CN210685513U

CN210685513U - Weightless film shooting shed

Info

Publication number: CN210685513U
Application number: CN201920075642.6U
Authority: CN
Inventors: 谷容军; 周作伟; 菅坤杰
Original assignee: Jiangsu Boren Culture Technology Co ltd
Current assignee: Jiangsu Boren Culture Technology Co ltd
Priority date: 2019-01-16
Filing date: 2019-01-16
Publication date: 2020-06-05
Anticipated expiration: 2029-01-16

Abstract

The utility model relates to a weightless film shooting shed, which comprises a base and a rotary cabin body, wherein the base is provided with an active driving wheel group, and the rotary cabin body is arranged on the base; the base drives the rotary cabin body to rotate through the driving wheel set. One end of the base is provided with an active driving wheel which is obliquely arranged in a high-outside and low-inside manner, and the other end of the base is provided with a passive driving wheel which is obliquely arranged in a high-outside and low-inside manner; the bases are arranged in parallel at uniform intervals, and the driving wheels of the bases are positioned on the same side; the axial direction of the driving wheel is horizontal and vertical to the axial direction of the base; the speed reducing motor is in transmission connection with all the driving wheels through universal couplings; the 4 spacing wheels are divided into two groups and are respectively arranged in the middle of the bases at the two ends and are arranged in an inclined mode with high outside and low inside. The weightless film shooting shed can shoot weightless effect, and is convenient to transport, convenient to install, and safe and reliable in structure.

Description

Weightless film shooting shed

Technical Field

The utility model relates to a film shooting shed, in particular to film shooting shed that can shoot weightlessness effect.

Background

At present, with the improvement of living standard of people, more and more people walk into a movie theater to watch movies, and when people see a fighting scene of a large hollywood film or a scene of walking upside down, many people want to know the secret place of the hollywood film or imagine that the people are the main role in the movie, and the people also shoot a section of small movies like movie scenes. But currently there is a lack of such experience facilities in the market.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a weightless film shooting shed that convenient, the installation is convenient and structure safe and reliable can shoot weightless effect of transportation.

The technical scheme for realizing the purpose of the utility model is to provide a weightless film shooting shed, which comprises a base and a rotary cabin body, wherein the base is provided with an active driving wheel set, and the rotary cabin body is arranged on the base; the base drives the rotary cabin body to rotate through the driving wheel set.

Furthermore, the weightless film shooting shed comprises at least 3 bases, 4 limiting wheels, a speed reduction motor assembly and a universal coupling;

one end of the base is provided with an active driving wheel which is obliquely arranged in a high-outside and low-inside manner, and the other end of the base is provided with a passive driving wheel which is obliquely arranged in a high-outside and low-inside manner; the bases are arranged in parallel at uniform intervals, and the driving wheels of the bases are positioned on the same side; the axial direction of the driving wheel is horizontal and vertical to the axial direction of the base;

the speed reducing motor assembly comprises a speed reducing motor and a motor base; the speed reducing motor is arranged on the motor base and is provided with a power output shaft; the speed reducing motor is in transmission connection with all the driving wheels through universal couplings;

the 4 spacing wheels divide two sets of settings respectively in the middle part of the base at both ends inboard, and be the slope setting of outer high interior low, and 2 spacing wheels of every group set up for the base central symmetry at installation place.

Furthermore, the base of the weightless film shooting shed comprises three first bottom plates, a bottom frame piece, two driving wheel mounting plates, two driving wheel seats, an active driving wheel and a passive driving wheel; the bottom frame piece is in a cuboid frame shape, and the upper plate wall of the bottom frame piece is provided with a mounting hole for connecting the components; the three first bottom plates are respectively welded at two ends and the middle part of the bottom frame piece, and the driving wheel mounting plate comprises a second bottom plate and two vertical plates vertically arranged at the upper end part of the second bottom plate; mounting holes for mounting a driving wheel seat are formed in the second bottom plate and the vertical plate of the driving wheel mounting plate; the two driving wheel mounting plates are fixedly connected to the bottom frame piece through second bottom plates and are positioned at two ends above the bottom frame piece; the driving wheel seat comprises a third bottom plate, a first middle frame vertically arranged on the third bottom plate and a driving wheel connecting plate obliquely arranged above the first middle frame; the driving wheel connecting plate is obliquely arranged with a high outer part and a low inner part, and is provided with a mounting hole for mounting a driving wheel; the two driving wheel seats are respectively arranged on the corresponding driving wheel mounting plates and are positioned above the driving wheel mounting plates;

the driving wheel comprises a fifth bottom plate, two first supporting plates, two second reinforcing plates, two mounting bearings, a first shaft, a first wheel and a first connecting flange; the first supporting plates are vertically arranged on the fifth bottom plate, and the two first supporting plates are oppositely arranged; the second reinforcing plates are respectively arranged between the outer wall of the first supporting plate and the fifth bottom plate and are vertically connected with the first supporting plate and the fifth bottom plate; the first wheel is sleeved on a first shaft, the first shaft is arranged on a first supporting plate through two mounting bearings, and one end or two ends of the first shaft are provided with first connecting flanges for synchronous transmission connection of a plurality of driving wheels;

the driven driving wheel comprises a sixth bottom plate, two second supporting plates, two third reinforcing plates and a second wheel; the two second supporting plates are vertically arranged on the sixth bottom plate and are oppositely arranged, and a third reinforcing plate is arranged between the outer wall of each second supporting plate and the sixth bottom plate; the second wheel is rotatably arranged on the two second supporting plates and is positioned between the two second supporting plates; the driven driving wheel is arranged on the third bottom plate of the other driving wheel seat.

