CN114704133B

CN114704133B - Dynamic deformation mobile house

Info

Publication number: CN114704133B
Application number: CN202210434430.9A
Authority: CN
Inventors: 张建成; 徐志成
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-24
Filing date: 2022-04-24
Publication date: 2024-10-18
Anticipated expiration: 2042-04-24
Also published as: CN114704133A

Abstract

The invention relates to a dynamic deformation mobile house, which comprises a telescopic bracket; the front side and the rear side of the bracket are provided with telescopic main wall surfaces; the left side and the right side of the bracket are provided with telescopic side wall surfaces; a telescopic house cover is arranged at the top of the bracket; and a telescopic floor is arranged at the bottom of the bracket. The invention has the advantages of transporting and moving houses, no need of disassembling and installing houses, saving labor and time consumption during disassembly and installation, saving cost and the like.

Description

Dynamic deformation mobile house

Technical Field

The invention relates to the technical field of buildings, in particular to a dynamic deformation mobile house.

Background

Shelter hospitals built for epidemic situation control are built to engineering board houses for engineering project implementation, and the shelter hospitals have important effects on epidemic situation prevention and control and engineering implementation. However, these houses are large in size and cannot be moved and transported in different places by using a transport means, and often the disassembled house components are disassembled after epidemic situations and projects are finished, and the disassembled house components are transported to new epidemic situations and are rebuilt in new engineering places, so that a great amount of time is consumed, and meanwhile, the components are repeatedly disassembled and rebuilt to cause the damage of the components, so that the cost is increased.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

In order to solve the above problems, the present invention provides a dynamically deformable mobile home, comprising: a retractable stand; the front side and the rear side of the bracket are provided with telescopic main wall surfaces; the left side and the right side of the bracket are provided with telescopic side wall surfaces; a telescopic house cover is arranged at the top of the bracket; and a telescopic floor is arranged at the bottom of the bracket.

Further, the support comprises a telescopic left support and a telescopic right support; the left bracket and the right bracket comprise a pair of supporting arms; at least one group of telescopic height telescopic devices are arranged between the supporting arms; a channel is formed between the height expansion devices; the telescopic width telescopic devices are arranged between the top end of the left bracket and the top end of the right bracket and between the bottom end of the left bracket and the bottom end of the right bracket; the width telescopic device comprises a bracket connecting rod and at least one group of telescopic driving devices; the bracket connecting rods comprise a first bracket connecting rod and a second bracket connecting rod; the first bracket connecting rod is hinged with the supporting arm of the left bracket; the second bracket connecting rod is hinged with the supporting arm of the right bracket; the first support connecting rod is hinged with the second support connecting rod.

Further, the height expansion device comprises a pair of support arm connecting rods and an expansion driving device; the support arm connecting rod comprises a first support arm connecting rod and a second support arm connecting rod; the first support arm connecting rod is hinged with one support arm; the second support arm connecting rod is hinged with the other support arm; the first support arm connecting rod is hinged with the second support arm connecting rod.

Further, the telescopic driving device comprises a rotating device, a fixed seat, a first rotating rod and a second rotating rod which are respectively arranged on the supporting arm; a sliding guide rod is arranged on the fixed seat; a first sliding seat and a second sliding seat are arranged on the sliding guide rod in a sliding manner; a rotating shaft is arranged on the rotating device; the rotating shaft can rotate through the fixing seat; a positive thread and a reverse thread are arranged on the rotating shaft; the positive thread and the negative thread are respectively meshed with the first sliding seat and the second sliding seat; two ends of the first rotating rod are respectively hinged with the first sliding seat; two ends of the second rotating rod are respectively hinged with the second sliding seat; the first rotating rod is connected with the second rotating rod through a rotating shaft.

Further, the height telescoping device includes a pair of height jacks disposed between the support arms.

Further, a movable wall surface is rotatably arranged on the side wall surface.

Further, the main wall surface, the side wall surface and the movable wall surface all comprise an upper wall surface seat arranged at the upper part of the bracket and a lower wall surface seat arranged at the lower part of the bracket; sliding grooves are formed in the upper wall surface seat and the lower wall surface seat; the sliding grooves of the upper wall surface seat and the lower wall surface seat are respectively provided with a first sliding wall surface in a sliding manner; a sliding groove is formed in the first sliding wall surface; and a second sliding wall surface is arranged on the sliding groove of the first sliding wall surface in a sliding manner.

