CN115233826A

CN115233826A - Space-variable movable energy-saving building

Info

Publication number: CN115233826A
Application number: CN202210890327.5A
Authority: CN
Inventors: 简惠康; 姜军; 李敏
Original assignee: Jiangxi Zhongjianggong Group Co ltd
Current assignee: Jiangxi Zhongjianggong Group Co ltd
Priority date: 2022-07-27
Filing date: 2022-07-27
Publication date: 2022-10-25
Anticipated expiration: 2042-07-27
Also published as: CN115233826B

Abstract

The invention discloses a movable energy-saving building with variable space, which relates to the technical field of buildings and comprises an installation box frame, an outer cover plate and an upright post, wherein both ends in the installation box frame are provided with an unfolding mechanism and a turnover mechanism, and the bottom of the installation box frame is provided with a driving assembly which is matched with the unfolding mechanism and the turnover mechanism. When the folding type vertical column and outer cover plate unfolding device is used, the unfolding mechanism and the overturning mechanism are driven simultaneously under the action of the driving assembly, so that the upright column and the outer cover plate are moved, the number of driving sources is reduced in the process, the use of energy sources is reduced, and the effects of energy conservation and environmental protection are achieved.

Description

Space-variable movable energy-saving building

Technical Field

The invention relates to the technical field of buildings, in particular to a movable energy-saving building with a variable space.

Background

The mainstream movable house in the current market is a container modification house or an aluminum alloy movable plate house; the container house is characterized in that the container house is integrally welded; the main body structure of the aluminum alloy house is similar to the characteristics of a container house, and the frameworks are all in a riveting integrated structure; most mobile houses have the same appearance as a fixed mobile mode and are not suitable for being installed in scenic spots; meanwhile, if the mobile house is installed in a scenic spot, the size of the mobile house cannot be too large, otherwise the overall visual effect of the scenic spot is easily damaged or the feeling of master robbers is easily achieved, and therefore the size of the mobile house placed in the scenic spot needs to be relatively small.

The existing portable house is in the process of opening the side face, firstly, the outer cover plate is turned to the horizontal state, secondly, four stand columns are outwards expanded along four corners of the portable house, the change of the inner space of the portable house is completed, the outer cover plate and the four stand columns are controlled to move, the driving is completed through a plurality of groups of driving assemblies respectively, and the expansion of the portable house is completed.

Through above-mentioned structure, the use on the driving source is more, because of the activity board house is when using again, outer apron all need expand the use with the stand to both can not the exclusive use, thereby use multiunit drive assembly to drive, improve the energy greatly and use, and when opening outer apron and stand, holistic work efficiency greatly reduced, thereby unsatisfied the use.

Disclosure of Invention

Based on this, the invention aims to provide a space-variable movable energy-saving building, so as to solve the technical problems that in the prior art, the driving source is used more, and when the movable board house is used, the outer cover plate and the upright post are required to be unfolded for use and cannot be used independently, so that a plurality of groups of driving components are used for driving, the energy use is greatly improved, and when the outer cover plate and the upright post are opened, the integral working efficiency is greatly reduced, so that the use is not satisfied.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a variable portable energy-conserving building in space, includes installation tank tower, outer apron and stand, the inside both ends of installation tank tower all are provided with expansion mechanism and tilting mechanism, the drive assembly who all mutually supports with expansion mechanism, tilting mechanism is installed to the bottom of installation tank tower, the both sides of installation tank tower all are provided with the rotation axis, and install the tank tower and have outer apron through the all swing joint of rotation axis, tilting mechanism's output cooperatees with outer apron inner wall respectively, and is a set of the all swing joint of output of expansion mechanism has the stand, the inside of stand is provided with supporting component, supporting component is used for stand and the support of enclosing cover board.

Through adopting the above-mentioned technical scheme, utilize drive assembly's effect, drive deployment mechanism and tilting mechanism simultaneously, thereby accomplish the removal of stand and outer apron, the number of driving source has been reduceed to this process, and then the use of the energy reduces, reach energy-concerving and environment-protective effect, secondly, utilize the principle of drive ratio, make the speed inconsistent of deployment mechanism and tilting mechanism operation, and when the deployment, deployment mechanism is slower than tilting mechanism, when the merger, deployment mechanism is faster than tilting mechanism, thereby the realization is under the drive of same driving source, realize the operation effect of tandem, and then improve the holistic work efficiency of equipment greatly.