Furthermore, the weightless film shooting shed also comprises 4 limiting wheel seats; the limiting wheel seat comprises a fourth bottom plate, a second middle frame vertically arranged on the fourth bottom plate and a limiting wheel connecting plate obliquely arranged above the second middle frame; the limiting wheel connecting plate is obliquely arranged with a high outer part and a low inner part; two limiting wheel seats are respectively arranged on the bottom frame piece of one base at the end part and are positioned above the frame plate of the bottom frame piece in the long axis direction of the same side, and the other two limiting wheel seats are respectively arranged on the bottom frame piece of the base at the other end part and are positioned above the frame plate of the bottom frame piece in the long axis direction of the same side; the limiting wheel is rotatably arranged on a limiting wheel connecting plate of the corresponding limiting wheel seat.

Furthermore, the base also comprises three reinforcing frames; the three reinforcing frames are uniformly arranged in the bottom frame piece at intervals and are welded with the inner wall of the frame plate in the long axis direction of the bottom frame piece; the base also comprises 4 first reinforcing plates; two of the 4 first reinforcing plates are vertically and fixedly arranged between the first bottom plate positioned in the middle and the outer wall of the bottom frame member; in addition, the two first reinforcing plates are respectively and vertically fixedly arranged between the first bottom plates at the two ends and the outer wall of one side of the bottom frame piece, and the two first reinforcing plates are respectively and symmetrically arranged at the centers of the two sides of the bottom frame piece.

Furthermore, the driving wheel seat is connected with the second bottom plate of the driving wheel mounting plate through a third bottom plate by a fastener, and is connected with the corresponding vertical plate of the driving wheel mounting plate through a first middle frame by a fastener; a fifth bottom plate of the driving wheel is provided with a mounting through hole for connecting a third bottom plate of the driving wheel seat; the driving wheel is connected with a third bottom plate of the corresponding driving wheel seat through a fifth bottom plate of the driving wheel through a fastener; the sixth bottom plate of the driven driving wheel is provided with a mounting through hole for connecting the fourth bottom plate of the limiting wheel seat; the driven driving wheel is connected with the third bottom plate of the corresponding driving wheel seat through a fastener by the sixth bottom plate of the driven driving wheel.

Furthermore, two ends of a power output shaft of the speed reducing motor are provided with second connecting flanges; the universal coupling is provided with third connecting flanges at two ends;

the number of the bases is 4, the 4 bases are uniformly arranged in parallel at intervals and are flush in front and back, and the driving wheels of the bases are positioned on the same side; the outer ends of the first shafts of the driving wheels of the bases at the two ends are provided with first connecting flanges, and the two ends of the first shaft of the driving wheel of the base in the middle are provided with first connecting flanges; the speed reducing motor assembly is arranged between the driving wheels of the two bases in the middle; two ends of a power output shaft of the speed reducing motor are in transmission connection with corresponding universal couplings through second connecting flanges, and the other ends of the two universal couplings are in transmission connection with corresponding first shafts of driving wheels on two sides of the speed reducing motor assembly through the connecting flanges; the other two universal couplings are in transmission connection with the first shafts of the driving wheels adjacent to the two sides through the connecting flanges respectively, so that the power output shaft of the speed reducing motor provides power for all the driving wheels through the universal couplings.

Further, the rotary cabin comprises circular main beams, main frames, reinforced connecting cross rods, circular connecting rods and wood plank inner cabins, wherein the number of the circular main beams is equal to that of the bases;

the main frame is a cuboid frame formed by connecting steel cross rods and steel vertical rods in a staggered manner, the left end and the right end of the main frame are open, and the front surface, the rear surface, the upper surface and the lower surface are formed by connecting the cross rods and the vertical rods in a staggered manner; the circular main beams are uniformly sleeved at the outer ends of the main frames at intervals and are coaxial with the main frames; each ring main beam is connected with a corresponding rod of the main frame through ring connecting rods with uniform angle intervals; the reinforced connecting cross rods are connected between the ring connecting rods at the same positions of the adjacent ring main beams; the wood floor inner cabin is formed into a cuboid-shaped inner cabin with an open left side by paving and fixing fireproof wood floors on the front, upper, rear, lower and right end faces of the main frame;

the rotary cabin body is arranged on the base and positioned above the base, the rotary cabin body is driven to rotate by the base, and the rotary cabin body is erected on the driving wheel and the driven driving wheel of the corresponding base by 4 circular main beams of the rotary cabin body respectively, so that each circular main beam is in transmission connection by the contact of the outer ring surface of each circular main beam and the outer ring surface of the corresponding driving wheel and the corresponding driven driving wheel; the 2 ring main beams positioned at the head and the tail are limited in the axial direction by the limit wheels on the corresponding bases, the corresponding limit wheels are respectively positioned at the axial inner sides of the 2 ring main beams positioned at the head and the tail, and the 2 ring main beams positioned at the head and the tail are in surface contact with the corresponding 2 limit wheel outer circumference rings by the annular surfaces of the axial inner sides of the annular main beams, so that the whole rotary cabin is limited in the axial direction by the two sets of limit wheels.