Further, steps are arranged at the bottoms of the left side and the right side of the bracket; the floor and the steps comprise fixed floor panels and floor beams; the fixed floor plate is rotatably provided with a first movable floor plate; the floor beam is rotatably provided with a second movable floor plate; the first movable floor plate and the second movable floor plate are provided with floor connecting devices therebetween, and the first movable floor plate and the second movable floor plate can be connected together in a folding way; the floor connecting device comprises a floor connecting seat and floor connecting fixing seats respectively arranged on the first movable floor plate and the second movable floor plate; a first floor rotating rod and a second floor rotating rod are arranged on the floor connecting seat; the first floor rotating rod is rotatably connected with the floor connecting fixing seat of the first movable floor plate; the floor second rotating rod is rotatably connected with the floor connecting fixing seat on the second movable floor plate.

Further, the house cover comprises a top plate; a first sliding plate is arranged on the top plate in a sliding manner; a second sliding plate is arranged on the first sliding plate in a sliding manner; a first support column is arranged below the top plate; a second support column is arranged below the first sliding plate.

Further, a plurality of lifting devices are uniformly distributed at the bottom end of the support; the lifting device comprises a lifting jack and a cross rod seat arranged on the bracket; a cross rod is arranged on the lifting jack; the cross rod and the cross rod seat are rotatably connected.

Compared with the prior art, the dynamic deformation mobile house is provided with the telescopic brackets, the front side and the rear side of the brackets are respectively provided with the telescopic main wall surfaces, the left side and the right side of the brackets are respectively provided with the telescopic side wall surfaces, the top of the brackets are respectively provided with the telescopic house cover, and the bottom of the brackets are respectively provided with the telescopic floor.

Drawings

FIG. 1 is an assembled schematic view of a dynamically deformable mobile home of the present invention;

FIG. 2 is a schematic illustration of an assembled partial cross-sectional view of a dynamically deformable mobile home in accordance with the present invention;

FIG. 3 is a schematic view of a support frame for a dynamically deformable mobile home according to an embodiment of the present invention;

FIG. 4 is a schematic view of a telescopic driving device of a dynamically deformable mobile home according to the present invention;

FIG. 5 is a schematic view of a wall structure of a dynamically deformable mobile home according to the present invention;

FIG. 6 is a schematic diagram of a lifting device of a dynamically deformable mobile house according to the present invention;

FIG. 7 is a schematic view of the floor structure of a dynamically deformable mobile home in accordance with the present invention;

FIG. 8 is a schematic view of a floor connecting device of a dynamically deformable mobile home according to the present invention;

FIG. 9 is a schematic view of a cover structure of a dynamically deformable mobile home in accordance with the present invention;

FIG. 10 is a left side cross-sectional view of a dynamically deformable mobile home in accordance with the present invention;

FIG. 11 is a schematic diagram of a second embodiment of a support for a dynamically deformable mobile home in accordance with the present invention;

FIG. 12 is a schematic view of an assembly process of a novel portable housing according to the present invention;

The reference numerals are: 1-bracket, 101-left bracket, 102-right bracket, 103-bracket connecting rod, 103 a-first bracket connecting rod, 103a 1-connecting rod insert, 103 b-second bracket connecting rod, 103b 1-connecting rod insert slot, 103 c-connecting rod pin hole, 1 a-support arm, 1 c-support arm connecting rod, 1c 1-first support arm connecting rod, 1c1 a-support arm insert slot, 1c 2-second support arm connecting rod, 1c2 a-support arm insert, 1c 3-support arm pin hole, 104-telescoping drive, 10401-rotation device, 10402-first rotation rod, 10403-second rotation rod, 10404-first slide, 10405-second slide, 10406-rotation shaft, 10407-slide guide rod, 10408-fixed seat 105-height jack, 2-main wall, 201-upper wall base, 202-lower wall base, 203-first sliding wall, 204-second sliding wall, 205-sliding channel, 3-side wall, 301-movable wall, 4-house cover, 401-roof, 402-first sliding plate, 403-second sliding plate, 404-second housing cover, 405-first fixed hole, 406-hook, 5-floor, 501-fixed floor panel, 502-first movable floor panel, 503-second movable floor panel, 504-floor connecting device, 50401-floor connecting anchor, 50402-floor connecting anchor, 50403-floor first rotating lever, 50404-floor second rotating lever, 505-floor connecting rail, 506-floor beams, 507-floor strips, 508-floor support seats, 6-lifting devices, 601-lifting jacks, 602-crossbars, 603-crossbars seats, 7-door openings, 8-adjusting seats, 9-steps, 10-channels.