The invention is further set that the unfolding mechanism comprises a first screw rod, a second screw rod, a first moving block and a second moving block, the first screw rod and the second screw rod are movably connected at two ends inside the mounting box frame, a gear set is arranged between the tops of the first screw rod and the second screw rod, the first moving block and the second moving block are respectively arranged at the outer sides of the first screw rod and the second screw rod, and supporting plates are respectively hinged between two ends of the first moving block and two ends of the second moving block and upright columns at two ends of the mounting box frame.

By adopting the technical scheme, the first screw rod and the second screw rod are movably connected with the mounting box frame, so that when the second moving block and the first moving block are moved, the first screw rod and the second screw rod also rotate, the action of the gear set is recycled, the first screw rod and the second screw rod can move relatively, the post can be supported and unfolded conveniently by the aid of the action of the supporting plate, and the post can be operated subsequently.

The invention is further set that the turnover mechanism comprises a movable seat and a third screw rod, wherein the two ends inside the mounting box frame are movably connected with the third screw rod, the outer side of the third screw rod is symmetrically provided with limit components matched with the movable seat, the outer side of the third screw rod is in threaded connection with the movable seat, the outer side of the movable seat is symmetrically provided with telescopic rods, the output end of each telescopic rod is provided with a connecting sleeve, the inside of each connecting sleeve is rotatably connected with a guide shaft, the two ends inside the mounting box frame are symmetrically provided with annular guide grooves matched with the guide shafts, the end surface inside the mounting box frame is symmetrically and fixedly connected with a first fixed shaft and a second fixed shaft, a second connecting plate is movably connected between the first fixed shaft and the second fixed shaft at the same side, the second fixed shaft at the same side and the outer side of the guide shaft are movably connected with a first connecting plate, the tail end of the first connecting plate is movably connected with a guide wheel, and the two ends inside ends of the outer cover plate are provided with sliding grooves connected with the guide wheels in a sliding manner.

Through adopting above-mentioned technical scheme, utilize the effect of sliding seat and third screw rod, the sliding seat of being convenient for and third screw rod work relatively, and then under the effect of a set of rotatory third screw rod, rotate first connecting plate round the second fixed axle, move in the spout in leading wheel and the outer apron again because of, accomplish the expansion to the outer apron to at the in-process that expandes, it is rotatory to drive another group of third screw rod, and under one-way bearing's effect, avoid interfering.

The invention is further arranged in that the driving assembly comprises a bidirectional motor, a rotating shaft, a first worm, a second worm, a first worm wheel and a second worm wheel, the bidirectional motor is installed and installed at the bottom of the box frame, the output ends of the bidirectional motor are all provided with the rotating shaft, the tail ends of the rotating shaft are respectively and movably provided with the second worm and the first worm in a staggered mode, one ends of the second screw and the third screw extend to the bottom of the box frame, and the first worm wheel and the second worm wheel which are respectively matched with the second worm and the first worm are arranged on the second screw and the third screw.

Through adopting above-mentioned technical scheme, utilize under two-way motor's the effect, accomplish to equipment improvement power to utilize the effect of pivot, first worm, second worm, first worm wheel and second worm wheel, accomplish the transmission of power, and utilize one-way bearing's effect, the expansion mechanism and the tilting mechanism exclusive use at the inside both ends of installation tank tower, so that effectual completion work.

The invention is further arranged in such a way that the supporting component comprises an upper supporting seat, a lower supporting seat and a bidirectional cylinder, the bidirectional cylinder is arranged in the upright column, the output end of the bidirectional cylinder is respectively provided with the upper supporting seat and the lower supporting seat, and the upper supporting seat and the lower supporting seat are respectively positioned at the top and the bottom of the upright column.

Through adopting above-mentioned technical scheme, utilize the effect of upper support seat, under bracing seat and two-way cylinder, accomplish the stability to the stand after expanding to effectively support outer apron, avoid falling after losing power, so that use.

The invention is further arranged in that four corners of the bottom of the mounting box frame are provided with supporting seats, and the bottoms of the supporting seats are provided with anti-skidding blocks.

