CN221058381U - Double-lens VR panoramic camera - Google Patents

Abstract

The utility model relates to a double-lens VR panoramic camera, comprising a middle frame, a front shell, a rear shell, two fisheye lenses, a lens control board and a main control board, wherein the two fisheye lenses are arranged in the same direction and in a horizontal mode, the distance between the two fisheye lenses is adult interpupillary distance, and the angle of view of a single fisheye lens is more than or equal to 180 degrees, and the technical key points are that: the front shell surface is equipped with the display screen of being connected with the main control board in addition, is equipped with the cold shoe seat of side that is used for installing other display terminal on middle frame left side wall or the right side wall, and the lens seat of two fisheye lenses supports on the lens control board, and be equipped with the image processor with two fisheye lenses one-to-one on the lens control board, be equipped with the radiating block that aluminum alloy made between the internal surface of lens control board and the front shell, be equipped with the heat conduction silica gel pad between the contact surface of radiating block and lens control board. The panoramic camera solves the problem that the existing panoramic camera needs to be matched with other display terminals, is convenient to operate and use, and meanwhile, the heat dissipation performance of the camera is remarkably improved.

Description

Double-lens VR panoramic camera

Technical Field

The utility model relates to the technical field of cameras, in particular to a double-lens VR panoramic camera which is suitable for 180-degree 3D panoramic live broadcasting and shooting panoramic photos and videos.

Background

In recent years, VR integrated machines and VR glasses are applied in the floor, and panoramic live broadcasting is rapidly popularized. Some platforms VR live broadcast, VR shoot etc. scene demand is vigorous. The double-lens VR panoramic camera can be used for VR panorama live broadcast, 3D panoramic video shooting and shooting of panoramic photos. The existing double-lens VR panoramic camera comprises a shell and two spaced fish-eye lenses arranged on the front side of the shell, wherein the two fish-eye lenses are arranged in the same direction and in a horizontal arrangement, the angle of view of a single lens is greater than or equal to 180 degrees, the distance between the two lenses is the interpupillary distance of an adult, and thus panoramic live broadcasting and shooting can be performed by simulating the view angle of a first person.

However, the following problems still exist in the use process: 1. in the live broadcast process, live broadcast pictures need to be checked in other display terminals connected with the live broadcast pictures, so that the live broadcast state or live broadcast scene is not convenient to adjust in time; 2. when the mobile phone is matched with other display terminals such as a mobile phone, the mobile phone is inconvenient to use because the support is additionally arranged.

Disclosure of utility model

The utility model aims to provide a double-lens VR panoramic camera which is more reasonable in structure and safe and reliable to use, solves the problem that the existing panoramic camera needs to be matched with other display terminals, is convenient to operate and use, and simultaneously remarkably improves the heat dissipation performance of the camera.

The technical scheme of the utility model is as follows:

The utility model provides a double lens VR panoramic camera, includes the center, locates preceding, the backshell of center front and back, locates two fisheye lenses on preceding shell surface, locates in the center and the camera lens control panel of being connected with the fisheye lens, the main control board of being connected with the camera lens control panel, two the same direction horizontal layout of fisheye lens, the interval of two fisheye lenses is adult interpupillary distance, and the angle of view of single fisheye lens is more than or equal to 180 degrees, and its technical essential is: the front shell surface is equipped with the display screen of being connected with the main control board in addition, be equipped with the cold boots seat of side that is used for installing other display terminals on middle frame left side wall or the right side wall, two the lens holder of fisheye lens supports on the lens control panel, and be equipped with the image processor with two fisheye lens one-to-one on the lens control panel, be equipped with the radiating block that aluminum alloy made between the internal surface of lens control panel and front shell, be equipped with the heat conduction silica gel pad between the contact surface of radiating block and lens control panel.

According to the double-lens VR panoramic camera, the position of the front shell corresponding to the fish-eye lens is provided with the through hole, the lens ring is screwed in the through hole, the end face of the lens ring is leaked outwards to be in air contact with the outer side of the front shell, and the incident light face of the fish-eye lens is led out to the outer side of the front shell through the lens ring.