Detailed Description

The following detailed description of specific embodiments of the invention is, but it should be understood that the invention is not limited to specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

As shown in fig. 1 and 2, a dynamic deformation mobile house is provided with a telescopic support 1, telescopic main wall surfaces 2 are arranged on the front side and the rear side of the support 1, telescopic side wall surfaces 3 are arranged on the left side and the right side of the support 1, a telescopic house cover 4 is arranged on the top of the support 1, a telescopic floor 5 is arranged at the bottom of the support 1, a door opening 7 is arranged on the main wall surface 2, a person enters the house through the door opening 7, a plurality of adjusting seats 8 are uniformly distributed at the bottom of the support 1 for enabling the movable house to adapt to different floors to keep horizontal, the adjusting seats 8 are in threaded connection with the support 1, the height of the adjusting seats 8 can be adjusted by rotating the adjusting seats 8, idler wheels are arranged on the adjusting seats 8, locking devices are arranged on the idler wheels, and universal wheels with locking functions can be selected by the adjusting seats 8.

The present invention provides a specific embodiment of a bracket 1, as shown in fig. 3, which includes a telescopic left bracket 101 and a telescopic right bracket 102, wherein the left bracket (101) and the right bracket (102) each include a pair of support arms 1a, at least one group of telescopic height telescopic devices is disposed between the pair of support arms 1a, a channel 10 is formed between the height telescopic devices, the channel 10 is communicated with a door opening 7 on a main wall surface 2, telescopic width telescopic devices are disposed between the top end of the left bracket 101 and the top end of the right bracket 102 and between the bottom end of the left bracket 101 and the bottom end of the right bracket 102, the width telescopic devices include a bracket connecting rod 103 and a telescopic driving device 104, the telescopic driving device 104 also has the function of supporting a house cover 4, so that multiple groups of telescopic driving devices 104 can be disposed, the bracket connecting rod 103 includes a first bracket connecting rod 103a and a second bracket connecting rod 103b, and the first bracket connecting rod 103a is hinged with the support arm 1a of the left bracket 101, for example: the second bracket link 103b is hinged to the support arm 1a of the right bracket 102 using a rotational shaft rotatably connected, for example: the first support connecting rod 103a and the second support connecting rod 103b are rotatably connected by using a rotating shaft, in order to enable the support connecting rod 103 to be fixed after being unfolded, a connecting rod embedding part 103a1 is arranged on the first support connecting rod 103a, a connecting rod embedding groove 103b1 is arranged on the second support connecting rod 103b, the connecting rod embedding part 103a1 is embedded into the connecting rod embedding groove 103b1, the first support connecting rod 103a and the second support connecting rod 103b are arranged at the middle positions of the connecting rod embedding part 103a1 and the connecting rod embedding groove 103b1, the first support connecting rod 103a and the second support connecting rod 103b can be hinged together by using the rotating shaft, connecting rod pin holes 103c are arranged on two sides of the hinge part, and fixing pins are inserted into the connecting rod pin holes 103 c.

The foregoing height expansion device, the present invention gives a first embodiment: as shown in fig. 3, the telescopic driving device 104 specifically includes a pair of support arm connecting rods 1c, the support arm connecting rod 1c includes a first support arm connecting rod 1c1 and a second support arm connecting rod 1c2, and the first support arm connecting rod 1c1 is hinged with one support arm 1a, for example: the second support arm connecting rod 1c2 is hinged to the other support arm 1a using a rotation shaft rotatably connected, for example: the first support arm connecting rod 1c1 and the second support arm connecting rod 1c2 are rotatably connected by using a rotating shaft, the support arm embedding groove 1c1a is formed in the first support arm connecting rod 1c1 in order to enable the support arm connecting rod 1c to be fixed after being unfolded, the support arm embedding part 1c2a is formed in the second support arm connecting rod 1c2, the support arm embedding part 1c2a is embedded into the support arm embedding groove 1c1a, the support arm embedding part 1c2a and the support arm embedding groove 1c1a are arranged at the middle positions of the hinge parts of the first support arm connecting rod 1c1 and the second support arm connecting rod 1c2, the support arm connecting rod 1c and the support arm embedding groove 1c1a can be hinged together by using the rotating shaft, the support arm pin holes 1c3 are formed in two sides of the hinge parts, and the fixing pins are inserted into the support arm pin holes 1c 3.