Through adopting above-mentioned technical scheme to in wholly supporting the installation tank tower, be convenient for stable use, the effect of recycling non slipping spur avoids the installation tank tower to take place to slide.

The invention is further provided that the limiting component comprises a limiting light sleeve, and the limiting light sleeve matched with the movable seat is symmetrically arranged on the outer side of the third screw up and down.

Through adopting above-mentioned technical scheme, utilize the effect of spacing light cover to the sliding seat in tilting mechanism removes when contacting with spacing light cover, rotates, avoids influencing the further operation of deployment mechanism, thereby accomplishes the linkage, does not influence the use.

The invention is further provided that sealing components are arranged between both sides of the mounting box frame and the outer cover plate, and the sealing components are used for blocking rainwater.

Through adopting above-mentioned technical scheme to accomplish stopping of rainwater, avoid the rainwater to enter into to installation tank tower inside, cause the influence to its inside.

The invention is further set that the sealing assembly comprises a baffle plate, a first sealing block, a second sealing block and a sealing groove, the baffle plate is arranged at two ends of the mounting box frame, the first sealing block and the second sealing block are arranged at the tail end of the baffle plate, and the sealing groove matched with the first sealing block is formed in the outer side of the outer cover plate.

Through adopting above-mentioned technical scheme, under utilizing mutually supporting between first sealed piece and the seal groove, accomplish the block and the sealed effect to the outer apron, the effect of the sealed piece of deuterogamy second further forms the compaction in the outside of seal groove and seals to better accomplish sealed effect to equipment.

In summary, the invention mainly has the following beneficial effects:

1. when the folding type vertical column and turnover mechanism is used, the unfolding mechanism and the turnover mechanism are driven simultaneously by the action of the driving assembly, so that the movement of the vertical column and the outer cover plate is completed, the number of driving sources is reduced in the process, the use of energy sources is further reduced, and the effects of energy conservation and environmental protection are achieved;

2. according to the invention, the sealing assembly is arranged, when the outer cover plate is placed to be horizontal by the turnover mechanism during use, the first sealing blocks at the tail ends of the baffle plates at two sides of the mounting box frame are mutually clamped with the sealing grooves, and the surface of the outer cover plate is sealed by matching with the second sealing blocks, so that the sealing property of the equipment is greatly improved, and further, the influence of rainwater along gaps during use on the normal use of the mounting box frame is avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the overall deployment of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of a cutaway configuration of the present invention;

FIG. 5 is a partial schematic structural view of the present invention;

FIG. 6 is a schematic view of a partial deployment mechanism and a deployment mechanism of the present invention;

fig. 7 is a schematic view of the internal structure of the column of the present invention.

In the figure: 1. installing a box frame; 2. an outer cover plate; 3. a drive assembly; 301. a bi-directional motor; 302. a rotating shaft; 303. a first worm; 304. a second worm; 305. a first worm gear; 306. a second worm gear; 4. a column; 5. a deployment mechanism; 501. a first screw; 502. a second screw; 503. a first moving block; 504. A second moving block; 505. a support plate; 506. a gear set; 6. a turnover mechanism; 601. a movable seat; 602. A third screw; 603. a limiting optical sleeve; 604. a telescopic rod; 605. an annular guide groove; 606. a guide shaft; 607. connecting sleeves; 608. a first connecting plate; 609. a second connecting plate; 610. a first fixed shaft; 611. a second fixed shaft; 612. a guide wheel; 7. a rotating shaft; 8. a baffle plate; 9. a first seal block; 10. A second seal block; 11. a sealing groove; 12. a supporting seat; 13. anti-skid blocks; 14. a chute; 15. an upper support base; 16. a lower support seat; 17. a bidirectional cylinder.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

