CN112599053A - Virtual reality exhibition hall system and method - Google Patents

Abstract

The application relates to a virtual reality exhibition room interaction system, which comprises an exhibition room and a terminal, wherein the exhibition room comprises a plurality of exhibition positions, each exhibition position is provided with virtual reality projection equipment, and the virtual reality projection equipment is used for projecting and imaging to the exhibition positions; the display position is provided with a signal transmitting assembly, and the signal transmitting assembly is used for directionally transmitting signals to form a signal radiation area; the terminal includes virtual reality glasses, is provided with interactive device on the virtual reality glasses, and interactive device includes signal reception subassembly, treater, accumulator and sound player. The application has the following effects: when a user enters a signal radiation area formed by radiation of a signal emitting component arranged on the display position, the signal emitting component and a signal receiving component on the virtual reality glasses receive radiated signals, the processor retrieves corresponding analysis information from the storage, and the controller controls the sound player to play the corresponding analysis information to the user, so that the interactivity between the sound player and the user is improved.

Description

Virtual reality exhibition hall system and method

Technical Field

The present application relates to the field of virtual reality technologies, and in particular, to a virtual reality exhibition hall system and method.

Background

Virtual reality is a computer simulation system, which provides an immersive application experience for users through three-dimensional dynamic views, entity behavior interaction, and the like. The virtual reality equipment has wide application prospect in commercial virtual reality fields such as large-scale virtual reality theme parks, virtual exhibition halls, automobile exhibition and the like.

In the related art, the virtual reality exhibition hall is used by matching the projection of the virtual reality projection equipment with a worn helmet, so that an immersive experience feeling is brought to people.

With respect to the related art in the above, the inventor believes that the immersive virtual reality exhibition hall in the related art is only a helmet viewing projection imaging after wearing virtual reality glasses, and the interactivity with the user is not high.

Disclosure of Invention

In order to improve interactivity of a user in a virtual reality exhibition hall, the application provides a virtual reality exhibition hall system and a virtual reality exhibition hall method.

On one hand, the virtual reality exhibition room system provided by the application adopts the following technical scheme:

a virtual reality exhibition hall interactive system, which comprises an exhibition hall and a terminal,

the exhibition hall comprises a plurality of exhibition positions, each exhibition position is provided with a virtual reality projection device, and the virtual reality projection devices are used for projecting images onto the exhibition positions;

the display position is provided with a signal transmitting assembly, and the signal transmitting assembly is used for directionally transmitting a signal with an instruction to form a signal radiation area;

the terminal comprises virtual reality glasses, an interaction device is arranged on the virtual reality glasses, and the interaction device comprises a signal receiving component, a processor, a storage and a sound player;

the signal receiving assembly is used for receiving the signal transmitted by the signal transmitting assembly under the condition that a user wears the virtual reality glasses to enter the radiation area and transmitting the signal to the processor;

the storage is used for storing a plurality of analysis information used for analyzing the projection imaging on the display positions, and the projection imaging on each display position corresponds to each analysis information one by one;

the sound player is controlled by the processor and is used for playing the analysis information corresponding to the display position to the user;

the processor is used for receiving the signal received by the signal receiving component, decoding the signal to obtain an instruction, searching corresponding analysis information in the memory according to the instruction, and controlling the sound player to play the corresponding analysis information to a user.

By adopting the technical scheme, projection imaging is carried out on the display position in the exhibition hall through the virtual reality projection equipment, and the immersive virtual reality can be observed by wearing the virtual reality glasses;

when a user enters a signal radiation area formed by radiation of a signal emitting component arranged on a display position, a signal radiated by a signal receiving component on the virtual reality glasses is received, corresponding analysis information is retrieved in a storage through a processor, the analysis information is played to the user through a sound player, the controller controls the sound player to play the corresponding analysis information to the user in the radiation area of different display positions, and interactivity between the controller and the user is improved.

Optionally, the signal emission subassembly including set up in infrared transmitter on the display position, the cover is equipped with infrared angle of opening pipe on the infrared transmitter, be provided with the extinction coating on the infrared angle of opening pipe inner wall.

By adopting the technical scheme, the directional emission of the signal emission component to the signal is limited, the possibility that the user receives the signal emitted by other display positions on the current display position and the projection imaging analysis information on other display positions is played is reduced, and the interaction accuracy of the user is improved.