Furthermore, the number of the bases is 4, and the number of the ring main beams is also 4, wherein 2 ring main beams are positioned at the head end and the tail end of the main frame;

the number of the reinforced connecting cross rods is 18, and the reinforced connecting cross rods are divided into 6 groups, wherein 2 groups of reinforced connecting cross rods are arranged at the upper end and the lower end of the circumferential direction of the circular main beams, and the three reinforced connecting cross rods of each group are connected between the reinforced connecting cross rods at the same position of the adjacent circular main beams; the other four groups of reinforced connecting cross rods are arranged at the middle upper part and the middle lower part of the front end of the circular main beam and the middle upper part and the middle lower part of the rear end; each ring main beam is connected with a corresponding rod of the main frame through 20 ring connecting rods, the 20 ring connecting rods are divided into four groups, and each group of ring connecting rods is vertically connected with a vertical rod of the corresponding end face of the main frame; the inner wall of the inner cabin of the wood plank is paved by adopting decorative soft packages, and the inner wall is also provided with a lighting lamp.

Furthermore, the rotary cabin body also comprises an upper passenger platform, a lower passenger platform and shooting equipment; the boarding and alighting platform comprises an escalator and an escalator track, and the escalator is arranged on the escalator track and can move on the escalator track; the staircase is erected at the entrance of the wood plank inner cabin of the rotating cabin body; the shooting equipment is erected at the entrance of the rotary cabin body when in use.

The utility model discloses has positive effect: (1) the utility model discloses a weightless film shooting canopy is a film shooting canopy that can shoot weightless effect, and its film that can be used to the specialty is made and also can be used for in scenic spot, amusement park, city synthesize internally for visitor "private customization" little video. The method can provide film shooting with weightlessness effect for vast tourists, and after the shooting is finished, the tourists can select to add the shot film into special effect for post-processing and take away the 'customized' film belonging to the tourists. The weightless film shooting shed is a shooting shed capable of rotating 360 degrees, and the external part of the rotating cabin body 600 is circular, and the internal part is square. The periphery of the interior of the box body is decorated by adopting decorative soft packages, a carpet is laid on the ground, and the ceiling and the inner wall are provided with lighting lamps. The whole interior of the house is decorated in the form of a luxury hotel corridor.

(2) The utility model discloses a base subassembly of weightless film shooting canopy is the basic part of weightless film shooting canopy for guarantee that the relative position of relevant part supports the safe operation of whole equipment. The base is welded with the composite construction of bolted connection with the steel construction to satisfy the requirement of transportation condition and convenient installation, the structure is firm reliable. The base is connected and fixed with the ground through chemical bolts. The driving wheel seat with inclined planes at two ends of the base is used for installing a driving wheel and a driven wheel; the limiting wheel seat is used for installing a limiting wheel. The wheel train structure comprising the driving wheel, the driven driving wheel and the limiting wheel is a wheel system structure for supporting and driving the rotating cylinder of the whole weightless film shooting shed to rotate, and the driving mechanism consists of a speed reducing motor and a universal coupling. The driving wheel is connected with the speed reducing motor through the universal coupling, and the driving wheel set is driven to rotate when the speed reducing motor is electrified to rotate. When the driving wheel is driven to rotate by the motor, the driving wheel is in direct contact with the rotating cylinder body, so that the rotating cylinder can be driven to rotate. The driven driving wheel plays a role in supporting and following rotation. The limiting wheel is used for limiting the rotation of the rotary cylinder body along the axial direction, so that the safe operation of the equipment can be ensured.

(3) The main frame of the rotating cabin body of the weightless film shooting shed is a rectangular frame formed by connecting steel cross rods and vertical rods in a staggered manner, the front surface, the rear surface, the upper surface and the lower surface are formed by connecting the cross rods and the vertical rods in a staggered manner, and the connection strength is higher; the circular main beams are connected with the corresponding rods of the main frame through circular connecting rods with uniform angle intervals, and then connected between the circular connecting rods at the same position of the adjacent circular main beams through the reinforced connecting cross rods, so that the structure is very stable and reliable. And the main frame is further paved by adopting fireproof wooden planks to form an inner cabin, so that the stability is further enhanced, and the fireproof and safety performance is better. After visitor experience person got into the rotatory cabin body, rotated by the base and the drive mechanism drive cabin body, shot the entrance at the rotatory cabin body that the equipment was erect, experience person when experiencing, shoot the equipment and can shoot it and carry out the film and photograph.

Drawings

Fig. 1 is a schematic perspective view of a weightless movie studio according to example 1;

fig. 2 is a schematic combined three-dimensional structure diagram of all the bases, the limiting wheel seats, the limiting wheels, the gear motor assemblies and the universal couplings of the weightless film shooting shed in embodiment 1;

fig. 3 is a schematic combined three-dimensional structure diagram of a set of bases, a limiting wheel seat and a limiting wheel of the weightless film shooting booth in embodiment 1;

FIG. 4 is a schematic perspective view of a rotary cabin of the weightless movie studio of example 1;

fig. 5 is a reference diagram of the weightless movie studio of example 1.