The utility model provides a space variable movable energy-saving building, as shown in fig. 1-7, including installation tank tower 1, outer apron 2 and stand 4, installation tank tower 1 inside both ends all are provided with deployment mechanism 5 and tilting mechanism 6, the bottom of installation tank tower 1 is installed with deployment mechanism 5, tilting mechanism 6 all mutually supporting's drive assembly 3, utilize the effect of drive assembly 3, drive deployment mechanism 5 and tilting mechanism 6 simultaneously, thereby accomplish the removal of stand 4 and outer apron 2, this process has reduced the number of the driving source, and then reduce the use of the energy, reach energy-concerving and environment-protective effect, the both sides of installation tank tower 1 all are provided with rotation axis 7, and installation tank tower 1 all has outer apron 2 through rotation axis 7 swing joint, tilting mechanism 6's output cooperatees with outer apron 2 inner walls respectively, the output of a set of deployment mechanism 5 all swing joint has stand 4, utilize the principle of drive ratio, make deployment mechanism 5 inconsistent with tilting mechanism 6 speed of operation, and when expanding, and deployment mechanism 5 is slower than the 6, when amalgamating, thereby realize that drive source is under the same turnover mechanism 5, and then realize that a drive assembly of a drive, the back-up the overall efficiency of a back-supporting subassembly is provided with the outer support subassembly 4, the outer subassembly is used for the stand 4, the overall supporting efficiency of the outer support subassembly is improved, the outer subassembly is provided with the stand 4.

Referring to fig. 4, 5 and 6, the unfolding mechanism 5 includes a first screw 501, a second screw 502, a first moving block 503 and a second moving block 504, two ends of the inside of the mounting box frame 1 are movably connected with the first screw 501 and the second screw 502, a gear set 506 is disposed in the middle of the top of the first screw 501 and the second screw 502, and the first screw 501 and the second screw 502 can move relatively to each other under the action of the gear set 506, so as to facilitate subsequent work, the first moving block 503 and the second moving block 504 are respectively disposed outside the first screw 501 and the second screw 502, and the first screw 501, the second screw 502 and the mounting box frame 1 can be movably connected with each other, so that when the second moving block 504 and the first moving block 504 are moved, the first screw 501 and the second screw 502 also rotate, and two ends of the first moving block 503 and two ends of the second moving block 504 are respectively hinged with the upright posts 4 at two ends of the mounting box frame 1 to connect with the supporting plates 505, and the upright posts 4 can be supported by the supporting plates 505, so as to facilitate the subsequent work of the unfolding the upright posts 503.

Referring to fig. 4, 5 and 6, the turnover mechanism 6 includes a movable seat 601 and a third screw 602, two ends of the inside of the mounting box frame 1 are movably connected with the third screw 602, the movable seat 601 and the third screw 602 are facilitated to work relatively by the action of the movable seat 601 and the third screw 602, a limiting component matched with the movable seat 601 is symmetrically arranged outside the third screw 602, the movable seat 601 does not move continuously and does not interfere with other parts for use after contacting with the limiting component by the action of the limiting component, the limiting component includes a limiting optical sleeve 603, a limiting optical sleeve 603 matched with the movable seat 601 is symmetrically arranged outside the third screw 602 in the up-down direction, the movable seat 601 in the turnover mechanism 6 rotates to avoid influencing the further operation of the unfolding mechanism 5 when moving to contact with the limiting optical sleeve 603 by the action of the limiting optical sleeve 603, thereby completing the linkage, the use is not affected, the outer side of the third screw 602 is connected with a movable seat 601 through a thread, the outer side of the movable seat 601 is symmetrically provided with telescopic rods 604, the output end of the telescopic rod 604 is provided with a connecting sleeve 607, the inner part of the connecting sleeve 607 is rotatably connected with a guide shaft 606, the two ends of the inner part of the mounting case frame 1 are both symmetrically provided with annular guide grooves 605 matched with the guide shaft 606, the inner end surface of the mounting case frame 1 is symmetrically and fixedly connected with a first fixed shaft 610 and a second fixed shaft 611, a second connecting plate 609 is movably connected between the first fixed shaft 610 and the second fixed shaft 611 at the same side, the second fixed shaft 611 at the same side and the outer side of the guide shaft 606 are movably connected with a first connecting plate 608, the tail end of the first connecting plate 608 is movably connected with a guide wheel 612, the two ends of the inner part of the outer cover plate 2 are both provided with sliding grooves 14 connected with the guide wheel 612, the guide wheel 612 moves in the sliding grooves 14 in the outer cover plate 2, the expansion of the outer cover plate 2 is completed, and in the process of the expansion, the other group of third screws 602 are driven to rotate, and the interference is avoided under the action of the one-way bearing.