As shown in fig. 4, the telescopic driving device 104 includes a rotating device 10401 and a fixing base 10408 which are respectively disposed on the supporting arm 1a, a first rotating rod 10402 and a second rotating rod 10403, a sliding guide rod 10407 is disposed on the fixing base 10408, a first sliding seat 10404 and a second sliding seat 10405 are slidably disposed on the sliding guide rod 10407, a rotating shaft 10406 is disposed on the rotating device 10401, the rotating shaft 10406 rotatably penetrates through the fixing base 10408, a positive thread and a negative thread are disposed on the rotating shaft 10406, the positive thread and the negative thread are respectively engaged with the first sliding seat 10404 and the second sliding seat 10405, and two ends of the first rotating rod 10402 are respectively hinged with the first sliding seat 10404, for example: the two ends of the second rotating rod 10403 are hinged to the second sliding seat 10405 by using a rotating shaft, for example: the first rotating rod 10402 and the second rotating rod 10403 are rotatably connected by using a rotating shaft, the rotating device 10401 selects a synchronous motor, when the rotating device 10401 rotates, the rotating shaft 10406 is driven to rotate, the positive thread and the negative thread on the rotating shaft 10406 enable the first sliding seat 10404 and the second sliding seat 10405 to be separated or close, and the first rotating rod 10402 and the second rotating rod 10403 hinged to the first sliding seat 10404 and the second sliding seat enable the pair of supporting arms 1a to be pulled in or pushed out.

The invention also provides a second embodiment of the height telescoping device: as shown in fig. 11, the lifting jack 105 comprises a pair of lifting jacks 105 arranged between the supporting arms 1a, wherein the lifting jacks 105 can be hydraulic lifting jacks, can bear relatively large weight, and are suitable for the relatively heavy condition of house components, and the lifting jacks 105 pull or push the pair of supporting arms 1 a.

In order to facilitate the width adjustment of the bracket 1, a movable wall 301 is rotatably arranged on the side wall surface 3, when the bracket 1 is unfolded, the movable wall 301 is unfolded, and when the bracket is contracted, the movable wall 301 is folded onto the side wall surface 3.

The invention provides a specific embodiment of a main wall surface 2, a side wall surface 3 and a movable wall surface 301, as shown in fig. 5, the main wall surface 2, the side wall surface 3 and the movable wall surface 301 all comprise an upper wall surface seat 201 and a lower wall surface seat 202, the upper wall surface seat 201 is fixed on the upper part of a bracket 1, the lower wall surface seat 202 is fixed on the lower part of the bracket 1, sliding grooves 205 are formed in the upper wall surface seat 201 and the lower wall surface seat 202, a first sliding wall surface 203 is arranged in the sliding grooves 205 of the upper wall surface seat 201 and the sliding grooves 205 of the lower wall surface seat 202 in a sliding manner, meanwhile, a sliding groove 205 is also formed in the first sliding wall surface 203, a second sliding wall surface 204 is arranged in the sliding groove 205 of the first sliding wall surface 203, and glass can be embedded in the second sliding wall surface 204 to transmit light to a house.

Preferably, steps 9 are disposed at the bottoms of the left and right sides of the bracket 1, so as to facilitate entering a house, the floor 5 and the steps 9 are as shown in fig. 7, each of which comprises a fixed floor plate 502 and a floor beam 506, the fixed floor plate 501 is rotatably provided with a first movable floor plate 502, the fixed floor plate 501 can be connected together by a rotation shaft, the floor beam 506 is rotatably provided with a second movable floor plate 503, the floor beam 506 can be connected together by a rotation shaft, a floor connecting device 504 is disposed between the first movable floor plate 502 and the second movable floor plate 503, the first movable floor plate 502 and the second movable floor plate 503 are connected together in a foldable manner, the floor connecting device 504 is as shown in fig. 8, and comprises a floor connecting seat 50402 and a floor connecting fixing seat 50401 respectively disposed on the first movable floor plate 502 and the second movable floor plate 503, a floor first rotation rod 50403 and a floor second rotation rod 50404 are disposed on the floor connecting seat 50402, the floor connecting fixing seat 50401 of the first movable floor plate 50403 and the first movable floor plate 502 are rotatably connected, in particular, a floor connecting seat 5025 is rotatably connected to the floor fixing seat 5025 by penetrating a floor connecting hole of the floor connecting seat 5025. In order to well support the first movable floor plate 502 and the second movable floor plate 503, a floor support cross bar 505 is arranged below the first movable floor plate 502 and the second movable floor plate 503, one end of the floor support cross bar 505 is fixed on a floor beam 506, the other end of the floor support cross bar 505 can movably extend into the fixed floor plate 501, when the first movable floor plate 502 and the second movable floor plate 503 are folded, the floor support cross bar 505 is contained in the fixed floor plate 501, when the first movable floor plate 502 and the second movable floor plate 503 extend, the floor support cross bar 505 is pulled out from the fixed floor plate 501, and a plurality of floor support seats 508 are arranged on the fixed floor plate 501 and the floor beam 506, so that the floor support cross bar 505 plays a role in supporting.

