CN109550269A

CN109550269A - Virtual reality viewing platform

Info

Publication number: CN109550269A
Application number: CN201910087816.5A
Authority: CN
Inventors: 高晓燕; 孙秋霞; 韩庆田; 全永亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-01-29
Filing date: 2019-01-29
Publication date: 2019-04-02

Abstract

The invention discloses virtual reality viewing platforms, including viewing seat and supporting mechanism, the top of supporting mechanism is arranged in viewing seat, viewing seat is made of seat main body and nest lid, operation handrail is provided on seat main body, nest lid is hinged by rotational pin and the lateral wall of seat main body two sides, nest lid offers air-flow simulation chamber on the side wall of seat main body side, the both ends of air-flow simulation chamber are communicated with U-shaped tracheae, a kind of virtual reality viewing platform of the present invention can be supported viewing seat by the supporting mechanism being arranged, by the amplitude component of setting multidirectional free movement can be carried out to viewing seat, the placement of firm stable can be carried out to device by the stabilization component of setting, so that device is determined substrate when in use and will not be shaken, pass through the nest lid of setting, air-flow and water mist can be simulated, it is more true The real environment simulated in power supply, greatly improves the experience sense of viewing person.

Description

Virtual reality viewing platform

Technical field

The present invention relates to virtual reality viewing platforms, belong to virtual reality device technical field.

Background technique

Virtual reality technology is a kind of computer simulation system that can be created with the experiencing virtual world, it utilizes computer A kind of simulated environment is generated, is that a kind of system of the interactive Three-Dimensional Dynamic what comes into a driver's and entity behavior of Multi-source Information Fusion is imitative Very, it is immersed to user in the environment.Existing virtual reality viewing platform is using small-sized hydraulic seat mostly, and dullness is weary Taste, viewing person can not experience the ambient conditions in film, so that the experience sense of viewing person is poor.

Summary of the invention

The present invention provides virtual reality viewing platform, effective solution problems of the prior art.

In order to solve the above-mentioned technical problems, the present invention provides the following technical solutions:

Virtual reality viewing platform of the present invention, including viewing seat and supporting mechanism, the viewing seat are arranged in supporting mechanism Top, the viewing seat is made of seat main body and nest lid, and operation handrail, the nest lid are provided on the seat main body Hinged by rotational pin and the lateral wall of seat main body two sides, the nest lid offers gas on the side wall of seat main body side The both ends of flow field simulation chamber, the air-flow simulation chamber are communicated with U-shaped tracheae, and the other end of two U-shaped tracheaes is communicated with Airflow diversion pipe, two airflow diversion pipes far from air-flow simulation chamber side tube wall on be respectively communicated with hot wind air inlet pipe and Cold wind air inlet pipe is provided with the first solenoid valve on the tube wall of the hot wind air inlet pipe, is arranged on the tube wall of the cold wind air inlet pipe There is second solenoid valve.

As a preferred technical solution of the present invention, the airflow diversion pipe is provided with close to the side of air-flow simulation chamber Water mist isocon, the water mist isocon are communicated with several simulation water mist pipes, institute on the tube wall of air-flow simulation chamber side It states there are five simulation water mist pipe sets, and five simulation water mist pipes are provided with the on the tube wall of water mist isocon one end Three solenoid valves, the simulation water mist pipe all extend to the inside of air-flow simulation chamber, open up on the tube wall of the simulation water mist pipe There are several spraying through-holes, the water mist isocon is communicated with water mist air inlet pipe, institute on the tube wall far from simulation water mist pipe side It states hot wind air inlet pipe, cold wind air inlet pipe and water mist air inlet pipe and extends nest lid, the U-shaped gas far from one end of air-flow simulation chamber Pipe, airflow diversion pipe, hot wind air inlet pipe, cold wind air inlet pipe, water mist isocon and water mist air inlet pipe rabbet the inner wall in nest lid On.