The reference numbers in the above figures are as follows:

a base 100, a first bottom plate 1, a bottom frame member 2, a reinforcing frame 3, a driving wheel mounting plate 4, a second bottom plate 41, a vertical plate 42, a first reinforcing plate 5, a driving wheel seat 6, a third bottom plate 61, a first middle frame 62, a driving wheel connecting plate 63, an active driving wheel 71, a fifth bottom plate 71-1, a first supporting plate 71-2, a second reinforcing plate 71-3, a mounting bearing 71-4, a first shaft 71-5, a first wheel 71-6, a first connecting flange 71-7, a passive driving wheel 72, a sixth bottom plate 72-1, a second supporting plate 72-2, a third reinforcing plate 72-3, a second wheel 72-4,

a limiting wheel seat 200, a fourth bottom plate 201, a second middle frame 202, a limiting wheel connecting plate 203, a limiting wheel 300, a speed reducing motor assembly 400, a speed reducing motor 401, a motor base 402, a power output shaft 403, a second connecting flange 404, a universal coupling 500,

a rotary cabin body 600, a circular main beam 601, a main frame 602, a reinforced connecting cross bar 603, a circular connecting rod 604, a wood plank inner cabin 605,

a boarding and alighting platform 700, an escalator 701, an escalator track 702,

the fixture 800 is photographed.

Detailed Description

(example 1)

Referring to fig. 1, the weightless film shooting booth of the present embodiment includes 4

bases

100, 4 limiting

wheel seats

200, 4 limiting wheels 300, a speed

reduction motor assembly

400, 4 universal couplings 500, a rotary cabin 600, and an upper and lower passenger platform 700.

Referring to fig. 2 and 3, the base 100 includes three first base plates 1, a bottom frame member 2, three reinforcing frames 3, two driving

wheel mounting plates

4, 4 first reinforcing plates 5, four driving wheel seats 6, an active driving wheel 71 and a passive driving wheel 72. The bottom frame piece 2 is in a cuboid frame shape, three first bottom plates 1 are respectively welded at two ends and the middle of the bottom frame piece 2, and four mounting through holes for being fixedly connected with the ground through chemical bolts are formed in the first bottom plates 1. The three reinforcing frames 3 are uniformly arranged in the bottom frame member 2 at intervals and welded with the inner wall of the frame plate in the long axis direction of the bottom frame member 2, and are used for reinforcing the bearing strength. The upper panel wall of the base frame member 2 is provided with mounting holes for connecting members. The driving wheel mounting plate 4 comprises a second bottom plate and two vertical plates 42 vertically arranged at the upper end part of the second bottom plate 41; mounting holes for mounting the driving wheel seat 6 are formed in the second bottom plate 41 and the vertical plate 42 of the driving wheel mounting plate 4; the two driving wheel mounting plates 4 are fixedly connected to the bottom frame member 2 by the second bottom plate 41 and are located at the two ends above the bottom frame member 2. Two of the 4 first reinforcing plates 5 are vertically and fixedly arranged between the first bottom plate 1 positioned in the middle and the outer wall of the bottom frame piece 2, and a welding mode is adopted in the embodiment; in addition, two first reinforcing plates 5 are respectively and vertically fixed between the outer walls of the first bottom plate 1 and the outer wall of one side of the bottom frame piece 2, and the two first reinforcing plates 5 are respectively and symmetrically arranged on the two sides of the bottom frame piece 2. The driving wheel seat 6 comprises a third bottom plate 61, a first middle frame 62 vertically arranged on the third bottom plate 61 and a driving wheel connecting plate 63 obliquely arranged above the first middle frame 62; the driving wheel connecting plate 63 is obliquely arranged with a high outer part and a low inner part, and the driving wheel connecting plate 63 is provided with a mounting hole for mounting a driving wheel; the two driving wheel seats 6 are respectively mounted on the corresponding driving wheel mounting plates 4 and above the driving wheel mounting plates 4, specifically, the third bottom plate 61 is connected to the second bottom plate 41 of the driving wheel mounting plates 4 by fasteners, and the first middle frame 62 is connected to the corresponding vertical plate 42 by fasteners. The driving wheel seat 6 is used for installing an active driving wheel and a passive driving wheel.

The driving wheel 71 comprises a fifth bottom plate 71-1, two first supporting plates 71-2, two second reinforcing plates 71-3, two mounting bearings 71-4, a first shaft 71-5, a first wheel 71-6 and a first connecting flange 71-200. The fifth bottom plate 71-1 is provided with a mounting through hole for connecting the third bottom plate 61 of the driving wheel seat 6. The first supporting plate 71-2 is vertically arranged on the fifth bottom plate 71-1, and the two first supporting plates 71-2 are oppositely arranged. The second reinforcing plates 71-3 are respectively disposed between the outer walls of the first support plates 71-2 and the fifth base plate 71-1, and the second reinforcing plates 71-3 are perpendicularly connected to both. The first wheel 71-6 is sleeved on the first shaft 71-5, the first shaft 71-5 is mounted on the first supporting plate 71-2 through two mounting bearings 71-4, one end or two ends of the first shaft 71-5 are provided with first connecting flanges 71-7 for synchronous transmission connection of the driving wheels 71 of the plurality of base assemblies, and one end of the first shaft 71-5 of the base assembly of the embodiment is provided with the first connecting flange 71-7. The active driving wheel 71 is mounted on the third bottom plate 61 of one driving wheel seat 6, and specifically, the active driving wheel 71 is connected by its fifth bottom plate 71-1 to the third bottom plate 61 of the corresponding driving wheel seat 6 through a fastener.

The passive driving wheel 72 includes a sixth bottom plate 72-1, two second supporting plates 72-2, two third reinforcing plates 72-3, and a second wheel 72-4. The sixth bottom plate 72-1 is provided with a mounting through hole for connecting the fourth bottom plate 201 of the spacing wheel seat 200. The two second supporting plates 72-2 are vertically arranged on the sixth bottom plate 72-1 and are oppositely arranged, and a third reinforcing plate 72-3 is arranged between the outer wall of the second supporting plate 72-2 and the sixth bottom plate 72-1. The second wheel 72-4 is rotatably disposed on the two second support plates 72-2 and between the two second support plates 72-2. The driven driving wheel 72 is mounted on the third bottom plate 61 of the other driving wheel seat 6, and specifically, the driven driving wheel 72 is connected with the third bottom plate 61 of the corresponding driving wheel seat 6 by a fastener through the sixth bottom plate 72-1 thereof.

