CN211236975U

CN211236975U - Panoramic video interaction system

Info

Publication number: CN211236975U
Application number: CN201921339728.1U
Authority: CN
Inventors: 陈均亮; 陈柏言; 许文飞
Original assignee: Quanzhou Normal University
Current assignee: Quanzhou Normal University
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2020-08-11
Anticipated expiration: 2029-08-19

Abstract

The utility model relates to the technical field of virtual reality, and discloses a panoramic video interaction system, which comprises a mobile terminal and an image acquisition device which are separately arranged; the mobile terminal is a mobile electronic device with a scanning camera and a panoramic display screen, and interaction of scanning of the VR postcard and panoramic video display is achieved; the image acquisition device comprises a mounting box, a camera assembly and a mounting assembly, wherein the camera assembly and the mounting assembly are mounted outside the mounting box; the mounting box is internally provided with a controller and a wireless transceiver, wherein the controller controls the camera assembly to collect real-time environment data, and the wireless transceiver is in wireless network connection with the mobile terminal; in conclusion, the whole equipment can effectively realize the fusion between virtual scenes and real-time scenes, and improve the user interaction experience; and the structure of the separation arrangement also makes the whole equipment have multiple use forms, and ensures the use diversity.

Description

Panoramic video interaction system

Technical Field

The utility model relates to a virtual reality technical field, concretely relates to panorama video interaction system.

Background

At present, with the development of the internet, people can know and know the tourism information all over the world through the modes of picture, character, video sharing and the like without going out, but the modes are only limited to the acquisition of knowledge and do not have the experience of being personally on the scene, therefore, the VR virtual reality technology appears, each tourist attraction can be virtualized through the virtual reality technology, and the users can experience vivid scenery only through VR equipment; in addition, along with the deep development of tourism industry to and the market of tourism industry sinks, the VR postcard that has collection value has appeared, and the VR postcard combines VR virtual reality technique and postcard, and the user just need scan the two-dimensional code of VR postcard and just can watch through VR equipment.

However, the virtual reality scene viewed through VR virtual reality is relatively rigid, and the environment of the user cannot be fused, so that the interactive experience is poor;

in addition, based on the proposed scanning and interaction, not only scanning equipment but also an interaction system is needed in the actual use process, so that the scanning and interaction system can be used only at a fixed position under most conditions, and is inconvenient to carry and move; and no structural association exists between the scanning equipment and the interactive system, the scanning equipment and the interactive system are only used under the condition of interaction, and the use form is single.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the problem, the utility model provides a panoramic video interactive system and realize panoramic video interactive system of this system.

The utility model discloses a concrete technical scheme as follows:

a panoramic video interaction system comprises a VR postcard, a scanning acquisition module, a live-action data acquisition module, a fusion module, an import conversion module and an interaction module, wherein the VR postcard stores panoramic video data and characteristic graphs;

the scanning acquisition module scans the characteristic graph of the VR postcard to acquire panoramic video data;

the live-action data acquisition module acquires real-time environment data;

the fusion module fuses panoramic video data and real-time environment data;

the import conversion module transfers the fusion data to the interaction module;

and the interaction module carries out panoramic interaction.

A panoramic video interaction system comprises a mobile terminal and an image acquisition device which are separately arranged; the mobile terminal is a mobile electronic device with a scanning camera and a panoramic display screen, and interaction of scanning of the VR postcard and panoramic video display is achieved;

the image acquisition device comprises a mounting box, a camera assembly and a mounting assembly, wherein the camera assembly and the mounting assembly are mounted outside the mounting box; the mounting box is internally provided with a controller and a wireless transceiver, wherein the controller controls the camera assembly to collect real-time environment data, and the wireless transceiver is connected with the mobile terminal in a wireless network.

Preferably, an installation groove is formed in the outer wall of one side of the installation box, and the camera assembly is embedded in the installation groove; the camera component is characterized in that a conductive buckle is arranged on the bottom wall of the mounting groove, a conductive clamping groove is formed in the camera component, and the conductive clamping groove and the conductive buckle are matched with each other to achieve power-on work of the camera component.

Preferably, one side of the mounting groove is provided with a limiting rack, and the limiting rack is meshed with the camera assembly to form positioning of the camera assembly in the mounting groove.

Preferably, the camera assembly comprises a limiting sliding plate and a lens barrel which are sequentially connected, wherein the lens barrel is fixed in the middle of the limiting sliding plate, and a miniature wide-angle lens is embedded in the movable end of the lens barrel, so that the panoramic real-time environment data can be acquired.

