CN111477056A

CN111477056A - Interactive immersive high-temperature image environment simulation experience system

Info

Publication number: CN111477056A
Application number: CN202010412580.0A
Authority: CN
Inventors: 和伟; 方小朋
Original assignee: Nanjing Asipana Wisdom Space Building Co ltd
Current assignee: Nanjing Asipana Wisdom Space Building Co ltd
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2020-07-31

Abstract

The utility model provides an interactive immersive high temperature image environmental simulation experience system, can let people be personally on the experience space of on-the-spot experience realize simulating the 5D cinema of volcanic eruption through setting up one and being used for simulating the volcanic eruption process, and it is through the simulation of experience space environment when spouting the volcanic eruption, lets the human physical stamina feel when volcanic eruption that the earthquake shakes, the shake rolls, meet the experience such as air heat flow. The device includes the active seat, but airtight space, rotatable wind gap, geothermal pipe, the simulation stereo set, core such as VR equipment is constituteed, see through experience and shadow personnel get into airtight space, safe just sit with the active seat on, then wear VR equipment, through the picture in watching equipment, the sound that takes place in the synchronous picture of external equipment, light, heat, vibrations etc. simulate, let see shadow experience personnel and reach the experience of being on the spot, receive beautiful view and the real impression of human body when volcano eruption in experiencing, let people can ensure the safe not hurt of self when experiencing nature strength.

Description

Interactive immersive high-temperature image environment simulation experience system

Technical Field

The invention relates to the field of interactive simulation experience equipment, in particular to an interactive immersion type high-temperature image environment simulation experience system.

Background

With the progress of the times and the continuous development of technologies, more and more advanced devices and advanced tools are used to enable people to know the living environment better and to know the unimaginable changes of the living environment. People who pursue to really experience the charm of the nature gradually become a life style pursued by people to personally experience the charm of the nature. If no professional is used for guidance in dangerous places, protection of professional equipment is easy to enable people to hurt themselves when experiencing the nature, and many changes of the nature are disastrous changes which are difficult to achieve on-site experience, such as volcanic eruption, earthquake and tsunami and the like, which can cause great harm to human beings when occurring.

Disclosure of Invention

In order to solve the problems, the invention provides an interactive immersion type high-temperature image environment simulation experience system, which enables people to experience some natural landscapes under the condition of wearing VR equipment and safety through a virtual technology, experiences places where people cannot reach environmental changes, enables experience personnel to have the best real experience through real simulation of watching the current watching environment, enables people to experience nature in entertainment, meets the requirement of stimulation of people, releases the living pressure of people, enables people to learn some knowledge for protecting the people in the experience places, enables the future life to be beautiful, and achieves the purpose, the interactive immersion type high-temperature image environment simulation experience system comprises a dynamic seat, an equipment room, a sealable box body, a rotatable air duct, an auxiliary air duct, a top end, an air return duct, a transverse air duct, a sound and a geothermal duct, at least two sets of dynamic seats are installed in the closable box body, a side vertical ladder is arranged on one side of each seat, a geothermal pipe for heating is installed on the ground below the equipment room, sound equipment for simulating environmental sound is installed on two sides in the closable box body, a rotatable air port and a transverse air pipe for simulating natural environment air blowing transformation are installed behind the closable box body, an auxiliary air pipe and a top air pipe are installed at the top end of the closable box body, a return air port is installed on the box body on the rear side of the closable box body, the equipment room is installed at the rear end of the closable box body, cabinet type low-noise centrifugal fans are installed on two sides of the middle lower end of the equipment room, and motors of the cabinet type low-noise centrifugal fans are connected with a main air; an auxiliary low-noise centrifugal fan is arranged in the middle of the equipment room and is connected with an auxiliary air pipe; the upper end of the equipment room is provided with a top vent hole, and a power supply control box and a control module which are necessary for a fan are arranged in the equipment room;