The invention also provides an embodiment of the house cover 4, as shown in fig. 9 and 10, specifically comprising a top plate 401, a first sliding plate 402 is slidably arranged on the top plate 401, a second sliding plate 403 is slidably arranged on the first sliding plate 402, a first support column 405 is arranged under the top plate 401, a second support column 404 is arranged under the first sliding plate 402, and the first support column 405 and the second support column 404 play a role in supporting the house cover. In order to lock the top plate 401, the first sliding plate 402 and the second sliding plate 403 when being stretched, the hooks 407 are arranged at the contact positions of the two ends of the top plate 401, the first sliding plate 402 and the second sliding plate, when being stretched, the hooks 407 are buckled together, so that the stability is good, meanwhile, the hooks 407 are buckled together, the waterproof effect is achieved, and rainwater cannot flow into a house in a backward way. Further, in order to fasten the housing cover 4 to the bracket 1, to prevent the housing cover 4 from being blown open by a strong wind, a fixing hole 406 is provided on the first support column 405, and in the fixing hole 406, the first support column 405 is fixed to the bracket 1, that is, to the first rotation lever 10402 or the second rotation lever 10403 or the bracket connection lever 103 with a fixing screw.

Further, in order to facilitate loading and unloading the movable house of the present invention during transportation, a plurality of lifting devices 6 are uniformly distributed at the bottom end of the bracket 1, the lifting devices 6 lift and place the movable house of the present invention on a transportation vehicle, after the transportation reaches a destination, the lifting devices 6 lift and unload the movable house of the present invention from the transportation vehicle, and loading and unloading during transportation can be realized without a crane, concretely, as shown in fig. 6, the lifting devices 6 comprise lifting jacks 601 and a cross rod seat 603 arranged on the bracket 1, the cross rod 602 is arranged on the lifting jacks 601, the cross rod 602 is rotatably connected with the cross rod seat 603, and the lifting jacks 601 can select hydraulic jacks.

The specific use is as follows: as shown in fig. 12, the lifting jack is rotated to lift up, the house is lifted up and separated from the transport vehicle to drive the lifting jack to descend, the house is placed on the ground to stretch out and draw back the width telescopic device, meanwhile, the fixing pin is inserted into the pin hole of the connecting rod to open the movable wall surface to adjust the adjusting seat, so that the house is horizontal, the adjusting seat is locked to the height telescopic device to lift up, meanwhile, the fixing pin is inserted into the pin hole of the supporting arm, and the fixing screw is installed in the fixing hole to fasten the top plate and the bracket, so that the building and installation of the house are completed.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. A dynamic deformation mobile house is characterized in that: comprises a telescopic bracket (1); the front side and the rear side of the bracket (1) are provided with telescopic main wall surfaces (2); the left side and the right side of the bracket (1) are provided with telescopic side wall surfaces (3); a retractable house cover (4) is arranged at the top of the bracket (1); a retractable floor (5) is arranged at the bottom of the bracket (1); steps (9) are arranged at the bottoms of the left side and the right side of the bracket (1); the floor (5) and the step (9) comprise a fixed floor plate grid (501) and a floor beam (506); the fixed floor plate (501) is rotatably provided with a first movable floor plate (502); the floor beam (506) is rotatably provided with a second movable floor plate (503); a floor connecting device (504) is arranged between the first movable floor plate (502) and the second movable floor plate (503) to connect the first movable floor plate (502) and the second movable floor plate (503) together in a foldable way; the floor connecting device (504) comprises a floor connecting seat (50402) and floor connecting fixing seats (50401) respectively arranged on the first movable floor plate (502) and the second movable floor plate (503); a floor first rotating rod (50403) and a floor second rotating rod (50404) are arranged on the floor connecting seat (50402); the first floor rotating rod (50403) is rotatably connected with the floor connecting fixing seat (50401) of the first movable floor plate (502); the floor second rotating rod (50404) is rotatably connected with a floor connecting fixing seat (50401) on the second movable floor plate (503); the house cover (4) comprises a top plate (401); a first slide plate (402) is slidably provided on the top plate (401); a second slide plate (403) is slidably provided on the first slide plate (402); -providing a first support column (405) under the top plate (401); a second support column (404) is provided under the first slide plate (402).