Optionally, the longitudinal opening angle of the infrared opening angle tube is 45 °.

By adopting the technical scheme, the longitudinal opening angle of the infrared opening angle tube is limited to 45 degrees, the possibility that the user receives signals transmitted by other display positions on the current display position and then the projection imaging analysis information on the other display positions is played is further reduced, and the interaction accuracy of the user is improved.

Optionally, the display device further comprises a pressure sensing assembly, an electric control assembly and a controller, wherein the pressure sensing assembly comprises a pressure sensor which is arranged on the floor right in front of each display position and used for sensing the pressure right in front of the display position; the electric control assembly is used for controlling the power-on and power-off conditions of the signal transmitting assemblies arranged on each display position; the controller is used for controlling the signal transmitting assembly to be powered on or powered off according to the sensing condition of the pressure sensor.

Through adopting above-mentioned technical scheme, there is the user before the user senses current display position through the pressure sensing subassembly before the show position, just can switch on the signalling subassembly, and then form the signal radiation region, reduce the user and receive the signal that other display positions transmitted on current display position and lead to playing the possibility of the analytic information of projection formation of image on other display positions, improve the interactive accuracy to the user.

On the other hand, the application method of the virtual reality exhibition hall system provided by the application adopts the following technical scheme:

a use method of a virtual reality exhibition hall system comprises the following steps:

after the user wears the virtual reality glasses and enters the signal radiation range of the display position, the virtual reality glasses analyze the projection imaging on the corresponding display position to the user.

By adopting the technical scheme, when a user enters a signal radiation area formed by radiation of the signal emitting component arranged on the display position, the user receives a radiated signal through the signal receiving component on the virtual reality glasses, corresponding analysis information is searched in the storage through the processor, the analysis information is played to the user through the sound player, in the radiation area entering different display positions, the controller controls the sound player to play the corresponding analysis information to the user, and the interactivity between the controller and the user is improved.

The method comprises the following steps: after the user wears the virtual reality glasses and enters the signal radiation range of the display position, the method further comprises the process of starting signal radiation:

the pressure signal in the dead ahead of pressure sensing subassembly response show stand, the controller acquires pressure signal, controls under the condition of sensing pressure signal automatically controlled subassembly switches on to the signal transmission subassembly.

Through adopting above-mentioned technical scheme, there is the user before the user senses current display position through the pressure sensing subassembly before the show position, just can switch on the signalling subassembly, and then form the signal radiation region, reduce the user and receive the signal that other display positions transmitted on current display position and lead to playing the possibility of the analytic information of projection formation of image on other display positions, improve the interactive accuracy to the user.

The method comprises the following steps: the signal emission subassembly to the preceding radiation signal of show stand forms the signal radiation region, the signal radiation region is the toper region that increases from being close to the show stand to keeping away from the show stand.

By adopting the technical scheme, through the directional limitation to the signals, the mutual signal cross overlapping between the display positions is reduced, and the possibility that the user receives the signals transmitted by other display positions on the current display position to play the projection imaging analysis information on other display positions is reduced.

The method comprises the following steps: the process that the virtual reality glasses analyze the projection imaging on the corresponding display position to the user comprises the steps that the signal receiving assembly receives the signal transmitted by the signal transmitting assembly, the processor retrieves the analysis information corresponding to the signal in the storage after decoding the signal, and the sound player is controlled to play the sound to the user.

By adopting the technical scheme, the signal transmitting assembly on each display position transmits the signal with different information, and after the signal is decoded by the processor, the corresponding analytic information is retrieved from the storage according to different signals and played to the user by controlling the sound player, so that the interactivity between the virtual reality exhibition hall and the user is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. projection imaging is carried out on the exhibition position in the exhibition hall through virtual reality projection equipment, and the immersive virtual reality can be observed by wearing virtual reality glasses;

when a user enters a signal radiation area formed by radiation of a signal emitting component arranged on a display position, a signal radiated by a signal receiving component on the virtual reality glasses is received, corresponding analysis information is retrieved in a storage through a processor, the analysis information is played to the user through a sound player, the controller controls the sound player to play the corresponding analysis information to the user in the radiation area of different display positions, and interactivity between the controller and the user is improved.