Preferably, the limiting sliding plate slides in the mounting groove, limiting rods are welded on two sides of the limiting sliding plate, and limiting of the mounting assembly is achieved through the limiting rods.

Preferably, the mounting assembly comprises a rotating rod, a mounting plate and a flexible sucker, wherein the rotating rod is of a U-shaped structure and penetrates through the mounting box; the rotating rod and the limiting rod are made of damping materials, and the rotating rod is in compression contact with the limiting rod to form limiting of the mounting assembly.

Preferably, the both ends of bull stick are connected with the mounting panel, and are equipped with a flexible sucking disc on the mounting panel at least, the connection dismantled of installation component is realized to flexible sucking disc.

Preferably, a power supply structure is further arranged in the mounting box, and the power supply structure is used for continuously supplying power to the whole image acquisition device; specifically, the power supply structure at least adopts one of a rechargeable battery or a type-C interface.

The utility model discloses an useful part:

(1) the combination of the mobile terminal and the image acquisition device is utilized to realize the fusion between the virtual scene and the real-time scene, so that a user can interact in the fused panoramic image, the hard and single virtual scene is avoided, the interactivity is improved, and the user experience is further improved.

(2) The image acquisition device and the mobile terminal adopt a separable connection mode, so that the requirement of separated use during interaction is met, and the image acquisition device and the mobile terminal are connected with each other, thereby being convenient for realizing the mobile carrying of the whole interaction system; in addition, the mobile terminal can be supported by the imaging device in a deformed mode, and the use diversity of the whole equipment is greatly improved.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is a perspective view of the camera module of the present invention;

fig. 4 is a perspective view of the mounting assembly of the present invention;

FIG. 5 is a schematic view of the internal structure of the image capturing device of the present invention;

fig. 6 is a first schematic view of the present invention;

fig. 7 is a second schematic view of the present invention;

fig. 8 is a third schematic view of the present invention;

in the figure: the mobile terminal 1, the image capturing device 2, the mounting box 21, the mounting groove 211, the limiting rack 212, the conductive buckle 213, the camera assembly 22, the limiting sliding plate 221, the limiting rod 2111, the lens barrel 222, the miniature wide-angle lens 223, the conductive clamping groove 224, the mounting assembly 23, the rotating rod 231, the mounting plate 232, the flexible sucker 233, the controller 24, the wireless transceiver 25 and the power supply structure 26.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

The utility model provides a panoramic video interaction system, which comprises a VR postcard, a scanning acquisition module, a live-action data acquisition module, a fusion module, a lead-in conversion module and an interaction module, wherein the VR postcard is stored with panoramic video data and characteristic graphs;

the live-action data acquisition module acquires real-time environment data;

the fusion module fuses panoramic video data and real-time environment data;

and the interaction module carries out panoramic interaction.

As shown in fig. 1-8, the present invention further provides a panoramic video interactive system for implementing the above interactive system, which comprises a mobile terminal 1 and an image capturing device 2 separately disposed; the mobile terminal 1 is a mobile electronic device with a scanning camera and a panoramic display screen, and realizes interaction of scanning of the VR postcard and panoramic video display;

the image acquisition device 2 comprises a mounting box 21, a camera assembly 22 and a mounting assembly 23, wherein the camera assembly 22 and the mounting assembly 23 are mounted outside the mounting box 21, and the mounting assembly 23 realizes the detachable mounting of the image acquisition device 2; the mounting box 21 is also internally provided with a controller 24 and a wireless transceiver 25, wherein the controller 24 controls the camera assembly 22 to collect real-time environment data, and the wireless transceiver 25 is connected with the mobile terminal 1 in a wireless network.

Specifically, the mobile terminal 1 includes, but is not limited to, a smart phone, a tablet computer, a VR display device, an AR display device, and an MR display device; when the mobile terminal is actually used, the mobile terminal 1 and the image acquisition device 2 are paired through the wireless transceiver 25, the wireless transceiver 25 adopts a Bluetooth, Z-Wave, ZigBee or WiFi wireless communication protocol for data transmission, the image acquisition device 2 is fixed at a specified position by using the mounting assembly 23, the camera assembly 22 is ensured to be capable of completely acquiring real-time environment data of a user, the acquired real-time environment data is transmitted to the mobile terminal 1 through the wireless transceiver 25, the mobile terminal 1 scans a VR postcard to obtain panoramic video data, and fusion, display and interaction of the panoramic video data and the real-time environment data are performed in the mobile terminal 1, and specific interaction contents at least comprise one of video watching, virtual group watching, video learning, video sharing and virtual shopping;

namely, the live-action data acquisition module in the system is composed of the image acquisition device 2, and the scanning acquisition module, the fusion module, the import conversion module and the interaction module are collectively accommodated in the mobile terminal 1.