According to the double-lens VR panoramic camera, the supporting plate is arranged on the inner side of the middle frame, the heat-conducting silica gel pad is arranged between the CPU and the DDR on the main control board and the supporting plate, heat is transferred to the supporting plate by the heat-conducting silica gel pad, and then the heat is transferred to the middle frame by the supporting plate, so that the purpose of heat dissipation is further achieved.

According to the double-lens VR panoramic camera, the quick-mounting plate which is used for being connected with the camera support is arranged on the bottom surface of the middle frame, the quick-mounting plate comprises the upper section which is connected with the middle frame and the lower section which is connected with the camera support, and the upper section and the lower section are in plug-in fit and are locked by adopting the elastic buckle. The camera screw is not required to be rotationally fixed, so that the camera screw is convenient to install and disassemble, and the user experience is improved.

According to the double-lens VR panoramic camera, the battery compartment is additionally arranged in the middle frame, and the battery connected with the main control board is arranged in the battery compartment.

Above-mentioned double lens VR panoramic camera, the display screen is located the below of position between two fish-eye lenses to the convenience is looked over.

According to the double-lens VR panoramic camera, two sound receiving holes are symmetrically formed in the lower portion of the front shell and used for picking up panoramic sounds.

In the double-lens VR panoramic camera, the top surface of the middle frame is provided with the top surface cold boot seat, and the middle frame is provided with keys and indicator lights at two sides of the top surface cold boot seat; the middle frame bottom is equipped with 5 interfaces, is respectively: a TYPE C power interface, an Ethernet interface, an HDMI interface, a TYPE C audio interface and a 3.5 audio interface; a TF clamping groove and a TYPE C interface are formed in one side of the middle frame, on which the side cold boot seat is arranged; the other side is provided with a sliding switch.

According to the double-lens VR panoramic camera, the middle frame is of a main body structure of the panoramic camera, and the material is an aluminum alloy material.

According to the double-lens VR panoramic camera, the rear rubber pad is arranged on the outer surface of the rear shell.

The double-lens VR panoramic camera has the beneficial effects that:

1. The two fisheye lenses are arranged horizontally in the same direction, the distance between the two lenses is equal to or greater than 180 degrees, and the angle of view of a single fisheye lens is equal to or greater than 180 degrees, so that panoramic live broadcasting and shooting can be performed by simulating a first person viewing angle, and a 3D effect is achieved.

2. The display screen is additionally arranged, so that the live broadcast picture, the battery power, the working state of the camera and the like can be displayed in real time. The problem that the existing panoramic camera needs to be matched with other display terminals is solved, and the panoramic camera is more convenient for operators to use.

3. The side cold boot seat is additionally arranged, so that the side cold boot seat can be used for installing other display terminals, and after the other display terminals are connected with the TYPE C interface of the camera, the other display terminals are fixed on the side cold boot seat, so that the side cold boot seat is convenient for an operator to use.

4. Through the structural design of the heat dissipation block, the middle frame and the lens ring, the heat generated by the lens control plate and the middle control plate in the middle frame is transmitted to the outer side of the camera, and the heat dissipation performance of the camera is remarkably improved.

5. The audio interface is added and enriched, so that the panoramic audio collection device can be used for collecting panoramic audio by external audio equipment, and the audio quality is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

FIG. 4 is a rear view of FIG. 1;

FIG. 5 is a top view of FIG. 1;

FIG. 6 is a bottom view of FIG. 1;

fig. 7 is a schematic view of the internal structure of the present utility model.

In the figure: 1. the portable electronic device comprises a middle frame, a front shell, a rear shell, a fish eye lens, a lens ring, a key area, a key, a top face cold shoe, a rear rubber pad, a pilot lamp, a sliding switch, a side face cold shoe, a quick-mounting plate, a screw, a display screen, a nameplate, a radio hole, a circular hole, a 20.TYPE C power supply interface, a 21.Ethernet interface, a 22.HDMI interface, a 23.TYPE C audio interface, a 24.3.5 audio interface, a 25.screw hole, a 26.TF clamping groove, a 27.TYPE C interface, a 28.battery, a 29.lens control board, a 30.master control board, a 31.CPU, a 32.DDR, a 33.image processor, a 34.heat conducting silica gel pad, a 35.heat conducting silica gel pad, a 36.heat conducting silica gel pad, a 37.heat dissipation block, a 38.battery and a 39.support board.