2. The user has the user before the present demonstration position is sensed to the pressure sensing subassembly to the show position, just can switch on the signalling subassembly, and then forms the signal radiation region, reduces the user and receives the signal that other demonstration positions were launched on the present demonstration position and lead to playing the possibility of the analytic information of projection formation of image on other demonstration positions, improves the interactive accuracy to the user.

Drawings

Fig. 1 is a schematic block diagram of a virtual reality exhibition hall according to the present application.

Fig. 2 is a schematic top view of a virtual reality exhibition hall according to the present application.

Fig. 3 is a schematic diagram of a display position module of a virtual reality exhibition hall according to the present application.

Fig. 4 is a schematic diagram of a terminal module of a virtual reality exhibition hall according to the present application.

Fig. 5 is a schematic side view of a display site of a virtual reality exhibition hall according to the present application.

Fig. 6 is a schematic view of a pressure sensing component of a virtual reality exhibition hall according to the present application.

Description of reference numerals: 100. a display position; 101. a virtual reality projection device; 102. projection imaging; 103. an infrared emitter; 104. an infrared open angle tube; 105. a signal radiation area; 106. a pressure sensor; 200. and (4) a terminal.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Example 1:

the embodiment of the application discloses a virtual reality exhibition room interactive system.

As shown in fig. 1 and 2, the exhibition hall and the terminal 200 are included, the exhibition hall includes a plurality of exhibition positions 100, each exhibition position 100 is provided with a virtual reality projection device 101, and the virtual reality projection device 101 is used for projecting an image 102 onto the exhibition position 100.

As shown in fig. 3, a signal emitting component, a pressure sensing component, an electric control component and a controller are disposed on the display site 100.

As shown in fig. 4, the terminal 200 includes virtual reality glasses, and an interaction device is disposed on the virtual reality glasses, and the interaction device includes a signal receiving component, a processor, and a sound player.

In this embodiment, the virtual reality projection apparatus 101 is a VR projector.

The signal emitting element is used to emit a signal directed toward the front of the display site 100, thereby forming a signal radiating area 105.

As shown in FIG. 5, the signal emitting assembly includes an infrared signal emitter disposed on the display site 100 at a height of between 1.6-2 m, the emitted infrared signal being encoded with instructional information. The infrared signal transmitter is sleeved with an infrared angle-opening tube 104, the infrared angle-opening tube 104 is open in a conical shape, the caliber of the infrared angle-opening tube 104 gradually increases from one end close to the display position 100 to the other end far away from the display position 100, and the longitudinal angle-opening amplitude of the infrared angle-opening tube 104 is 45 degrees. The infrared tube 104 is angled axially downward at an angle α to the side wall (or vertical direction) of the display site 100. the inner wall of the infrared tube 104 is coated with a light absorbing coating to reduce infrared spill, so that the infrared signal forms a conical signal radiation area 105 along the infrared tube 104 in front of the display site 100.

As shown in fig. 5 and 6, the pressure sensing assembly includes a plurality of pressure sensors 106 disposed right in front of the display position 100, the number of the pressure sensors 106 is 2-4, the pressure sensors 106 are uniformly distributed right in front of each display position 100, and the pressure sensors 106 are used for sensing pressure signals right in front of the display position 100 and indicating whether a user is in front of the display position 100;

the pressure sensor 106 is connected with a controller, which can be a single chip microcomputer or a computer, and is used for acquiring a pressure signal of the pressure sensor 106 and controlling the electric control assembly to electrify the signal emitter when detecting that the pressure sensor 106 senses pressure;

the electric control assembly is an electromagnetic valve connected with the signal emitter in series, the electromagnetic valve is controlled by the controller, and under the condition that the pressure sensor 106 detects pressure, the controller controls the electromagnet to be closed, so that a loop of the signal emitter is electrified and closed, and the signal emitter can send signals; otherwise, the signal transmitter does not operate.

The signal emitter arranged on each display position 100 emits a signal with different instructions, in this embodiment, an infrared signal emitter, and the infrared signal of different infrared emitters 103 has different instructions, corresponding to the resolution information of different projection images 102 in the storage.

Virtual reality glasses refer to VR glasses, and the user can watch the projection formation of image 102 of VR projecting apparatus on taking the VR glasses, and the VR technology is the conventional means in this field, and will not be described repeatedly in this embodiment.