the dynamic seat comprises a base supporting spring, a buffer gasket, an electric cabinet, a lifting cylinder, a cylinder buffer gasket, an auxiliary cylinder, a fixed column, a pulley, a seat supporting plate, a seat, a side end handrail, a front end handrail, a slide rail, a single-head telescopic cylinder, a position sensor, a main motor and a servo motor control box, wherein the base at the bottommost end is arranged on the box body, and the base and the upper layer are arranged on a bottom layer bearing plate through the base supporting spring and the buffer gasket; a main motor is arranged between the bottom layer bearing plate and the base, the motor servo motor control box is pressed on the base, an electric control box is arranged at the middle position of the upper side of the bottom layer bearing plate, a lifting cylinder and a cylinder buffer gasket are arranged on the periphery of the upper side of the bottom layer bearing plate and are connected with the lower side of a second layer bearing plate, an auxiliary cylinder is arranged on the periphery of the upper side of the second bearing plate, the upper end of the auxiliary cylinder is a fixed column, a position sensor is arranged at the middle position of the periphery of the auxiliary cylinder, the fixed column is connected with a seat supporting plate through a single-head telescopic cylinder, slide rails are arranged on two sides of the upper side of the seat supporting plate, pulleys are arranged at the bottom end of the seat and are arranged in the slide rails, side end handrails are arranged on two sides of the seat, a front end handrail is arranged at the, the seat adopts the symmetry to set up, seat backup pad four sides below the seat is provided with the position correction ware.

According to the further improvement of the invention, the seat is matched with the safety belt, and the matched safety belt can improve the finishing safety.

The invention is further improved, each air pipe is provided with a closed electric valve for controlling the on-off of air and a normally open fire valve for fire prevention, and the safety can be improved by arranging the corresponding valves.

According to the further improvement of the invention, the air port pipeline of the motor is provided with the silencing pipe, so that the noise can be greatly reduced through the silencing pipe.

According to the further improvement of the invention, the heat-insulation sound-absorbing layer is arranged on the inner side of the closable box body, and the heat-insulation sound-absorbing layer can reduce noise and improve the overall heat of the experience equipment.

The interactive immersion type high-temperature image environment simulation experience system has the following characteristics;

1) the application comprises a closable space which can be changed for the nature, for example; the volcanic eruption environment is maximally simulated, so that experience personnel can have the truest experience under the condition of ensuring safety.

2) This application uses through the cooperation of wind gap and geothermol power pipe of circling round, lets the people can directly experience the shop front and the thermal current when experiencing the volcanic eruption, and sound when supporting sound system can furthest's simulation volcanic eruption increases experience and feels.

3) The application is convenient to operate, small in occupied space, capable of greatly satisfying the experience of pursuing different lives of people, and capable of enabling people to experience charm and ambitious parts of nature without climbing or wading in a forest.

Drawings

FIG. 1 is a general schematic of the present invention;

FIG. 2 is a partial schematic view of the first embodiment of the present invention;

FIG. 3 is a partial schematic view of the present invention;

description of the drawings:

1. a dynamic seat; 1-1, a base; 1-2, a base support spring; 1-3, a buffer gasket; 1-4, an electric cabinet; 1-5, a lifting cylinder; 1-6, cylinder buffer gaskets; 1-7, an auxiliary cylinder; 1-8, fixing columns; 1-9, a pulley; 1-10, a seat support plate; 1-11, a seat; 1-12, side end handrails; 1-13, front end handrail; 1-14, a slide rail; 1-15, single-head telescopic cylinder; 1-16, a position sensor; 1-17, a main motor; 1-18, servo motor control box; 1-19, a side vertical ladder; 1-20, a storage basket; 1-21, a position corrector; 2. A device room; 2-1, cabinet type low noise centrifugal fan; 2-2, assisting a low-noise centrifugal fan; 2-3, a motor; 2-4, a top vent; 2-5, a main air pipe; 2-6, a muffler pipe; 3. the box body can be closed; 4. a rotatable tuyere; 5. an auxiliary air duct; 6. a top air duct; 7. closing the electric valve; 8. a normally open fire damper; 9. an air return opening; 10. a transverse air duct; 11. sounding; 12. a geothermal pipe.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

the invention provides an interactive immersion type high-temperature image environment simulation experience system, which enables people to experience some natural landscapes under the condition of wearing VR equipment and safety through a virtual technology, experiences places where environmental changes cannot be reached by common people, enables experience personnel to have the best real experience through real simulation of watching the current watching environment, enables people to experience the nature in entertainment, meets the stimulation pursuit of people, releases the living pressure of people, and enables people to learn some knowledge for protecting the people in the experience system and to make the future life beautiful.