Still referring to fig. 2, the geared motor assembly 400 includes a geared motor 401 and a motor mount 402. The reducing motor 401 is installed on the motor base 402, the reducing motor 401 is provided with a power output shaft 403, and two ends of the power output shaft 403 are provided with second connecting flanges 404. The universal coupling 500 is a universal coupling having third connecting flanges at both ends.

Referring to fig. 1 and 2, the 4 bases 100 are arranged in parallel at regular intervals and are flush with each other in front and back, and the driving wheels 71 of the bases 100 are located on the same side. Wherein, the outer ends of the first shafts 71-5 of the driving wheels 71 of the bases 100 at the two ends are provided with first connecting flanges 71-7, and the two ends of the first shafts 71-5 of the driving wheels 71 of the bases 100 in the middle are provided with the first connecting flanges 71-7; the geared motor assembly 400 is disposed between the active drive wheels 71 of the two bases 100 in the middle. Two ends of a power output shaft 403 of the reducing motor 401 are in transmission connection with corresponding universal couplings 500 through second connecting flanges 404, and the other ends of the two universal couplings 500 are in transmission connection with corresponding first shafts 71-5 of driving wheels 71 on two sides of the reducing motor assembly 400 through connecting flanges. The other two universal couplings 500 are respectively in transmission connection with the first shafts 71-5 of the active driving wheels 71 adjacent to the two sides through connecting flanges, so that the power output shaft 403 of the speed reducing motor 401 supplies power to all the active driving wheels 71 through the universal couplings 500.

The limiting wheel seat 200 comprises a fourth bottom plate 201, a second middle frame 202 vertically arranged on the fourth bottom plate 201 and a limiting wheel connecting plate 203 obliquely arranged above the second middle frame 202; the limiting wheel connecting plate 203 is arranged in a mode that the outer part is high and the inner part is low, and a mounting hole for mounting a limiting wheel is formed in the limiting wheel connecting plate 203; two limit wheel seats 200 are respectively installed on the bottom frame member 2 of one base 100 at the end part and are positioned above the frame plate of the bottom frame member 2 in the same side long axis direction, and the other two limit wheel seats 200 are respectively installed on the bottom frame member 2 of the base 100 at the other end part and are positioned above the frame plate of the bottom frame member 2 in the same side long axis direction, specifically, the limit wheel connecting plate 203 is connected with the frame plate of the bottom frame member 2 in the same side long axis direction through a fastener and is positioned at two sides of the center of the frame plate of the bottom frame member 2. The limiting wheel seat 200 is used for mounting a limiting wheel.

The limit wheel 300 is rotatably mounted on the limit wheel coupling plate 203 of the corresponding limit wheel seat 200, and more specifically, the limit wheel 300 is coupled to the limit wheel coupling plate 203 through a mounting shaft and a corresponding bearing and is rotatable with respect to the limit wheel coupling plate 203.

Referring to fig. 4, the rotary cabin 600 includes 4 circular main beams 601, a main frame 602, a reinforced connecting cross bar 603, a circular connecting bar 604, and a wood inner deck 605. The main frame 602 is a rectangular frame formed by cross-connecting steel cross bars and vertical bars, the left and right ends of the main frame 602 are open, and the front, rear, upper and lower surfaces are formed by cross-connecting the cross bars and the vertical bars. The 4 circular ring main beams 601 are uniformly sleeved at the outer end of the main frame 602 at intervals, the circular ring main beams 601 are coaxial with the main frame 602, and the 2 circular ring main beams 601 are positioned at the head end and the tail end of the main frame 602; each ring main beam 601 is connected with the corresponding rod of the main frame 602 through ring connecting rods 604 with uniform angular intervals, in this embodiment, each ring main beam 601 is connected with the corresponding rod of the main frame 602 through 20 ring connecting rods 604, the 20 ring connecting rods 604 are divided into four groups, and each group of ring connecting rods 604 is vertically connected with the vertical rod of the corresponding end surface of the main frame 602. The number of the reinforced connecting cross rods 603 is 18, and the reinforced connecting cross rods 603 are divided into 6 groups, wherein 2 groups of reinforced connecting cross rods 603 are arranged at the upper end and the lower end of the circumferential direction of the circular main beam 601, and the three reinforced connecting cross rods 603 in each group are connected between the circular connecting rods 604 at the same position of the adjacent circular main beams 601; in addition, 4 groups of reinforced connecting cross rods 603 are arranged at the middle upper part and the middle lower part of the front end and the middle upper part and the middle lower part of the rear end of the circular main beam 601, and three reinforced connecting cross rods 603 in each group are connected between the circular connecting rods 604 at the same position of the adjacent circular main beams 601 to reinforce the connecting strength. The wood-based inner deck 605 is formed by paving and fixing fireproof wood-based decks on the front, upper, rear, lower and right end surfaces of the main frame 602 to form a rectangular inner deck with an open left side, and the open left side is an entrance. The inner wall of the wood plank inner cabin 605 is paved by adopting decorative soft packages, and the inner wall is also provided with lighting lamps and the like.