Referring to fig. 3, the driving assembly 3 includes a bidirectional motor 301, a rotating shaft 302, a first worm 303, a second worm 304, a first worm wheel 305 and a second worm wheel 306, the bidirectional motor 301 is installed and installed at the bottom of the box frame 1, the power of the equipment is increased by the action of the bidirectional motor 301, the rotating shaft 302 is disposed at the output end of the bidirectional motor 301, the second worm 304 and the first worm 303 are respectively movably disposed at the tail end of the rotating shaft 302, one end of the second screw 502 and one end of the third screw 602 extend to the bottom of the box frame 1, the first worm wheel 305 and the second worm wheel 306 are respectively matched with the second worm 304 and the first worm 303, and the transmission of the power is completed by the action of the rotating shaft 302, the first worm 303, the second worm 304, the first worm wheel 305 and the second worm wheel 306.

Please refer to fig. 7, the supporting component includes an upper supporting seat 15, a lower supporting seat 16 and a bidirectional cylinder 17, the inside of the upright column 4 is provided with the bidirectional cylinder 17, the output end of the bidirectional cylinder 17 is respectively provided with the upper supporting seat 15 and the lower supporting seat 16, and the upper supporting seat 15 and the lower supporting seat 16 are respectively located at the top and the bottom of the upright column 4, the upper supporting seat 15, the lower supporting seat 16 and the bidirectional cylinder 17 are utilized to complete the stabilization of the upright column 4 after the expansion, and the outer cover plate 2 is effectively supported to avoid falling after losing power, so as to be convenient for use.

Referring to fig. 1, four corners of the bottom of the mounting box frame 1 are provided with supporting seats 12, and the bottoms of the supporting seats 12 are provided with anti-slip blocks 13, so as to support the whole mounting box frame 1, and to facilitate stable use, and the anti-slip blocks 13 are used to prevent the mounting box frame 1 from slipping.

Referring to fig. 2 and 4, sealing assemblies are disposed between both sides of the mounting box frame 1 and the outer cover plate 2, the sealing assemblies are used for blocking rainwater, so as to block rainwater, and prevent rainwater from entering the mounting box frame 1 and affecting the inside of the mounting box frame, each sealing assembly includes a baffle 8, a first sealing block 9, a second sealing block 10 and a sealing groove 11, the baffles 8 are disposed at both ends of the mounting box frame 1, the first sealing block 9 and the second sealing block 10 are disposed at the tail end of each baffle 8, and the first sealing block 9 and the second sealing block 10 are engaged with each other to complete the engagement and sealing of the outer cover plate 2, and the sealing groove 11 engaged with the first sealing block 9 is disposed at the outer side of the outer cover plate 2, and the second sealing block 10 is engaged with each other to further form a compaction seal at the outer side of the sealing groove 11, thereby better completing the sealing effect of the device.

The working principle of the invention is as follows: when in use, the driving component 3 is used for driving the unfolding mechanism 5 and the turnover mechanism 6 at the same time, and the upright post 4 and the outer cover plate 2 in the mounting box frame 1 are unfolded;

specifically, the bidirectional motors 301 are started to respectively drive the rotating shafts 302 corresponding to the output ends, and the outer ends of the rotating shafts 302 are respectively connected with the first worm 303 and the second worm 304 in a staggered manner through unidirectional bearings, so as to respectively drive the second worm wheel 306 and the first worm wheel 305 to rotate, so as to respectively drive the unfolding mechanism 5 and the turnover mechanism 6 to operate, and the sizes of the first worm 303 and the second worm 304 are designed in a certain proportion;

due to the action of the one-way bearing, when the driving assembly 3 is started, only the first worm 303 and the second worm 304 on one group of rotating shafts 302 of the two-way motor 301 are driven to rotate, and the other group of the first worm 303 and the second worm 304 idle, so that only the first screw 501, the second screw 502 and the third screw 602 at one end inside the mounting box frame 1 rotate, and because the one-way bearing is also arranged among the second worm wheel 306, the first worm wheel 305, the third screw 602, the first moving block 503 and the second moving block 504, the corresponding third screw 602, the second screw 502 and the first screw 501 are driven to move, and the corresponding second worm wheel 306 and the first worm wheel 305 idle;