Detailed Description

The utility model will be described in detail with reference to the drawings.

As shown in fig. 1 to 7, the dual-lens VR panoramic camera includes a center 1, front and rear cases 2 and 3 provided in front and rear of the center 1, two fisheye lenses 4 provided on the surface of the front case 2, a lens control board 29 provided in the center 1 and connected to the fisheye lenses 4, and a main control board 30 connected to the lens control board 29. The two fisheye lenses 4 are arranged horizontally in the same direction, the distance between the two fisheye lenses 4 is the interpupillary distance of an adult, and the angle of view of the single fisheye lens 4 is more than or equal to 180 degrees.

Wherein, the front shell 2 is provided with a display screen 16 and a nameplate 17 which are connected with a main control board 30. Specifically, the front shell 2 is provided with the circular hole 19 for exposing the display screen 16 for displaying live pictures, battery power, camera working states and the like in real time, so that the camera states and live pictures can be displayed more intuitively, and the use of users is facilitated. The display screen 16 is located below the position between the two fisheye lenses 4 for easy viewing. Two sound receiving holes 18 are symmetrically arranged at the lower part of the front shell 2 and used for picking up panoramic sounds.

The middle frame 1 is a main body structure of the panoramic camera and is made of aluminum alloy materials. The left side wall of the middle frame 1 is fixed with a side cold boot seat 12 for installing other display terminals by using screws 15. The top surface of the middle frame 1 is fixed with a top surface cold boot seat 8 by using screws 14, the middle frame 1 is provided with a key area 6 and an indicator lamp 10 at two sides of the top surface cold boot seat 8, and keys 7 are arranged in the key area 6; the middle part of the bottom surface of the middle frame 1 is provided with a quick-mounting plate 13 connected with a camera bracket, the quick-mounting plate 13 comprises an upper section connected with the middle frame 1 and a lower section connected with the camera bracket, and the upper section and the lower section are in plug-in fit and locked by adopting a snap fastener. The bottom surface of the lower section is provided with a threaded hole 25. And the device is convenient to install and disassemble, and improves user experience. The bottom of the middle frame 1 is additionally provided with 5 interfaces, which are respectively: TYPE C power interface 20, ethernet interface 21, HDMI interface 22, TYPE C audio interface 23, 3.5 audio interface 24, compare with prior art, increased 3.5 audio interface 24 for extend external audio interface, be suitable for more kinds of external audio equipment, richen the application and improve the audio quality simultaneously. The TF draw-in groove 26 and TYPE C interface 27 are equipped with in addition in the left side of center 1, and TYPE C interface 27 is used for connecting cell-phone or other display terminal, directly exports the live picture of panoramic camera to cell-phone or flat-panel display, and the large-screen display effect is better, promotes user experience. A slide switch 11 is arranged on the right side of the middle frame 1. A battery compartment is additionally arranged in the middle frame 1, and a battery 38 connected with the main control board 30 is arranged in the battery compartment for power supply of the equipment. The outer surface of the rear shell 3 is provided with a rear rubber pad 9.

The lens holders 28 of the aluminum alloy of the two fisheye lenses 4 are supported on the lens control board 29, the lens control board 29 is provided with an image processor 33 corresponding to the two fisheye lenses 4 one by one, a heat dissipation block 37 made of the aluminum alloy is arranged between the lens control board 29 and the inner surface of the front shell 2, and a heat conduction silica gel pad 36 is arranged between the heat dissipation block 37 and the contact surface of the lens control board 29. The front shell 2 is provided with a through hole corresponding to the fisheye lens 4, the through hole is internally screwed with an aluminum alloy lens ring 5, the end face of the lens ring 5 is externally leaked to be in air contact with the outer side of the front shell 2, and the incident light surface of the fisheye lens 4 is led out to the outer side of the front shell 2 through the lens ring 5. The inner side of the middle frame 1 is provided with a supporting plate 39, heat-conducting silica gel pads 34 and 35 are arranged between the CPU 31 and the DDR 32 on the main control board 30 and the aluminum alloy supporting plate 39, and heat is transferred to the supporting plate 39 by the heat-conducting silica gel pads 34 and 35, and then transferred to the middle frame 1 by the supporting plate 39, so that the purpose of heat dissipation is further achieved.