As a preferred technical solution of the present invention, the supporting mechanism is by amplitude component and stablizes component and forms, institute It states amplitude component and is formed by determining substrate, the first Electrohydraulic push rod and dynamic substrate, six first Electrohydraulic push rods and determine substrate and move Substrate forms six degree of freedom platform, and first Electrohydraulic push rod setting is being determined between substrate and dynamic substrate, and described determine substrate and set It sets in the lower section of the first Electrohydraulic push rod, the top of the first Electrohydraulic push rod is arranged in the dynamic substrate, and first Electrohydraulic push rod is set There are six setting, six first Electrohydraulic push rods are hinged with the first ears ring seat close to the one end for determining substrate, and described first pair Earring seats are fixedly connected at the top for determining substrate, and six first Electrohydraulic push rods are hinged with the close to one end of dynamic substrate Two ears ring seats, the second ears ring seat are fixedly connected in the bottom of dynamic substrate, and the seat main body is fixedly connected on dynamic The lower section of amplitude component is arranged in the central location of substrate top, the stable component.

As a preferred technical solution of the present invention, the stable component by bottom plate, connecting rod, the second Electrohydraulic push rod, Castor, vacuum generator, vacuum chuck and connecting tube form, and the four corners at the top of the bottom plate are fixedly connected to connecting rod, The other end of the connecting rod with determine substrate and be fixedly connected, there are four second Electrohydraulic push rod is set, four second electricity Liquid push rod is separately positioned on the four corners for determining base plate bottom, and four second Electrohydraulic push rods are arranged at the interior of connecting rod One end of side, four second Electrohydraulic push rods is fixedly connected with substrate is determined, and the other end of four second Electrohydraulic push rods is equal It is fixedly connected with castor, the position of corresponding four castors offers sliding groove on the bottom plate, and the size of the sliding groove is big Central location at the top of the size of castor, the bottom plate is provided with vacuum generator, the central location edge of the bottom base plate It is embedding to be connected with vacuum chuck, and the vacuum chuck is connect by connecting tube with vacuum generator.

As a preferred technical solution of the present invention, the spraying through-hole setting is in simulation water mist pipe close to nest lid center The position of point.

As a preferred technical solution of the present invention, the hot wind air inlet pipe, cold wind air inlet pipe and water mist air inlet pipe are equal It is made of rubber hose, and the hot wind air inlet pipe, cold wind air inlet pipe and water mist air inlet pipe are extended one end of nest lid and connected respectively It is connected to air-heater, air-cooler and atomizer.

As a preferred technical solution of the present invention, protective frame, the protective frame are provided at the top of the dynamic substrate It is fixedly connected with dynamic substrate.

As a preferred technical solution of the present invention, it is fixedly connected with mounting plate on the side wall of described bottom plate one end, institute It states and is fixedly connected with storage tank at the top of mounting plate, the top of the storage tank is hinged with case lid close to one end of supporting mechanism, The case lid is provided with lockset far from the bottom of supporting mechanism one end, and solid on outer wall of the protective frame far from storage tank side Surely it is connected with storing basket.

As a preferred technical solution of the present invention, elastometric boot, the rubber are socketed on the outside of the amplitude component The inner wall at glue protective jacket both ends is fixedly connected with the lateral wall of dynamic substrate and bottom plate respectively.

The beneficial effects obtained by the present invention are as follows being: the supporting mechanism that a kind of virtual reality viewing platform of the present invention passes through setting Viewing seat can be supported, multidirectional free movement can be carried out to viewing seat by the amplitude component of setting, The placement that can carry out firm stable to device by the stabilization component of setting, so that device is determined substrate when in use and will not be shaken It is dynamic, by the nest lid of setting, air-flow and water mist can be simulated, more really simulate the environment in power supply, greatly The experience sense for improving viewing person.

Detailed description of the invention

Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention It applies example to be used to explain the present invention together, not be construed as limiting the invention.In the accompanying drawings:

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of viewing seat in the present invention；

Fig. 3 is the structural schematic diagram of amplitude component in the present invention；

Fig. 4 is the structural schematic diagram of nest lid in the present invention.