In this embodiment, preferably, an installation groove 211 is formed in an outer wall of one side of the installation box 21, and the camera assembly 22 is embedded in the installation groove 211; the bottom wall of the mounting groove 211 is provided with a conductive buckle 213, the camera assembly 22 is provided with a conductive slot 224, and the conductive slot 224 is matched with the conductive buckle 213 to realize the power-on operation of the camera assembly 22.

Specifically, referring to the structures shown in fig. 2 and 3, under the condition that the conductive card slot 224 and the conductive buckle 213 are engaged with each other, the camera assembly 22 is powered on, and it is ensured that the camera assembly 22 completes data acquisition operation under the control of the controller 24, where the controller 24 employs an ARM microcontroller.

In this embodiment, it is preferable that a limit rack 212 is disposed on one side of the mounting groove 211, and the limit rack 212 is engaged with the camera head assembly 22 to position the camera head assembly 22 in the mounting groove 211.

Specifically, referring to the structure shown in fig. 2, a limiting rack 212 is arranged in the mounting groove 211, a tooth groove is arranged on the outer wall of the camera assembly 22, and the tooth groove is meshed with the mounting groove 211 to form limiting of the camera assembly 22, so that positioning stability of the camera assembly 22 in the mounting groove 211 is ensured; for example: when the camera head assembly 22 is located at the bottom of the mounting groove 211, the conductive slot 224 and the conductive latch 213 just form a snap fit, so as to ensure the stability of the snap fit connection.

In this embodiment, preferably, the camera assembly 22 includes a limiting sliding plate 221 and a lens barrel 222 connected in sequence, wherein the lens barrel 222 is rotatably connected to a middle portion of the limiting sliding plate 221, and a miniature wide-angle lens 223 is embedded in a movable end of the lens barrel 222, so as to achieve acquisition of panoramic real-time environment data.

In this embodiment, preferably, the limiting sliding plate 221 slides in the mounting groove 211, the limiting rods 2111 are welded to both sides of the limiting sliding plate 221, and the limiting rods 2111 limit the mounting assembly 23.

In this embodiment, preferably, the mounting assembly 23 includes a rotating rod 231, a mounting plate 232 and a flexible suction cup 233, wherein the rotating rod 231 has a U-shaped structure and penetrates through the mounting box 21; the rotating rod 231 and the limiting rod 2111 are made of damping materials, and the limiting of the mounting assembly 23 is formed through the pressing contact of the rotating rod 231 and the limiting rod 2111.

In this embodiment, preferably, two ends of the rotating rod 231 are connected to the mounting plate 232, at least one flexible suction cup 233 is disposed on the mounting plate 232, the flexible suction cup 233 is detachably connected to the mounting assembly 23, and the flexible suction cup 233 is made of an elastic material, such as silicon rubber.

Specifically, as can be seen from the structure shown in fig. 4 and 5, when the limiting sliding plate 221 moves upwards in the mounting groove 211, the limiting rods 2111 on both sides are driven to move synchronously, and the limiting rods 2111 are far away from the rotating rod 231, so that the rotating rod 231 is in a rotatable state, and at this time, the use angle of the integral mounting assembly 23 can be changed, so that the mobile terminal 1 and the image capturing device 2 are mutually matched to form three use states shown in fig. 6-8:

(1) as shown in fig. 6, the separated interactive use state; at this time, the camera head assembly 22 is pushed, so that the limiting slide plate 221 moves, the limiting rod 2111 and the rotating rod 231 are separated, and then the mounting assembly 23 is rotated, so that the flexible suction cups 233 on the mounting assembly 23 and the camera head assembly 22 face opposite directions respectively; then moving back the camera assembly 22 to form the positioning and electrifying of the structure; then, the deformation and negative suction of the flexible sucker 233 are utilized to complete the installation and fixation of the integral image acquisition device 2, and the specific installation position of the flexible sucker ensures that the miniature wide-angle lens 223 can be completely recorded into a user; finally, the user uses the mobile terminal 1 separated from the image acquisition device 2 to carry out scanning and interaction;

(2) the combined use state shown in fig. 7; through the rotation of the installation component 23, the flexible suction cup 233 faces to the same side of the image capturing device 2, and at this time, the whole image capturing device 2 can be fixed on the mobile terminal 1 by the adsorption of the flexible suction cup 233, so as to realize the movement of the whole interactive system.