As shown in fig. 4, the interaction device may be built in VR glasses or externally connected to the VR glasses, and if the interaction device is built in VR glasses, the signal receiving component needs to be located outside and outside the VR glasses to receive the signal of the signal transmitting component.

The signal receiving component of the interaction device is an infrared signal receiver, is arranged outside the virtual reality glasses and is used for receiving an infrared signal transmitted by an infrared transmitter 103 arranged on the display stand.

The storage stores interpretation information of the projection images 102, which corresponds to the projection images 102 on each presentation site 100.

The processor is a single chip microcomputer embedded in the virtual reality glasses, the single chip microcomputer acquires signals received by the infrared receiver and decodes the signals to obtain instructions, the processor retrieves corresponding projection imaging 102 decoding information from the storage according to the decoded instructions, and controls the sound player to play the information to a user.

The sound player is an earphone and is used for playing audio to a user, the user wears the earphone when wearing the virtual reality glasses, and the earphone is controlled by the processor.

The implementation principle of the virtual reality exhibition room interactive system in the embodiment of the application is as follows:

when a user wears virtual reality glasses to enter a display hall to visit, when the user visits a projection imaging 102 on a current display position 100 before the display position 100, a pressure sensing assembly is triggered, a pressure signal is sensed by a pressure sensor 106, a controller controls an electric control assembly to electrify the assembly of a signal transmitting assembly, so that the signal transmitting assembly directionally radiates a signal with an attached instruction to the front of the display position 100, the signal transmitting assembly in the virtual reality glasses receives the signal and decodes the signal to obtain a corresponding instruction, a processor searches for corresponding projection analysis information in a storage, and corresponding analysis information is played to the user through a sound player.

Example 2:

the embodiment of the application discloses a use method of a virtual reality exhibition hall interaction system.

Comprises the following steps:

each display bit 100 is numbered, and the signal emitted by the signal emitting component on each display bit 100 is encoded, so that the signal is accompanied by instruction information, and the instruction information is stored in the storage of the interactive device and corresponds to the analysis information corresponding to the projection imaging 102, wherein the number-instruction-analysis information corresponds to each other.

For example: numbering each presentation bit separately: the display device comprises a first display position, a second display position, a third display position and a fourth display position;

the signal transmitted by the signal transmitting component on the first display position is coded with a first instruction, the signal transmitted by the signal transmitting component on the second display position is coded with a second instruction, the signal transmitted by the signal transmitting component on the third display position is coded with a third instruction, and the signal transmitted by the signal transmitting component on the fourth display position is coded with a fourth instruction;

the storage device is stored with analysis information of the projection imaging 102 on the first display position, the second display position, the third display position and the fourth display position, the projection imaging 102 of the first display position is coded with the first analysis information, the projection imaging 102 of the second display position is coded with the second analysis information, the projection imaging 102 of the third display position is coded with the third analysis information, and the projection imaging 102 of the fourth display position is coded with the fourth analysis information;

defining the association:

the first number shows the bit-the first order-the first number resolves the information;

the second display bit, the second instruction and the second analysis information;

showing bit three-third instruction-third analysis information;

the fourth display bit-the fourth instruction-the fourth parse information.

Triggering the process of starting signal radiation:

a user wears virtual signal glasses to enter an exhibition hall for visiting;

being located some display position 100 the place ahead, pressure sensor 106 senses the effort of user to ground, the return circuit that the automatically controlled subassembly drive signal transmission subassembly of controller place is closed, the circular telegram of signal transmission subassembly, the directional signal of transmission subassembly is to display position 100 the place ahead transmission signal, in this embodiment, the signal transmission subassembly is infrared signal transmitter, the cover is equipped with the infrared angle pipe 104 that opens that the inner wall scribbled the extinction coating on infrared signal transmitter for infrared signal's radiation area is from being close to the show stand to keeping away from the cone region of show stand crescent.

User-exhibition hall interaction process:

the user is located the show stand dead ahead, falls into infrared signal radiation area 105, and the signal reception subassembly receives the signal of radiation, and the treater decodes the signal that receives and obtains the instruction, retrieves corresponding analytic information in the accumulator according to the instruction that obtains, plays to the user through the sound player.

The signal transmission components on each display bit 100 transmit signals with different instructions attached.