Still referring to fig. 1, the boarding and disembarking platform 700 includes an escalator 701 for an experiencer to enter the rotating cabin 600, and an escalator track 702, the escalator 701 being disposed on the escalator track 702 and being movable on the escalator track 702.

The rotary cabin 600 is disposed on the base 100 and above the base 100, and the rotary cabin 600 is driven by the base 100 to rotate, specifically, the rotary cabin 600 is erected on the driving wheel 71 and the driven driving wheel 72 of the corresponding base 100 by 4 circular main beams 601, so that each circular main beam 601 is in transmission connection by the contact of the outer circumferential surface of the circular main beam with the outer circumferential surface of the corresponding driving wheel 71 and the driven driving wheel 72. The 2 ring main beams 601 located at the head and the tail are axially limited by the corresponding limiting wheels 300 on the base 100, specifically, the corresponding limiting wheels 300 are respectively located at the axial inner sides of the 2 ring main beams 601 located at the head and the tail, and the 2 ring main beams 601 located at the head and the tail are in surface contact with the corresponding 2 outer ring surfaces of the limiting wheels 300 through the ring surfaces of the axial inner sides of the ring main beams 601, so that the whole rotary cabin 600 is axially limited by the two groups of limiting wheels 300.

The stairs 701 are installed at the entrance of the wood-based inner deck 605 of the rotary body 600, and the donor and the examiner enter the wood-based inner deck 605 of the rotary body 600 through the stairs.

Referring to fig. 1 and 5, the base 100 and its components are the basic components of the overall weightless motion picture studio to ensure that the relative positions of the relevant components support the safe operation of all equipment. The base 100 is a composite structure welded by a steel structure and connected with bolts so as to meet the requirements of transportation conditions and convenient installation, and the structure is stable and reliable. The base 100 and the motor base 402 are fixed to the ground by chemical bolts. The wheel train structure including the driving wheel 71, the driven driving wheel 72 and the limiting wheel 300 is a wheel system structure for supporting and driving the rotating cabin 600 of the whole weightless film shooting shed to rotate. When the driving wheel 71 is driven by the motor to rotate, the driving wheel 71 directly contacts with the rotating cabin 600, so as to drive the rotating cabin 600 to rotate. The passive drive wheel 72 functions to support and follow rotation. The limiting wheel 300 is used to limit the movement of the rotary cabin 600 along the axial direction, so that the safe operation of the equipment can be ensured. The driving mechanism is composed of a reduction motor 401 and a universal coupling 500. The driving wheels 71 and the reduction motor 401 are connected by a universal joint 500, and when the reduction motor 401 is energized to rotate, the driving wheels 71 are driven to rotate. After visitor experience person gets into rotatory cabin body 600, rotate by base 100 and actuating mechanism drive cabin body, the weightless film shooting shed of this embodiment still includes shooting equipment 800, shoots equipment 800 and erects the entrance at rotatory cabin body 600, experience person when experiencing, shoots equipment 800 and can shoot it and carry out the film and photograph. The weightless film shooting shed is a shooting shed capable of rotating 360 degrees, and the external part of the rotating cabin body 600 is circular, and the internal part is square. The periphery of the interior of the box body is decorated by adopting decorative soft packages, a carpet is laid on the ground, and the ceiling and the inner wall are provided with lighting lamps. The whole interior of the house is decorated in the form of a luxury hotel corridor.

Before the project experience begins, the tourists roughly know the script, and then under the guidance of the staff, the script is placed in a rolling shooting shed and hung in the rolling shooting shed. After the camera shooting equipment 800 is in place, shooting starts immediately, the shooting shed is controlled by workers and rotates at a constant speed, part of tourists can keep balance through the suspension ropes and complete various performances in the rotating shooting shed, and the tourists can perform according to the script setting in the shooting process and can also perform themselves. Meanwhile, other guests who queue up can see the whole shooting process through the off-site display screen. After shooting is finished, the tourists can choose to add the shot film into the special effect for post-processing, and take away the 'customized' film belonging to the tourists.

It should be understood that the above examples are only for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And such obvious changes and modifications which fall within the spirit of the invention are deemed to be covered by the scope of the invention.

Claims

1. A weightless film shooting shed is characterized in that: the multifunctional cabin comprises a base (100) and a rotary cabin body (600), wherein a driving wheel set is arranged on the base (100), and the rotary cabin body (600) is arranged on the base (100); the base (100) drives the rotating cabin (600) to rotate through the driving wheel set.

2. The weightless movie shooting booth according to claim 1, wherein: the device comprises at least 3 bases (100), 4 limiting wheels (300), a speed reducing motor assembly (400) and a universal coupling (500);

one end of the base (100) is provided with an active driving wheel (71) which is arranged in an inclined way with a high outside and a low inside, and the other end is provided with a passive driving wheel (72) which is arranged in an inclined way with a high outside and a low inside; the bases (100) are uniformly arranged in parallel at intervals, and the driving wheels (71) of the bases (100) are positioned on the same side; the axial direction of the driving wheel (71) is horizontal and vertical to the axial direction of the base (100);

the speed reducing motor assembly (400) comprises a speed reducing motor (401) and a motor base (402); the speed reducing motor (401) is arranged on the motor base (402), and the speed reducing motor (401) is provided with a power output shaft (403); the speed reducing motor (401) is in transmission connection with all driving wheels (71) through universal couplings (500);

the 4 limiting wheels (300) are divided into two groups and are respectively arranged on the inner sides of the middle parts of the bases (100) at the two ends and are arranged in an inclined mode with high outside and low inside, and the 2 limiting wheels (300) of each group are symmetrically arranged relative to the center of the base (100) where the limiting wheels are installed.