In figure: 1, viewing seat；2, supporting mechanism；3, amplitude component；4, stablize component；5, seat main body；6, operation is helped Hand；7, nest lid；8, rotational pin；9, air-flow simulates chamber；10, U-shaped tracheae；11, airflow diversion pipe；12, hot wind air inlet pipe；13, cold Wind air inlet pipe；14, the first solenoid valve；15, second solenoid valve；16, water mist pipe is simulated；17, spraying through-hole；18, water mist isocon； 19, third solenoid valve；20, water mist air inlet pipe；21, determine substrate；22, the first ears ring seat；23, the first Electrohydraulic push rod；24, base is moved Plate；25, the second ears ring seat；26, protective frame；27, storing basket；28, bottom plate；29, connecting rod；30, the second Electrohydraulic push rod；31, Castor；32, sliding groove；33, vacuum generator；34, vacuum chuck；35, connecting tube；36, elastometric boot；37, mounting plate； 38, storage tank；39, case lid；40, lockset.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment: as shown in Figs 1-4, virtual reality viewing platform of the present invention, including viewing seat 1 and supporting mechanism 2, institute The top that supporting mechanism 2 is arranged in viewing seat 1 is stated, the viewing seat 1 is made of seat main body 5 and nest lid 7, the seat Operation handrail 6 is provided in main body 5, the nest lid 7 is hinged by rotational pin 8 and the lateral wall of 5 two sides of seat main body, the nest Lid 7 offers air-flow simulation chamber 9 on the side wall of 5 side of seat main body, and the both ends of the air-flow simulation chamber 9 are communicated with U Type tracheae 10, the other end of two U-shaped tracheaes 10 are communicated with airflow diversion pipe 11, and described two airflow diversion pipes 11 are remote Hot wind air inlet pipe 12 and cold wind air inlet pipe 13, the hot wind air inlet pipe have been respectively communicated on tube wall from air-flow simulation 9 side of chamber It is provided with the first solenoid valve 14 on 12 tube wall, is provided with second solenoid valve 15 on the tube wall of the cold wind air inlet pipe 13.

The airflow diversion pipe 11 is provided with water mist isocon 18 close to the side of air-flow simulation chamber 9, and the water mist shunts Pipe 18 is communicated with several simulation water mist pipes 16 on the tube wall of air-flow simulation 9 side of chamber, and the simulation water mist pipe 16 is equipped with Five, and five simulation water mist pipes 16 are provided with third solenoid valve 19 on the tube wall of 18 one end of water mist isocon, The simulation water mist pipe 16 all extends to the inside of air-flow simulation chamber 9, if offering on the tube wall of the simulation water mist pipe 16 A spraying through-hole 17 is done, is communicated with water mist air inlet pipe on the tube wall of the water mist isocon 18 far from simulation 16 side of water mist pipe 20, the hot wind air inlet pipe 12, cold wind air inlet pipe 13 and water mist air inlet pipe 20 extend nest lid far from one end of air-flow simulation chamber 9 7, the U-shaped tracheae 10, airflow diversion pipe 11, hot wind air inlet pipe 12, cold wind air inlet pipe 13, water mist isocon 18 and water mist air inlet Pipe 20 is rabbeted on the inner wall of nest lid 7.

The supporting mechanism 2 is by amplitude component 3 and stablizes component 4 and forms, and the amplitude component 3 is by determining substrate 21, first Electrohydraulic push rod 23 and dynamic substrate 24 form, six first Electrohydraulic push rods 23 with determine six freedom of substrate 21 and the composition of dynamic substrate 24 Platform is spent, first Electrohydraulic push rod 23 setting is being determined between substrate 21 and dynamic substrate 24, and described determine substrate 21 and be arranged the The top of the first Electrohydraulic push rod 23, first Electrohydraulic push rod 23 is arranged in the lower section of one Electrohydraulic push rod 23, the dynamic substrate 24 There are six settings, and six first Electrohydraulic push rods 23 are hinged with the first ears ring seat 22, institute close to the one end for determining substrate 21 It states the first ears ring seat 22 to be fixedly connected at the top for determining substrate 21, six first Electrohydraulic push rods 23 are close to dynamic substrate 24 One end be hinged with the second ears ring seat 25, the second ears ring seat 25 is fixedly connected in the bottom of dynamic substrate 24, institute The central location that seat main body 5 is fixedly connected on dynamic 24 top of substrate is stated, the stable component 4 is arranged under amplitude component 3 Side.