subsequently, under the rotation action of the set of third screws 602, the movable base 601 is driven to move along the direction of the third screws 602, and under the cooperation of the annular guide groove 605 and the telescopic rod 604, the guide shaft 606 moves along the annular guide groove 605, and the first fixing shaft 610 and the second fixing shaft 611 are fixed on the inner wall of the mounting box frame 1, so that the first connecting plate 608 is driven to rotate around the second fixing shaft 611, and the guide wheel 612 is fixedly connected in a sliding manner along the sliding groove 14, so that the outer cover plate 2 is unfolded outwards from two sides of the mounting box frame 1 around the rotating shaft 7;

in this process, when the outer cover plate 2 rotates, the first connecting plate 608 at the other end rotates around the second fixed shaft 611, so as to drive the corresponding movable seat 601 to move upward along the corresponding third screw 602, and further rotate due to the movable connection between the third screw 602 and the mounting box frame 1, at this time, the corresponding third screw 602 is driven to rotate, and the corresponding second worm gear 306 idles, so as to avoid affecting use, and complete the opening of the outer cover plate 2;

meanwhile, the unfolding mechanism 5 is started, specifically, the second screw 502 is rotated by matching the second worm 304 with the first worm wheel 305, the first screw 501 is driven to rotate under the action of the gear set 506, the first screw 501 is driven to rotate by matching with the first moving block 503 and the second moving block 504, the first screw 502 and the first screw 501 move along the first moving block, the upright posts 4 with one symmetrical ends are unfolded outwards under the action of the supporting plate 505, the upright posts on one side are connected with each other through the connecting plate, and when the upright post 4 on one end is moved, the upright post 4 on the other end also moves, and the first moving block 503 and the second moving block 504 are driven to move in reverse, so that the second screw 502 and the first screw 501 are driven to rotate, and under the action of the one-way bearing, the first worm wheel 305 idles, so as to avoid interfering with other operations and complete unfolding of the upright posts 4;

during the operation, the number of the driving sources is reduced, so that the use of energy is reduced, the effects of energy conservation and environmental protection are achieved, the sizes of the first worm 303 and the second worm 304 are designed in a certain proportion, the operation speeds of the unfolding mechanism 5 and the turnover mechanism 6 are inconsistent by utilizing the principle of a transmission ratio, the unfolding mechanism 5 is slower than the turnover mechanism 6 during the unfolding, and the unfolding mechanism 5 is faster than the turnover mechanism 6 during the merging, so that the effect of tandem operation is achieved under the driving of the same driving source, and the integral working efficiency of the equipment is greatly improved;

when the outer cover plate 2 is placed to be horizontal by the turnover mechanism 6, the first sealing blocks 9 at the tail ends of the baffle plates 8 at the two sides of the mounting box frame 1 are mutually clamped with the sealing grooves 11, and the surfaces of the outer cover plate 2 are sealed by matching with the second sealing blocks 10, so that the sealing property of the equipment is greatly improved, and further, the influence of rainwater along gaps during use on the normal use of the mounting box frame 1 is avoided; the upper supporting seat 15, the lower supporting seat 16 and the bidirectional cylinder 17 are reused, the stabilization of the upright post 4 is completed after the unfolding, the outer cover plate 2 is effectively supported, and the falling after the power loss is avoided, so that the use is facilitated.

Although embodiments of the present invention have been shown and described, it is intended that the present invention should not be limited thereto, that the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples, and that modifications, substitutions, variations or the like, which are not inventive and may be made by those skilled in the art without departing from the principle and spirit of the present invention and without departing from the scope of the claims.

Claims

1. The utility model provides a movable energy-saving building with variable space, includes installation tank tower (1), outer cover plate (2) and stand (4), its characterized in that: install the inside both ends of tank tower (1) and all be provided with deployment mechanism (5) and tilting mechanism (6), install drive assembly (3) all mutually supporting with deployment mechanism (5), tilting mechanism (6) in the bottom of installation tank tower (1), the both sides of installation tank tower (1) all are provided with rotation axis (7), and install tank tower (1) and have outer apron (2) through rotation axis (7) swing joint all, the output of tilting mechanism (6) cooperatees with outer apron (2) inner wall respectively, and is a set of the all swing joint of output of deployment mechanism (5) has stand (4), the inside of stand (4) is provided with supporting component, supporting component is used for the support of stand (4) and outer apron (2).