3. The weightless movie shooting booth according to claim 2, wherein: the base (100) comprises three first bottom plates (1), a bottom frame member (2), two driving wheel mounting plates (4), two driving wheel seats (6), an active driving wheel (71) and a passive driving wheel (72); the bottom frame piece (2) is in a cuboid frame shape, and an installation hole for connecting the parts is formed in the upper plate wall of the bottom frame piece (2); the three first bottom plates (1) are respectively welded and connected to the two ends and the middle part of the bottom frame piece (2), and the driving wheel mounting plate (4) comprises a second bottom plate and two vertical plates (42) vertically arranged at the upper end part of the second bottom plate (41); mounting holes for mounting the driving wheel seat (6) are formed in the second bottom plate (41) and the vertical plate (42) of the driving wheel mounting plate (4); the two driving wheel mounting plates (4) are fixedly connected to the bottom frame piece (2) through second bottom plates (41) and are positioned at two ends above the bottom frame piece (2); the driving wheel seat (6) comprises a third bottom plate (61), a first middle frame (62) vertically arranged on the third bottom plate (61) and a driving wheel connecting plate (63) obliquely arranged above the first middle frame (62); the driving wheel connecting plate (63) is obliquely arranged with a high outer part and a low inner part, and the driving wheel connecting plate (63) is provided with a mounting hole for mounting a driving wheel; the two driving wheel seats (6) are respectively arranged on the corresponding driving wheel mounting plates (4) and are positioned above the driving wheel mounting plates (4);

the driving wheel (71) comprises a fifth bottom plate (71-1), two first supporting plates (71-2), two second reinforcing plates (71-3), two mounting bearings (71-4), a first shaft (71-5), a first wheel (71-6) and a first connecting flange (71-7); the first supporting plates (71-2) are vertically arranged on the fifth bottom plate (71-1), and the two first supporting plates (71-2) are oppositely arranged; the second reinforcing plates (71-3) are respectively arranged between the outer wall of the first supporting plate (71-2) and the fifth bottom plate (71-1), and the second reinforcing plates (71-3) are vertically connected with the first supporting plate and the fifth bottom plate; the first wheel (71-6) is sleeved on the first shaft (71-5), the first shaft (71-5) is installed on the first supporting plate (71-2) through two installation bearings (71-4), and one end or two ends of the first shaft (71-5) are provided with first connecting flanges (71-7) for synchronous transmission connection of a plurality of driving wheels (71);

the driven driving wheel (72) comprises a sixth bottom plate (72-1), two second supporting plates (72-2), two third reinforcing plates (72-3) and a second wheel (72-4); the two second supporting plates (72-2) are vertically arranged on the sixth bottom plate (72-1) and are oppositely arranged, and a third reinforcing plate (72-3) is arranged between the outer wall of the second supporting plate (72-2) and the sixth bottom plate (72-1); the second wheel (72-4) is rotatably arranged on the two second supporting plates (72-2) and is positioned between the two second supporting plates (72-2); the driven driving wheel (72) is arranged on the third bottom plate (61) of the other driving wheel seat (6).

4. A weightless film studio according to claim 3, wherein: also comprises 4 limit wheel seats (200); the limiting wheel seat (200) comprises a fourth bottom plate (201), a second middle frame (202) vertically arranged on the fourth bottom plate (201) and a limiting wheel connecting plate (203) obliquely arranged above the second middle frame (202); the limiting wheel connecting plate (203) is obliquely arranged with a high outer part and a low inner part; the two limiting wheel seats (200) are respectively arranged on the bottom frame piece (2) of one base (100) at the end part and are positioned above the frame plate of the bottom frame piece (2) in the long axis direction of the same side, and the other two limiting wheel seats (200) are respectively arranged on the bottom frame piece (2) of the base (100) at the other end part and are positioned above the frame plate of the bottom frame piece (2) in the long axis direction of the same side; the limiting wheel (300) is rotatably arranged on the limiting wheel connecting plate (203) of the corresponding limiting wheel seat (200).

5. A weightless film studio according to claim 3, wherein: the base (100) further comprises three reinforcing frames (3); the three reinforcing frames (3) are uniformly arranged in the bottom frame piece (2) at intervals and are welded with the inner wall of the frame plate of the bottom frame piece (2) in the long axis direction; the base (100) further comprises 4 first reinforcing plates (5); two of the 4 first reinforcing plates (5) are vertically and fixedly arranged between the first bottom plate (1) positioned in the middle and the outer wall of the bottom frame member (2); in addition, two first reinforcing plates (5) are respectively and vertically fixed between the first bottom plate (1) positioned at two ends and the outer wall of one side of the bottom frame member (2), and the two first reinforcing plates (5) are respectively positioned on the two sides of the bottom frame member (2) and are arranged in a central symmetry mode.

6. A weightless film studio according to claim 3, wherein: the driving wheel seat (6) is connected with a second bottom plate (41) of the driving wheel mounting plate (4) through a third bottom plate (61) by a fastener, and is connected with a corresponding vertical plate (42) of the driving wheel mounting plate (4) through a first middle frame (62) by a fastener; a fifth bottom plate (71-1) of the driving wheel (71) is provided with a mounting through hole for connecting a third bottom plate (61) of the driving wheel seat (6); the driving wheel (71) is connected with a third bottom plate (61) of the corresponding driving wheel seat (6) through a fifth bottom plate (71-1) through a fastener; a sixth bottom plate (72-1) of the driven driving wheel (72) is provided with a mounting through hole for connecting a fourth bottom plate (201) of the limiting wheel seat (200); the driven driving wheel (72) is connected with the third bottom plate (61) of the corresponding driving wheel seat (6) through a fastener by the sixth bottom plate (72-1).