2. A dynamically deformable mobile home as claimed in claim 1, wherein: the bracket (1) comprises a telescopic left bracket (101) and a telescopic right bracket (102); the left bracket (101) and the right bracket (102) comprise a pair of supporting arms (1 a); at least one group of telescopic height telescopic devices are arranged between the supporting arms (1 a); a channel (10) is formed between the height telescopic devices; a telescopic width telescopic device is arranged between the top end of the left bracket (101) and the top end of the right bracket (102) and between the bottom end of the left bracket (101) and the bottom end of the right bracket (102); the width telescopic device comprises a bracket connecting rod (103) and at least one group of telescopic driving devices (104); the bracket connecting rod (103) comprises a first bracket connecting rod (103 a) and a second bracket connecting rod (103 b); the first bracket connecting rod (103 a) is hinged with a supporting arm (1 a) of the left bracket (101); the second bracket connecting rod (103 b) is hinged with a supporting arm (1 a) of the right bracket (102); the first support connecting rod (103 a) is hinged with the second support connecting rod (103 b).

3. A dynamically deformable mobile home as claimed in claim 2, wherein: the height telescopic device comprises a pair of support arm connecting rods (1 c) and a telescopic driving device (104); the support arm connecting rod (1 c) comprises a first support arm connecting rod (1 c 1) and a second support arm connecting rod (1 c 2); the first support arm connecting rod (1 c 1) is hinged with one support arm (1 a); the second support arm connecting rod (1 c 2) is hinged with the other support arm (1 a); the first support arm connecting rod (1 c 1) is hinged with the second support arm connecting rod (1 c 2).

4. A dynamically deformable mobile home as claimed in claim 2 or 3, wherein: the telescopic driving device (104) comprises a rotating device (10401) and a fixed seat (10408) which are respectively arranged on the supporting arm (1 a), a first rotating rod (10402) and a second rotating rod (10403); a sliding guide rod (10407) is arranged on the fixed seat (10408); a first sliding seat (10404) and a second sliding seat (10405) are arranged on the sliding guide rod (10407) in a sliding way; a rotating shaft (10406) is arranged on the rotating device (10401); the rotating shaft (10406) can rotate through the fixed seat (10408); a positive thread and a negative thread are arranged on the rotating shaft (10406); the positive thread and the negative thread are respectively meshed with the first sliding seat (10404) and the second sliding seat (10405); both ends of the first rotating rod (10402) are respectively hinged with the first sliding seat (10404); two ends of the second rotating rod (10403) are respectively hinged with the second sliding seat (10405); the first rotating rod (10402) and the second rotating rod (10403) are connected in a rotating shaft manner.

5. A dynamically deformable mobile home as claimed in claim 2, wherein: the height telescopic device comprises a pair of height jacks (105) arranged between the supporting arms (1 a).

6. A dynamically deformable mobile home as claimed in claim 1, wherein: a movable wall surface (301) is rotatably arranged on the side wall surface (3).

7. A dynamically deformable mobile home as claimed in claim 6, wherein: the main wall surface (2), the side wall surface (3) and the movable wall surface (301) comprise an upper wall surface seat (201) arranged at the upper part of the bracket (1) and a lower wall surface seat (202) arranged at the lower part of the bracket (1); sliding grooves (205) are formed in the upper wall surface seat (201) and the lower wall surface seat (202); the sliding grooves (205) of the upper wall surface seat (201) and the sliding grooves (205) of the lower wall surface seat (202) are respectively provided with a first sliding wall surface (203) in a sliding manner; a sliding groove (205) is formed in the first sliding wall surface (203); a second sliding wall surface (204) is arranged on the sliding groove (205) of the first sliding wall surface (203) in a sliding mode.

8. A dynamically deformable mobile home as claimed in claim 1, wherein: a plurality of lifting devices (6) are uniformly distributed at the bottom end of the bracket (1); the lifting device (6) comprises a lifting jack (601) and a cross rod seat (603) arranged on the bracket (1); a cross rod (602) is arranged on the lifting jack (601); the cross rod (602) is rotatably connected with the cross rod seat (603).