The stable component 4 is by bottom plate 28, connecting rod 29, the second Electrohydraulic push rod 30, castor 31, vacuum generator 33, true Suction disk 34 and connecting tube 35 form, and the four corners at 28 top of bottom plate are fixedly connected to connecting rod 29, the connecting rod 29 other end with determine substrate 21 and be fixedly connected, there are four second Electrohydraulic push rod 30 is set, four described second electro-hydraulic are pushed away Bar 30 is separately positioned on the four corners for determining 21 bottom of substrate, and four second Electrohydraulic push rods 30 are arranged at connecting rod 29 Inside, one end of four second Electrohydraulic push rods 30 are fixedly connected with substrate 21 is determined, four second Electrohydraulic push rods 30 The other end is fixedly connected to castor 31, and the position of corresponding four castors 31 offers sliding groove 32, institute on the bottom plate 28 The size for stating sliding groove 32 is greater than the size of castor 31, and the central location at 28 top of bottom plate is provided with vacuum generator 33, The central location of 28 bottom of bottom plate, which is inlayed, is connected with vacuum chuck 34, and the vacuum chuck 34 is by connecting tube 35 and very Empty generator 33 connects.

Simulation water mist pipe 16 is arranged in close to the position of 7 central point of nest lid in the spraying through-hole 17, so that user can be with Comprehensive experiences spraying to for simulation water mist.

The hot wind air inlet pipe 12, cold wind air inlet pipe 13 and water mist air inlet pipe 20 are made of rubber hose, and the heat One end that wind air inlet pipe 12, cold wind air inlet pipe 13 and water mist air inlet pipe 20 extend nest lid 7 is connected separately with air-heater, air-cooler And atomizer, rubber hose due to material, have preferable elastic force, can arbitrary stretch bending, air-heater, air-cooler Air distribution can be carried out respectively to hot wind air inlet pipe 12, cold wind air inlet pipe 13 and water mist air inlet pipe 20 with atomizer and send mist.

The top of the dynamic substrate 24 is provided with protective frame 26, and the protective frame 26 is fixedly connected with dynamic substrate 24, protection Frame 26 can protect viewing seat 1.

Mounting plate 37 is fixedly connected on the side wall of described 28 one end of bottom plate, the top of the mounting plate 37 is fixedly connected with The top of storage tank 38, the storage tank 38 is hinged with case lid 39 close to one end of supporting mechanism 2, and the case lid 39 is far from support The bottom of 2 one end of mechanism is provided with lockset 40, and is fixedly connected on outer wall of the protective frame 26 far from 38 side of storage tank Storing basket 27, storage tank 38 can store the personal effects of user, and the lockset 40 of setting stores the personal effects Safer, storing basket 27 can store VR glasses and headset and other items.

Be socketed with elastometric boot 36 on the outside of the amplitude component 3, the inner wall at 36 both ends of elastometric boot respectively with Dynamic substrate 24 is fixedly connected with the lateral wall of bottom plate 28, effectively can carry out security protection to amplitude component 3.