As an embodiment of the invention, the invention provides an interactive immersion type high-temperature image environment simulation experience system, which comprises a dynamic seat 1, an equipment room 2, a sealable box body 3, a rotatable air port 4, an auxiliary air pipe 5, a top air pipe 6, a return air port 9, a transverse air pipe 10, a sound box 11 and a geothermal pipe 12, wherein at least two sets of dynamic seats 1 are installed in the sealable box body 3, the geothermal pipe 12 used for heating is installed on the ground below the equipment room 2, the sound box 11 used for simulating environmental sound is installed on two sides in the sealable box body 3, the rotatable air port 4 and the transverse air pipe 10 used for simulating natural environment air blowing transformation are installed at the back of the sealable box body 3, the auxiliary air pipe 5 and the top air pipe 6 are installed at the top of the sealable box body 3, the return air port 9 is installed on the box body on the back side of the sealable box body 3, the equipment room 2 is installed at the back end of the, a cabinet type low-noise centrifugal fan 2-1 is arranged on two sides of the middle lower end of the equipment room 2, and a motor 2-3 of the cabinet type low-noise centrifugal fan 2-1 is connected with a main air pipe 2-5; an auxiliary low-noise centrifugal fan 2-2 is arranged in the middle of the equipment room 2, and the auxiliary low-noise centrifugal fan 2-2 is connected with an auxiliary air pipe 5; the upper end of the equipment room 2 is provided with a top vent hole 2-4, a power supply control box and a control module which are necessary for a fan are arranged in the equipment room, the seats 1-11 are symmetrically arranged, and position correctors are arranged on four sides of a seat supporting plate 1-10 below the seats 1-11;

the dynamic seat 1 comprises a base 1-1, base supporting springs 1-2, buffer gaskets 1-3, an electric cabinet 1-4, a lifting cylinder 1-5, cylinder buffer gaskets 1-6, an auxiliary cylinder 1-7, a fixing column 1-8, pulleys 1-9, a seat supporting plate 1-10, a seat 1-11, side end handrails 1-12, front end handrails 1-13, slide rails 1-14, a single-head telescopic cylinder 1-15, a position sensor 1-16, a main motor 1-17 and a servo motor control box 1-18, one side of the seat 1-11 is provided with a side vertical ladder 1-19, the base 1-1 at the bottom end is arranged on the box body, the base 1-1 and the upper layer are arranged on the bottom layer bearing plate through a base supporting spring 1-2 and a buffer gasket 1-3; the main motor 1-17 is arranged between the bottom layer bearing plate and the base 1-1, the motor servo motor control box 1-18 is pressed on the base 1-1, the electric cabinet 1-4 is arranged in the middle of the upper side of the bottom layer bearing plate, the lifting cylinders 1-5 and the cylinder buffer gaskets 1-6 are arranged on the upper side of the bottom layer bearing plate and are connected with the lower side of the second layer bearing plate, the auxiliary cylinders 1-7 are arranged on the upper side of the second layer bearing plate, the upper ends of the auxiliary cylinders 1-7 are fixed columns 1-8, the position sensors 1-16 are arranged in the middle of the periphery, the fixed columns 1-8 are connected with the seat supporting plate 1-10 through single-head telescopic cylinders 1-15, the slide rails 1-14 are arranged on two sides of the upper side of the seat supporting plate 1-10, and the pulleys 1-9 are arranged at the, the pulleys 1-9 are mounted in the sliding rails 1-14, side end handrails 1-12 are mounted on two sides of the seat 1-11, a front end handrail 1-13 is mounted at the front end of the seat, VR equipment for viewing the picture effect is mounted at the top end of a closable line body 3 at the front end of the seat, and all electrical equipment is connected to a controller of the equipment room 2.