7. A weightless film studio according to claim 3, wherein: two ends of a power output shaft (403) of the speed reducing motor (401) are provided with second connecting flanges (404); the universal coupling (500) is provided with third connecting flanges at two ends;

the number of the bases (100) is 4, and the 4 bases (100) are uniformly arranged in parallel at intervals and are level front and back; wherein, the outer end of the first shaft (71-5) of the driving wheel (71) of the base (100) at the two ends is provided with a first connecting flange (71-7), and the two ends of the first shaft (71-5) of the driving wheel (71) of the base (100) in the middle are provided with first connecting flanges (71-7); the speed reducing motor assembly (400) is arranged between the driving wheels (71) of the two bases (100) in the middle; two ends of a power output shaft (403) of the speed reducing motor (401) are in transmission connection with corresponding universal couplings (500) through second connecting flanges (404), and the other ends of the two universal couplings (500) are in transmission connection with corresponding first shafts (71-5) of driving wheels (71) on two sides of the speed reducing motor assembly (400) through connecting flanges; the other two universal couplings (500) are respectively in transmission connection with the first shafts (71-5) of the driving wheels (71) adjacent to the two sides through connecting flanges, so that the power output shaft (403) of the speed reducing motor (401) provides power for all the driving wheels (71) through the universal couplings (500).

8. A weightless film shooting booth according to any one of claims 2 to 7, wherein: the rotary cabin body (600) comprises circular main beams (601), main frames (602), reinforced connecting cross rods (603), circular connecting rods (604) and wood inner planking cabins (605), wherein the number of the circular main beams is consistent with that of the bases (100);

the main frame (602) is a cuboid frame formed by connecting steel cross rods and steel vertical rods in a staggered manner, the left end and the right end of the main frame (602) are open, and the front surface, the rear surface, the upper surface and the lower surface are formed by connecting the cross rods and the vertical rods in a staggered manner; the circular main beams (601) are uniformly sleeved at the outer end of the main frame (602) at intervals, and the circular main beams (601) are coaxial with the main frame (602); each ring main beam (601) is connected with a corresponding rod of the main frame (602) through ring connecting rods (604) with uniform angular intervals; the reinforced connecting cross rod (603) is connected between the ring connecting rods (604) at the same position of the adjacent ring main beams (601); the wood floor inner cabin (605) is paved and fixed on the front, upper, rear, lower and right end surfaces of the main frame (602) by adopting a fireproof wood floor to form a cuboid-shaped inner cabin with an open left side;

the rotary cabin body (600) is positioned above the base (100), the rotary cabin body (600) is driven to rotate by the base (100), the rotary cabin body (600) is respectively erected on the driving wheel (71) and the driven driving wheel (72) of the corresponding base (100) by 4 circular main beams (601), and therefore each circular main beam (601) is in transmission connection by the contact of the outer circumferential surface of the circular main beam with the outer circumferential surfaces of the corresponding driving wheel (71) and the driven driving wheel (72); 2 ring main beams (601) that are located the head and the tail both sides are spacing in the axial by spacing wheel (300) on corresponding base (100), corresponding spacing wheel (300) are located the axial inboard of 2 ring main beams (601) of head and tail both sides respectively, 2 ring main beams (601) that are located the head and the tail both sides are by the contact of its axial inboard anchor ring and corresponding 2 spacing wheel (300) outer periphery ring face to whole rotatory cabin body (600) is spacing by two sets of spacing wheels (300) in the axial.

9. The weightless movie shooting booth according to claim 8, wherein: the number of the bases (100) is 4, the number of the ring main beams (601) is 4, and 2 ring main beams (601) are positioned at the head end and the tail end of the main frame (602);

the number of the reinforced connecting cross rods (603) is 18, and the reinforced connecting cross rods are divided into 6 groups, wherein 2 groups of reinforced connecting cross rods (603) are arranged at the upper end and the lower end of the circumferential direction of the circular main beam (601), and the three reinforced connecting cross rods (603) of each group are connected between the reinforced connecting cross rods (603) at the same position of the adjacent circular main beams (601); the other four groups of reinforced connecting cross rods (603) are arranged at the middle upper part and the middle lower part of the front end and the middle upper part and the middle lower part of the rear end of the circular main beam (601); each ring main beam (601) is connected with a corresponding rod of the main frame (602) through 20 ring connecting rods (604), the 20 ring connecting rods (604) are divided into four groups, and each group of ring connecting rods (604) is vertically connected with a vertical rod of the corresponding end surface of the main frame (602); the inner wall of the wood plank inner cabin (605) is paved by adopting decorative soft packages, and the inner wall is also provided with a lighting lamp.

10. The weightless movie shooting booth according to claim 2, wherein: the system also comprises an upper platform, a lower platform (700) and shooting equipment (800); the boarding and alighting platform (700) comprises an escalator (701) and an escalator track (702), wherein the escalator (701) is arranged on the escalator track (702) and can move on the escalator track (702); the staircase (701) is erected at the entrance of the wood plank inner cabin (605) of the rotary cabin body (600); the shooting equipment (800) is erected at the entrance of the rotary cabin body (600) when in use.