It, can be with by the operation handrail 6 of setting specifically, the present invention is in use, experiencer is sitting in the inside of seat main body 5 The direction flown in image can be controlled with shake operation handrail 6 with game interaction, facilitate viewing such as when playing flying games Person operates, and then, rotates to nest lid 7, viewing seat 1 is combined into the egg shape of a standard, viewing person stays it In have the experience sense in spaceship aviation cabin, viewing experience is stronger, and in viewing, amplitude component 3 starts, and amplitude component 3 uses Be six degree of freedom platform, under the driving of six group of first Electrohydraulic push rod 23, can drive viewing seat 1 carry out it is comprehensive from By moving, the elastometric boot 36 of setting can effectively prevent the inside that dust enters to device, so that device uses the longevity Order it is longer, when encountering the segment of flight in image, can according to the height of temperature in image, it is selective using hot wind still Hot wind and cold wind can be blown out out of air-flow simulation chamber 9, be made by hot wind air inlet pipe 12 or cold wind air inlet pipe 13 by cold wind Viewing person experience sense it is more preferable, when encountering the greasy weather in image, while when personage fast moves in image, can by water mist into Fog is discharged tracheae 20 by simulating water mist pipe 16, what five simulation water mist pipes 16 can be controlled individually, while every The position that root simulates spraying through-hole 17 on water mist pipe 16 is different, and viewing person's experience sense can be made to further increase, meanwhile, The stabilization component 4 that the present invention is arranged can be supported device, and when platform is moved, the second Electrohydraulic push rod 30 will Castor 31 is pushed towards ground, when castor 31 supports device, platform can easily be pushed to carry out by castor 31 Mobile, when platform needs that placement is fixed, bottom plate 28 and ground face contact start vacuum generator 33, will by connecting tube 35 Air extraction inside vacuum chuck 34, so that vacuum chuck 34 is under atmospheric pressure, firm absorption is on the ground.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims

1. virtual reality viewing platform, which is characterized in that including viewing seat (1) and supporting mechanism (2), the viewing seat (1) it is arranged in the top of supporting mechanism (2), the viewing seat (1) is made of seat main body (5) and nest lid (7), the seat Operation handrail (6) is provided in main body (5), the nest lid (7) passes through the lateral wall of rotational pin (8) and seat main body (5) two sides Hingedly, the nest lid (7) offers air-flow simulation chamber (9) on the side wall of seat main body (5) side, and the air-flow simulates chamber (9) both ends are communicated with U-shaped tracheae (10), and the other end of two U-shaped tracheaes (10) is communicated with airflow diversion pipe (11), hot wind air inlet pipe has been respectively communicated on tube wall of two airflow diversion pipes (11) far from air-flow simulation chamber (9) side (12) and cold wind air inlet pipe (13) the first solenoid valve (14), the cold wind, are provided on the tube wall of the hot wind air inlet pipe (12) Second solenoid valve (15) are provided on the tube wall of air inlet pipe (13).

2. virtual reality viewing platform according to claim 1, which is characterized in that the airflow diversion pipe (11) is close to gas The side of flow field simulation chamber (9) is provided with water mist isocon (18), and the water mist isocon (18) simulates chamber (9) side close to air-flow Tube wall on be communicated with several simulations water mist pipe (16), there are five the simulation water mist pipe (16) sets, and five simulations Water mist pipe (16) is provided with third solenoid valve (19) on the tube wall of water mist isocon (18) one end, the simulation water mist pipe (16) inside of air-flow simulation chamber (9) is all extended to, it is spraying to offer several on the tube wall of simulation water mist pipe (16) Through-hole (17), the water mist isocon (18) are communicated with water mist air inlet pipe on the tube wall far from simulation water mist pipe (16) side (20), the one end of the hot wind air inlet pipe (12), cold wind air inlet pipe (13) and water mist air inlet pipe (20) far from air-flow simulation chamber (9) Extend nest lid (7), the U-shaped tracheae (10), airflow diversion pipe (11), hot wind air inlet pipe (12), cold wind air inlet pipe (13), water Mist isocon (18) and water mist air inlet pipe (20) are rabbeted on the inner wall of nest lid (7).