As a specific embodiment of the present invention, the present invention provides an interactive immersion type high temperature image environment simulation experience system as shown in fig. 1-3, which comprises a dynamic seat 1, an equipment room 2, a sealable box body 3, a rotatable air inlet 4, an auxiliary air pipe 5, a top air pipe 6, a return air inlet 9, a transverse air pipe 10, a sound 11 and a geothermal pipe 12, wherein the inner side of the sealable box body 3 is provided with a heat preservation and sound absorption layer, the heat preservation and sound absorption layer is arranged to reduce noise and improve the overall heat of the experience equipment, at least two sets of dynamic seats 1 are installed in the sealable box body 3, the geothermal pipe 12 for heating is installed on the ground below the equipment room 2, the sound 11 for simulating environmental sound is installed on two sides in the sealable box body 3, the rotatable air inlet 4 and the transverse air pipe 10 for simulating natural environment blowing transformation are installed behind the sealable box body 3, an auxiliary air pipe 5 and a top air pipe 6 are installed at the top end of the closable box body 3, an air return opening 9 is installed on a box body on the rear side of the closable box body 3, an equipment room 2 is installed at the rear end of the closable box body 3, cabinet type low-noise centrifugal fans 2-1 are installed on two sides of the middle lower end of the equipment room 2, and a motor 2-3 of each cabinet type low-noise centrifugal fan 2-1 is connected with a main air pipe 2-5; an auxiliary low-noise centrifugal fan 2-2 is arranged in the middle of the equipment room 2, and the auxiliary low-noise centrifugal fan 2-2 is connected with an auxiliary air pipe 5; the upper end of the equipment room 2 is provided with a top vent hole 2-4, a power supply control box and a control module which are necessary for a fan are arranged inside the equipment room, an air port pipeline of the motor 2-3 is provided with a silencing pipe 2-6, noise can be greatly reduced through the silencing pipe, each air pipe is provided with a closed electric valve 7 for controlling on-off of air and a normally open fireproof valve 8 for preventing fire in a matching way, and the safety can be improved by arranging a corresponding valve;

the dynamic seat 1 comprises a base 1-1, base supporting springs 1-2, buffer gaskets 1-3, an electric cabinet 1-4, a lifting cylinder 1-5, cylinder buffer gaskets 1-6, an auxiliary cylinder 1-7, a fixing column 1-8, pulleys 1-9, a seat supporting plate 1-10, a seat 1-11, side end handrails 1-12, front end handrails 1-13, slide rails 1-14, a single-head telescopic cylinder 1-15, a position sensor 1-16, a main motor 1-17 and a servo motor control box 1-18, one side of the seat 1-11 is provided with a side vertical ladder 1-19, the base 1-1 at the bottom end is arranged on the box body, the base 1-1 and the upper layer are arranged on the bottom layer bearing plate through a base supporting spring 1-2 and a buffer gasket 1-3; the main motor 1-17 is arranged between the bottom layer bearing plate and the base 1-1, the motor servo motor control box 1-18 is pressed on the base 1-1, the electric control box 1-4 is arranged in the middle of the upper side of the bottom layer bearing plate, the lifting air cylinder 1-5 and the air cylinder buffer gasket 1-6 are arranged on the upper side of the bottom layer bearing plate and are connected with the lower side of the second layer bearing plate, the auxiliary air cylinder 1-7 is arranged on the upper side of the second bearing plate, the upper end of the auxiliary air cylinder 1-7 is a fixed column 1-8, the position sensor 1-16 is arranged in the middle of the periphery, the fixed column 1-8 is connected with the seat supporting plate 1-10 through a single-head telescopic air cylinder 1-15, the seat 1-11 is matched with a safety belt, and the matched safety, the device comprises seat supporting plates 1-10, sliding rails 1-14 are mounted on two sides of the upper sides of the seat supporting plates 1-10, pulleys 1-9 are mounted at the bottom ends of the seats 1-11, the pulleys 1-9 are mounted in the sliding rails 1-14, side end armrests 1-12 are mounted on two sides of the seats 1-11, front end armrests 1-13 are mounted at the front ends of the seats, VR equipment used for viewing picture effects is mounted at the top end of a closable line body 3 at the front ends of the seats, all electrical equipment are connected to a controller of an equipment room 2, the seats 1-11 are symmetrically arranged, and position correctors are arranged on four sides of the seat supporting plates 1-10 below the seats 1-11.

