration of the floor beams, floors, roof boards, waterproof tiles, waterproof adhesive tapes, waterproof cover boards, roof decorative strips, roof decorative angles, kitchen and toilet systems, rain-flaps, multi-layer modularized heat-insulating air bags and the like in the above embodiments can be placed in the idle space inside the container body in the transportation state of the invention.

As shown in fig. 15, the use state of the invention overlapping with the container body is schematically and schematically shown:

wherein the middle part is in a container body lifting state, the two sides of the container body are common container bodies, and the container bodies are fixedly connected through a box body lap bottom beam 32 fixedly inserted on a forklift opening, so that the stability of box body lap is improved.

As shown in fig. 16-17, a schematic diagram of a layer of usage state of the invention combined with the overlapping of the container body and other frames is shown:

the middle part is the container house structure unfolded by the invention, and two container bodies are respectively lapped on two sides of the container house structure.

As shown in fig. 18-19, a schematic diagram of the two-layer usage state of the invention combined with the overlapping of the container body and other frames is shown:

the middle part of the two layers is the container house structure after the expansion, the lower end of the container house structure is a layer of expansion house structure connected with the container house structure, and two layers of container boxes which are connected in an up-down overlapping manner are respectively lapped on the two sides of the container house structure.

As shown in fig. 20-21, a schematic diagram of a layer of usage state of the invention combined with the overlapping of the container body and other frames is shown:

the middle part of the three layers is the container house structure after the expansion, the lower end of the container house structure is a one-layer expansion house structure and a two-layer expansion house structure which are connected with the container house structure, and the two sides of the container house structure are respectively overlapped with three layers of container boxes which are connected in an up-down overlapping way.

Claims (8)

1. The utility model provides a modularization annular expansion formula container house, includes container box, floor beam, floor, roof boarding, kitchen guarding system, door, window, container box includes upper frame, corner fittings, corner post, wallboard, lower part frame and fork truck mouth, its characterized in that: two corner upright posts at one end of the container body are correspondingly arranged at the inner sides of the corner pieces; the four corner upright posts of the container body are lifting pipe columns sleeved in a sliding manner, the lifting pipe columns consist of inner pipe columns and outer pipe columns sleeved on the inner pipe columns, and lifting limiting parts are arranged on the lifting pipe columns; the periphery of the two lifting pipe columns positioned at the inner side of the corner fitting is provided with an annular pipe fitting in a surrounding manner, and the annular pipe fitting is respectively connected and fixed with the lower part and the upper part of the outer pipe column and the upper part of the inner pipe column through pipe fitting fixing pieces; the annular pipe fitting consists of a pipe column connecting pipe arranged between the lifting pipe columns and U-shaped telescopic pipes correspondingly sleeved at two ends of the pipe column connecting pipe; support frame units with lantern rings are correspondingly arranged on two sides of the inside of the container body, and the support frame units are in sliding connection with the annular pipe fittings through the lantern rings; the support frame unit further comprises a wallboard frame, a hinge seat, a sleeve hinge piece, a lacing wire beam and a folding roof plate; the upper part and the lower part of one end of the wallboard frame are respectively connected with annular pipe fittings at the upper part and the lower part of the outer pipe column in a sliding way through lantern rings; the hinge seat is arranged at the top of the other end of the wallboard frame and is hinged with the sleeve hinge piece; the sleeve hinge piece is sleeved at one end of the lacing wire beam in a sliding way, and the other end of the lacing wire beam is connected with the annular pipe fitting at the upper part of the inner pipe column in a sliding way through the lantern ring; folding roof boards hinged with the lacing wire beams are correspondingly arranged on two sides of the lacing wire beams; and a frame wallboard group hinged with the wallboard frame is also arranged in the wallboard frame.

2. A modular ring expansion container house according to claim 1, characterized in that: the lifting pipe column is communicated with a flue of a kitchen and bathroom system in the container house, and a flue opening communicated with the flue pipe is further formed in the roof position at the top end of the lifting pipe column.

3. The modular ring expanded container house of claim 1, wherein: a solar panel is disposed on the folded roof sheet.

4. The modular ring expanded container house of claim 1, wherein: the frame wall panel set further comprises a frame wall panel provided with a window and a frame wall panel provided with a door.

5. The modular ring expanded container house of claim 1, wherein: a floor connected with the upper end of the ground beam is also arranged in the container body.

6. The modular ring expanded container house of claim 1, wherein: and a multi-layer modularized heat preservation air bag connected with the inner side of the container house is also arranged in the container body.

7. The modular ring expanded container house of claim 6, wherein: the multi-layer modularized heat preservation air bags are spliced and matched through concave-convex structures to form a multi-layer air bag heat preservation structure.

8. The modular ring expanded container house of claim 1, wherein: and the wall boards on two sides of the container body are also provided with an opening which is matched with the supporting frame units to move outwards for unfolding.