3. virtual reality viewing platform according to claim 1, which is characterized in that the supporting mechanism (2) is by amplitude group Part (3) and stablize component (4) composition, the amplitude component (3) is by determining substrate (21), the first Electrohydraulic push rod (23) and dynamic substrate (24) it forms, six first Electrohydraulic push rods (23) and determine substrate (21) and dynamic substrate (24) forms six degree of freedom platform, institute State the first Electrohydraulic push rod (23) setting determining between substrate (21) and dynamic substrate (24), and it is described determine substrate (21) setting first The lower section of Electrohydraulic push rod (23), in the top of the first Electrohydraulic push rod (23), described first electro-hydraulic is pushed away for dynamic substrate (24) setting There are six bar (23) settings, and six first Electrohydraulic push rods (23) are hinged with the first ears close to the one end for determining substrate (21) Ring seat (22), the first ears ring seat (22) are fixedly connected at the top for determining substrate (21), and six described first electro-hydraulic push away Bar (23) is hinged with the second ears ring seat (25) close to the one end of dynamic substrate (24), and the second ears ring seat (25) is fixed It is connected to the bottom of dynamic substrate (24), the seat main body (5) is fixedly connected on the central location at the top of dynamic substrate (24), described Stablize component (4) setting in the lower section of amplitude component (3).

4. virtual reality viewing platform according to claim 3, which is characterized in that the stable component (4) is by bottom plate (28), connecting rod (29), the second Electrohydraulic push rod (30), castor (31), vacuum generator (33), vacuum chuck (34) and connecting tube (35) form, the four corners at the top of the bottom plate (28) are fixedly connected to connecting rod (29), the connecting rod (29) it is another End with determine substrate (21) and be fixedly connected, there are four second Electrohydraulic push rod (30) sets, four second Electrohydraulic push rods (30) four corners for determining substrate (21) bottom are separately positioned on, and four second Electrohydraulic push rods (30) are arranged at connecting rod (29) inside, one end of four second Electrohydraulic push rods (30) are fixedly connected with substrate (21) is determined, four second electricity The other end of liquid push rod (30) is fixedly connected to castor (31), and the position of corresponding four castors (31) is equal on the bottom plate (28) Offer sliding groove (32), the size of the sliding groove (32) is greater than the size of castor (31), at the top of the bottom plate (28) in Centre position is provided with vacuum generator (33), and the central location of bottom plate (28) bottom, which is inlayed, is connected with vacuum chuck (34), And the vacuum chuck (34) is connect by connecting tube (35) with vacuum generator (33).

5. virtual reality viewing platform according to claim 2, which is characterized in that described spraying through-hole (17) are arranged in mould Quasi- water mist pipe (16) are close to the position of nest lid (7) central point.

6. virtual reality viewing platform according to claim 2, which is characterized in that the hot wind air inlet pipe (12), cold wind Air inlet pipe (13) and water mist air inlet pipe (20) are made of rubber hose, and the hot wind air inlet pipe (12), cold wind air inlet pipe (13) extend one end of nest lid (7) with water mist air inlet pipe (20) and be connected separately with air-heater, air-cooler and atomizer.

7. virtual reality viewing platform according to claim 3, which is characterized in that the top of the dynamic substrate (24) is arranged Have protective frame (26), the protective frame (26) is fixedly connected with dynamic substrate (24).

8. virtual reality viewing platform according to claim 4, which is characterized in that on the side wall of described bottom plate (28) one end It is fixedly connected with mounting plate (37), is fixedly connected with storage tank (38) at the top of the mounting plate (37), the storage tank (38) Top be hinged with case lid (39) close to one end of supporting mechanism (2), the case lid (39) far from supporting mechanism (2) one end bottom Portion is provided with lockset (40), and is fixedly connected with storing basket on the outer wall of separate storage tank (38) side of the protective frame (26) (27).

9. virtual reality viewing platform according to claim 3, which is characterized in that socket on the outside of the amplitude component (3) Have elastometric boot (36), the inner wall at elastometric boot (36) both ends outside with dynamic substrate (24) and bottom plate (28) respectively Wall is fixedly connected.