The working principle of the application is as follows:

according to the design, two dynamic seats 1 are arranged in a sealable box body 3, a geothermal pipe 12 is arranged at the lower end of the box body, sound boxes 11 are arranged on two sides of the box body, a rotatable air opening 4 and an auxiliary air opening 5 are arranged at the rear end of the box body, and a top air pipe 6 and a sealed electric valve 7 capable of controlling the on-off of air are arranged at the upper end of the box body. During operation, experience personnel get into can be airtight box 3 in, just sit with dynamic seat 1 on, tie the safety belt, then wear the VR helmet, after preparation work is accomplished, close the sealing door of can airtight box 3, the system begins to operate. Experience personnel first select the project movie & TV that oneself wanted through the VR equipment handle. But each item system in 3 in the airtight box starts the operation after getting into, experience the virtual car that personnel sat carries out natural free journey, in different environment looks, the system produces different breeze, suitable temperature, the worm sounds the environment that the bird is called, volcanic environment can be simulated to this equipment, for example when our experience personnel come the crater, the crater begins to change, send and roll dense smoke, the ground begins to rock, inside virtual environment change is followed to outside simulation environment, dynamic seat 1 is rocked in carrying out the virtual scene by the position that virtual car was located, the sound effect when the crater changes is then simulated to the stereo set of box both sides. Rotatable wind gap 4 and horizontal tuber pipe 10 simulate the environment wind direction of virtual scene, the effect that experiences when experience personnel is being close the crater is just bigger more, when going on the volcanic eruption, the geothermol power pipe begins to generate heat, the internal temperature of box that can seal begins to rise, let experience personnel experience the temperature that is close the crater difference and experience in the scope temperature of safety, rotatory wind gap 4 and horizontal tuber pipe 10 blow off hot-blastly to experience the person according to the wind direction at scene, let it experience feel truer, when volcanic large tracts of land eruption, experience person can also experience the stifling sense that the volcanic ash layer blows to the face under experience personnel safety guarantee's the condition). Through the motion simulation of the virtual environment plot that motion seat 1 was located experience person, the simulation of geothermy to volcanic temperature variation, the stereo set is to the simulation of volcanic explosion sound, rotatable wind direction is to the simulation of air current, and airtight space is to the simulation of volcanic ash place environment, lets experience person's sense of hearing, and many-sided sensory simulation such as vision, sense of touch, sense of smell, body sense lets the people reach an environment on the spot, experiences different sight. People can also reach dangerous volcanic eruption places to perform virtual experience in a safe environment.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but any modifications or equivalent variations made according to the technical spirit of the present invention are within the scope of the present invention as claimed.