(3) The combined use state shown in fig. 8; the integral image capturing device 2 forms a support part through rotation and adsorption fixing of the mounting component 23, so that the mobile terminal 1 can be supported, for example, as a mobile phone support of a smart phone.

In this embodiment, preferably, a power supply structure 26 is further disposed in the mounting box 21, and the power supply structure 26 continuously supplies power to the entire image capturing device 2:

(1) the power supply structure 26 is powered by a rechargeable battery;

(2) the power supply structure 26 supplies power by adopting a type-C interface, and is connected with the type-C interface and an external power supply through a charging wire when in use;

(3) the power supply structure 26 supplies power by combining a rechargeable battery and a type-C interface.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and alterations to the embodiments will still fall within the scope of the invention.

Claims

1. A panoramic video interaction system, characterized by: the system comprises a VR post card storing panoramic video data and characteristic graphs, a scanning acquisition module, a live-action data acquisition module, a fusion module, an import conversion module and an interaction module;

the live-action data acquisition module acquires real-time environment data;

the fusion module fuses panoramic video data and real-time environment data;

and the interaction module carries out panoramic interaction.

2. The panoramic video interaction system of claim 1, characterized in that: comprises a mobile terminal (1) and an image acquisition device (2) which are separately arranged; the mobile terminal (1) is a mobile electronic device with a scanning camera and a panoramic display screen, and realizes interaction of scanning of the VR postcard and panoramic video display;

the image acquisition device (2) comprises a mounting box (21), and a camera assembly (22) and a mounting assembly (23) which are mounted outside the mounting box (21), wherein the mounting assembly (23) realizes the detachable mounting of the image acquisition device (2); the mounting box (21) is internally provided with a controller (24) and a wireless transceiver (25), wherein the controller (24) controls the camera assembly (22) to collect real-time environment data, and the wireless transceiver (25) is connected with the mobile terminal (1) in a wireless network.

3. The panoramic video interaction system of claim 2, characterized in that: an installation groove (211) is formed in the outer wall of one side of the installation box (21), and the camera assembly (22) is embedded into the installation groove (211); be equipped with conductive buckle (213) on the diapire of mounting groove (211), conductive slot (224) have been seted up on camera subassembly (22), conductive slot (224) mutually support with conductive buckle (213), realize the circular telegram work of camera subassembly (22).

4. The panoramic video interaction system of claim 3, characterized in that: and a limiting rack (212) is arranged on one side of the mounting groove (211), and the limiting rack (212) is meshed with the camera assembly (22) to form the positioning of the camera assembly (22) in the mounting groove (211).

5. The panoramic video interaction system of claim 4, wherein: the camera assembly (22) comprises a limiting sliding plate (221) and a lens barrel (222) which are sequentially connected, wherein the lens barrel (222) is rotatably connected to the middle part of the limiting sliding plate (221), and a miniature wide-angle lens (223) is embedded into the movable end of the lens barrel (222), so that panoramic real-time environment data can be acquired.

6. The panoramic video interaction system of claim 5, wherein: spacing slide (221) slide in mounting groove (211), and the both sides of spacing slide (221) all weld gag lever post (2111), gag lever post (2111) realize the spacing of installation component (23).

7. The panoramic video interaction system of claim 6, wherein: the mounting assembly (23) comprises a rotating rod (231), a mounting plate (232) and a flexible sucker (233), wherein the rotating rod (231) is of a U-shaped structure and penetrates through the mounting box (21); the rotating rod (231) and the limiting rod (2111) are made of damping materials, and the rotating rod (231) is in pressing contact with the limiting rod (2111) to form limiting of the mounting assembly (23).

8. The panoramic video interaction system of claim 7, wherein: the both ends of bull stick (231) are connected with mounting panel (232), and are equipped with a flexible sucking disc (233) on mounting panel (232) at least, the connection dismantled of installation component (23) is realized in flexible sucking disc (233).

9. The panoramic video interaction system of claim 2, characterized in that: and a power supply structure (26) is further arranged in the mounting box (21), and the power supply structure (26) is used for continuously supplying power to the whole image acquisition device (2).

10. The panoramic video interaction system of claim 9, wherein: the power supply structure (26) employs at least one of a rechargeable battery or a type-C interface.