For example: before the user arrives at the first display position, the user enters a signal radiation area 105 of a signal emission assembly arranged on the first display position, a first instruction is attached to a radiated signal, the signal is received through a signal receiving assembly, the processor decodes the signal to obtain the first instruction, the storage retrieves corresponding first analysis information in the storage according to the defined association relationship, and the first analysis information is played to the user through controlling the sound player.

The application principle of the use method of the virtual reality exhibition room interaction system in the embodiment of the application is as follows:

the user is located the show stand dead ahead, falls into signal radiation area 105, and the signal receiving component receives the signal of radiation, and the treater decodes the signal that receives and obtains the instruction, retrieves corresponding analytic information in the accumulator according to the instruction that obtains, plays to the user through the sound player.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a virtual reality exhibition room interactive system which characterized in that:

comprises an exhibition hall and a terminal (200),

the exhibition hall comprises a plurality of exhibition positions (100), wherein each exhibition position (100) is provided with a virtual reality projection device (101), and the virtual reality projection devices (101) are used for projecting images (102) onto the exhibition positions (100);

the display position (100) is provided with a signal emitting assembly, and the signal emitting assembly is used for directionally emitting a signal with an instruction to form a signal radiation area (105);

the terminal (200) comprises virtual reality glasses, an interaction device is arranged on the virtual reality glasses, and the interaction device comprises a signal receiving component, a processor, a storage and a sound player;

the signal receiving assembly is used for receiving the signal transmitted by the signal transmitting assembly under the condition that a user wears the virtual reality glasses to enter the radiation area and transmitting the signal to the processor;

the storage is used for storing a plurality of analysis information used for analyzing the projection imaging (102) on the display position (100), and the projection imaging (102) on each display position (100) corresponds to each analysis information one by one;

the sound player is controlled by the processor and is used for playing the analysis information corresponding to the display position (100) for the user;

the processor is used for receiving the signal received by the signal receiving component, decoding the signal to obtain an instruction, searching corresponding analysis information in the memory according to the instruction, and controlling the sound player to play the corresponding analysis information to a user.

2. The virtual reality exhibition hall system of claim 1, wherein: the signal emission subassembly including set up in infrared transmitter (103) on display position (100), the cover is equipped with infrared angle of opening pipe (104) on infrared transmitter (103), be provided with the extinction coating on infrared angle of opening pipe (104) inner wall.

3. The virtual reality exhibition hall system of claim 1, wherein: the longitudinal opening angle of the infrared opening angle pipe (104) is 45 degrees.

4. The virtual reality exhibition hall system of claim 1, wherein: the display device further comprises a pressure sensing assembly, an electric control assembly and a controller, wherein the pressure sensing assembly comprises pressure sensors (106) which are arranged on the floor right in front of each display position (100) and used for sensing the pressure right in front of the display position (100); the electric control assembly is used for controlling the power on-off condition of the signal emission assembly arranged on each display position (100); the controller is used for controlling the signal transmitting component to be powered on or powered off according to the sensing condition of the pressure sensor (106).

5. A method of using the virtual reality showroom system of any one of claims 1-4, wherein:

the method comprises the following steps:

after a user wears the virtual reality glasses and enters a signal radiation range of the display position (100), the virtual reality glasses analyze the projection device image on the corresponding display position (100) to the user.

6. The virtual reality exhibition hall system of claim 5, wherein: after the user wears the virtual reality glasses to enter the signal radiation range of the display position (100), the method further comprises the following steps of:

the pressure signal in the dead ahead of pressure sensing subassembly response show stand, the controller acquires pressure signal, controls under the condition of sensing pressure signal automatically controlled subassembly switches on to the signal transmission subassembly.

7. The virtual reality exhibition hall system of claim 5, wherein: the signal emission component radiates signals towards the front of the display stand to form a signal radiation area (105), and the signal radiation area (105) is a conical area which gradually increases from the position close to the display stand to the position far away from the display stand.

8. The virtual reality exhibition hall system of claim 5, wherein: the process that the virtual reality glasses analyze the projection device image on the corresponding display position (100) to the user comprises the steps that the signal receiving assembly receives the signal transmitted by the signal transmitting assembly, the processor retrieves the analysis information corresponding to the signal in the storage after decoding the signal through the processor, and the sound player is controlled to play the sound to the user.

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