Claims

1. The utility model provides an interactive immersive high temperature image environmental simulation experience system, includes dynamic seat (1), equipment room (2), can airtight box (3), rotatable wind gap (4), supplementary tuber pipe (5), top tuber pipe (6), return air inlet (9), horizontal tuber pipe (10), stereo set (11) and geothermol power pipe (12), its characterized in that: at least two sets of dynamic seats (1) are arranged in the closable box body (3), a geothermal pipe (12) for heating is arranged on the ground below the equipment room (2), the two sides in the closed box body (3) are provided with a sound box (11) for simulating the environmental sound, a rotatable air port (4) and a transverse air pipe (10) which simulate natural environment air blowing change are arranged at the back of the closable box body (3), an auxiliary air pipe (5) and a top air pipe (6) are arranged at the top end of the closable box body (3), an air return opening (9) is arranged on the rear side box body of the closable box body (3), the rear end of the box body (3) is provided with an equipment room (2), the two sides of the middle lower end of the equipment room (2) are provided with cabinet type low-noise centrifugal fans (2-1), a motor (2-3) of the cabinet type low-noise centrifugal fan (2-1) is connected with a main air pipe (2-5); an auxiliary low-noise centrifugal fan (2-2) is arranged in the middle of the equipment room (2), and the auxiliary low-noise centrifugal fan (2-2) is connected with an auxiliary air pipe (5); the upper end of the equipment room (2) is provided with a top vent hole (2-4), and a power supply control box and a control module which are necessary for a fan are arranged inside the equipment room;

the dynamic seat (1) comprises a base (1-1), a base supporting spring (1-2), a buffer gasket (1-3), an electric cabinet (1-4), a lifting cylinder (1-5), a cylinder buffer gasket (1-6), an auxiliary cylinder (1-7), a fixed column (1-8), a pulley (1-9), a seat supporting plate (1-10), a seat (1-11), a side end handrail (1-12), a front end handrail (1-13), a slide rail (1-14), a single-head telescopic cylinder (1-15), a position sensor (1-16), a main motor (1-17) and a servo motor control box (1-18), wherein a side vertical ladder (1-19) is arranged on one side of the seat (1-11), and the base (1-1) at the bottom end is arranged on a box body, the base (1-1) and the upper layer are arranged on the bottom layer bearing plate through a base supporting spring (1-2) and a buffer gasket (1-3); the electric chair is characterized in that a main motor (1-17) is arranged between the bottom layer bearing plate and the base (1-1), a motor servo motor control box (1-18) is arranged on the base (1-1), an electric cabinet (1-4) is arranged in the middle of the upper side of the bottom layer bearing plate, lifting cylinders (1-5) and cylinder buffer gaskets (1-6) are arranged on the upper side of the bottom layer bearing plate and are connected with the lower side of the second layer bearing plate, auxiliary cylinders (1-7) are arranged on the periphery of the upper side of the second bearing plate, fixing columns (1-8) are arranged at the upper ends of the auxiliary cylinders (1-7), position sensors (1-16) are arranged in the middle of the periphery of the auxiliary cylinders, and the fixing columns (1-8) are connected with the chair supporting plate (1-10) through single-head, the multifunctional chair comprises chair supporting plates (1-10), sliding rails (1-14) are mounted on two sides of the upper sides of the chair supporting plates (1-10), pulleys (1-9) are mounted at the bottom ends of the chairs (1-11), the pulleys (1-9) are mounted in the sliding rails (1-14), designed side end armrests (1-12) are mounted on two sides of the chairs (1-11), front end armrests (1-13) are mounted at the front ends of the chairs (1-11), VR equipment used for watching picture effects is mounted at the top end of a closable line body (3) at the front ends of the chairs, all electrical equipment are connected to a controller of an equipment room (2), the chairs (1-11) are symmetrically arranged, and position correctors are arranged on four sides of the chair supporting plates (1-10) below.

2. The interactive immersive high-temperature image environment simulation experience system of claim 1, wherein: the seats (1-11) are provided with safety belts.

3. The interactive immersive high-temperature image environment simulation experience system of claim 1, wherein: each air pipe is provided with a closed electric valve (7) for controlling the on-off of air and a normally open fire valve (8) for fire prevention.

4. The interactive immersive high-temperature image environment simulation experience system of claim 1, wherein: and the air port pipeline of the motor (2-3) is provided with a silencing pipe (2-6).

5. The interactive immersive high-temperature image environment simulation experience system of claim 1, wherein: the inner side of the closable box body (3) is provided with a heat-preservation sound-absorbing layer.