When in operation, the device comprises: the heat generated by the heating device-the image processor 33 causes the lens control board 29 to generate heat, the heat is transferred to the lens ring 5, and the lens ring 5 is in contact with air through the leakage part to realize heat exchange; the lens control board 29 is communicated with the heat dissipation block 37 through the heat conduction silica gel pad 36, the heat dissipation block 37 is made of aluminum alloy material, and the heat dissipation block is used as a radiator for dissipating heat of the lens control board 29; double heat dissipation is realized, the temperature of the image processor 33 is reduced, and the imaging quality is prevented from being influenced by high temperature.

The foregoing describes the embodiments of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to fall within the scope of the present utility model.

Claims (10)

1. The utility model provides a double lens VR panoramic camera, includes the center, locates preceding, the backshell of center front and back, locates two fisheye lenses on preceding shell surface, locates in the center and the camera lens control panel of being connected with the fisheye lens, the master control board of being connected with the camera lens control panel, two the same direction horizontal layout of fisheye lens, the interval of two fisheye lenses is adult interpupillary distance, and the angle of view of single fisheye lens is greater than or equal to 180 degrees, its characterized in that: the front shell surface is equipped with the display screen of being connected with the main control board in addition, be equipped with the cold boots seat of side that is used for installing other display terminals on middle frame left side wall or the right side wall, two the lens holder of fisheye lens supports on the lens control panel, and be equipped with the image processor with two fisheye lens one-to-one on the lens control panel, be equipped with the radiating block that aluminum alloy made between the internal surface of lens control panel and front shell, be equipped with the heat conduction silica gel pad between the contact surface of radiating block and lens control panel.

2. The dual-lens VR panorama camera of claim 1, wherein: the front shell is provided with a through hole corresponding to the fisheye lens, a lens ring is screwed in the through hole, the end face leakage of the lens ring is in air contact with the outer side of the front shell, and the incident light face of the fisheye lens is led out to the outer side of the front shell through the lens ring.

3. The dual-lens VR panorama camera of claim 1, wherein: the inner side of the middle frame is provided with a supporting plate, a heat-conducting silica gel pad is arranged between a CPU (Central processing Unit) and the DDR on the main control board and the supporting plate, heat is transferred to the supporting plate by the heat-conducting silica gel pad, and then transferred to the middle frame by the supporting plate.

4. The dual-lens VR panorama camera of claim 1, wherein: the bottom surface of the middle frame is provided with a quick-mounting plate connected with the camera support, the quick-mounting plate comprises an upper section connected with the middle frame and a lower section connected with the camera support, and the upper section and the lower section are in plug-in fit and locked by adopting a snap fastener.

5. The dual-lens VR panorama camera of claim 1, wherein: and a battery bin is additionally arranged in the middle frame, and a battery connected with the main control board is arranged in the battery bin.

6. The dual-lens VR panorama camera of claim 1, wherein: the display screen is positioned below the position between the two fisheye lenses so as to facilitate viewing.

7. The dual-lens VR panorama camera of claim 1, wherein: two sound receiving holes are symmetrically arranged at the lower part of the front shell.

8. The dual-lens VR panorama camera of claim 1, wherein: the top surface of the middle frame is provided with a top surface cold boot seat, and keys and indicator lamps are arranged at the two sides of the top surface cold boot seat; the middle frame bottom is equipped with 5 interfaces, is respectively: a TYPE C power interface, an Ethernet interface, an HDMI interface, a TYPE C audio interface and a 3.5 audio interface; a TF clamping groove and a TYPE C interface are formed in one side of the middle frame, on which the side cold boot seat is arranged; the other side is provided with a sliding switch.

9. The dual-lens VR panorama camera of claim 1, wherein: the middle frame is a main body structure of the panoramic camera and is made of aluminum alloy materials.

10. The dual-lens VR panorama camera of claim 1, wherein: the outer surface of the rear shell is provided with a rear rubber pad.