2. The space-variable mobile energy-saving building according to claim 1, wherein: the unfolding mechanism (5) comprises a first screw (501), a second screw (502), a first moving block (503) and a second moving block (504), the first screw (501) and the second screw (502) are movably connected to two ends of the interior of the mounting box frame (1), a gear set (506) is arranged between the tops of the first screw (501) and the second screw (502), the first moving block (503) and the second moving block (504) are respectively arranged on the outer sides of the first screw (501) and the second screw (502), and supporting plates (505) are respectively hinged between two ends of the first moving block (503) and two ends of the second moving block (504) and the upright posts (4) at two ends of the mounting box frame (1).

3. The space-variable mobile energy-saving building of claim 2, wherein: the turnover mechanism (6) comprises a movable seat (601) and a third screw (602), both ends of the inside of the mounting box frame (1) are movably connected with third screw rods (602), the outer side of the third screw (602) is symmetrically provided with a limit component matched with the movable seat (601), the outer side of the third screw (602) is connected with a movable seat (601) through threads, the outer side of the movable seat (601) is symmetrically provided with telescopic rods (604), the output end of the telescopic rod (604) is provided with a connecting sleeve (607), the inside of the connecting sleeve (607) is rotatably connected with a guide shaft (606), two ends of the inner part of the mounting box frame (1) are symmetrically provided with annular guide grooves (605) matched with the guide shafts (606), a first fixed shaft (610) and a second fixed shaft (611) are symmetrically and fixedly connected to the inner end surface of the mounting box frame (1), a second connecting plate (609) is movably connected between the first fixed shaft (610) and the second fixed shaft (611) on the same side, and the outer sides of the second fixed shaft (611) and the guide shaft (606) at the same side are movably connected with a first connecting plate (608), the tail end of the first connecting plate (608) is movably connected with a guide wheel (612), and sliding grooves (14) which are connected with the guide wheels (612) in a sliding manner are formed in two ends of the inner part of the outer cover plate (2).

4. A space-variable mobile energy-saving building according to claim 3, characterized in that: drive assembly (3) include two-way motor (301), pivot (302), first worm (303), second worm (304), first worm wheel (305) and second worm wheel (306), the bottom of two-way motor (301) installation and installation tank tower (1), the output of two-way motor (301) all is provided with pivot (302), the end of pivot (302) all is moved about respectively has crisscross second worm (304), first worm (303), the bottom that the one end of second screw rod (502) and third screw rod (602) extend to installation tank tower (1) is provided with respectively with second worm (304), first worm (303) matched with first worm wheel (305), second worm wheel (306).

5. The space-variable mobile energy-saving building according to claim 1, characterized in that: the supporting component comprises an upper supporting seat (15), a lower supporting seat (16) and a bidirectional cylinder (17), the inside of the stand (4) is provided with the bidirectional cylinder (17), the output end of the bidirectional cylinder (17) is respectively provided with the upper supporting seat (15) and the lower supporting seat (16), and the upper supporting seat (15) and the lower supporting seat (16) are respectively located at the top and the bottom of the stand (4).

6. The space-variable mobile energy-saving building according to claim 1, wherein: the bottom four corners department of installation box rack (1) all is provided with supporting seat (12), and the bottom of supporting seat (12) all is provided with non-slipping spur (13).

7. A space-variable mobile energy-saving building according to claim 3, characterized in that: the limiting component comprises a limiting optical sleeve (603), and the limiting optical sleeve (603) matched with the movable base (601) is symmetrically arranged on the outer side of the third screw (602) from top to bottom.

8. The space-variable mobile energy-saving building according to claim 1, wherein: sealing assemblies are arranged between the two sides of the mounting box frame (1) and the outer cover plate (2) and used for blocking rainwater.

9. The space-variable mobile energy-saving building according to claim 8, wherein: the sealing assembly comprises a baffle (8), a first sealing block (9), a second sealing block (10) and a sealing groove (11), the baffles (8) are arranged at two ends of the mounting box frame (1), the first sealing block (9) and the second sealing block (10) are arranged at the tail ends of the baffles (8), and the sealing groove (11) matched with the first sealing block (9) is formed in the outer side of the outer cover plate (2).