CN205320169U - Device based on two fisheye lens realize all -round formation of image - Google Patents

Abstract

The utility model discloses a device based on two fisheye lens realize all -round formation of image relates to a video capture device, by the casing, two fisheye lens, two -sided speculum, two image sensor, and a processo, memory and power constitute, install two fisheye lens that carry on the back mutually on the casing, be fixed with two -sided speculum in the casing between two fisheye lens, the plane of reflection of this two -sided speculum becomes 45 jiaos with fisheye lens's axle, two -sided speculum both sides are located to two image sensor perpendicular to fisheye lens's axle, still be equipped with the treater in the casing, memory and power, and the treater respectively with image sensor, memory and power supply circuit hookup. The utility model discloses a device based on two fisheye lens realize all -round formation of image, small in size, with low costs, the penetration and promotion of being convenient for is used, only needs alone handheld can the shooting, and follow -up available computer carries out video processing, lets non -professional video fan also can shoot panoramic video.

Description

The device of omnibearing imaging is realized based on two flake camera lens

Technical field

The utility model relates to a kind of video acquisition device, refers more particularly to a kind of device realizing omnibearing imaging based on two flake camera lens.

Background technology

Not how many panorama camera device released for common fan specially on current market, and major part is based on the panoramic imaging device of twin-lens, usual equipment is huge, operation is specialized, its cost height, has high input and allows some photographies fan hang back.

Summary of the invention

The purpose of this utility model is exactly to overcome the problems referred to above, it provides a kind of device realizing omnibearing imaging based on two flake camera lens.

The device realizing omnibearing imaging based on two flake camera lens of the present utility model, it is by machine shell, two flake camera lenses, double mirror, two image sensors, treater, storer and electric power generating composition, machine shell is provided with two opposing flake camera lenses, between two flake camera lenses, it is fixed with double mirror in machine shell, the plane of reflection of this double mirror and the axle angle at 45 ° of flake camera lens, what two image sensors were perpendicular to flake camera lens is located in double mirror both sides, treater also it is provided with in machine shell, storer and power supply, and treater respectively with image sensor, storer and power source circuit connect.

As further improvement of the utility model, being provided with radio transmitting device in machine shell, this radio transmitting device connects with processor circuit.

As further improvement of the utility model, the axle of each image sensor and its be positioned on plane of reflection with the intersection point of the axle of the flake camera lens of plane of reflection side.

As further improvement of the utility model, being provided with pickup device in machine shell, this pickup device connects with processor circuit.

The device realizing omnibearing imaging based on two flake camera lens of the present utility model, compact, cost is low, be convenient to promote the popularization use, a human hand held is only needed to take, the treatment facilities such as follow-up available computer carry out video processing, allow non-professional video fan also can take panoramic video.

Accompanying drawing explanation

Fig. 1 ~ Fig. 3 is the structure iron of the device realizing omnibearing imaging based on two flake camera lens of the present utility model;

Fig. 4 is the module map of the device realizing omnibearing imaging based on two flake camera lens of the present utility model.

Embodiment

Below in conjunction with accompanying drawing to the device realizing omnibearing imaging based on two flake camera lens of the present utility model, it is described further:

The device realizing omnibearing imaging based on two flake camera lens of the present utility model is made up of machine shell 1, two flake camera lenses 2, double mirror 3, two image sensors 5, treater 6, storer 7 and power supply 8.

Wherein, machine shell 1 is provided with two opposing flake camera lenses 2, between two flake camera lenses 2, it is fixed with double mirror 3 in machine shell 1, the plane of reflection of this double mirror 3 and the axle angle at 45 ° of flake camera lens 2, and two image sensors 5 be perpendicular to flake camera lens be located in double mirror 3 both sides, and the axle of each image sensor 5 and its be positioned on plane of reflection with the intersection point of the axle of the flake camera lens 2 of plane of reflection side.

Treater 6, storer 7, power supply 8, radio transmitting device 9 and pickup device 4 also it is provided with and treater 6 connects with image sensor 5, storer 7, power supply 8, radio transmitting device 9 and pickup device 4 circuit respectively in machine shell 1.

Also being provided with control button 10 on machine shell 1, it connects with treater 6 circuit, for being controlled by this device.

The device realizing omnibearing imaging based on two flake camera lens of the present utility model, its using method is as follows:

After opening this device, this device starts shooting, the image that each flake camera lens 2 gathers all enters in the image sensor 5 being mated by double mirror 3 reflection, process to be stored in after merging becomes the video of 3840 × 1080P and carries out video coding through treater 6 and transfer to cloud server in storer 7 or via radio transmitting device 9, cloud server is by video decode and is again split as the video of two 1080P, then corrected by algorithm, splicing becomes after panoramic picture video coding again, the video again encoded can transfer to client terminal and carry out decoding viewing.

Claims (4)

1. the device of omnibearing imaging is realized based on two flake camera lens, it is by machine shell (1), two flake camera lenses (2), double mirror (3), two image sensors (5), treater (6), storer (7) and power supply (8) are formed, it is characterized in that machine shell (1) is provided with two opposing flake camera lenses (2), between two flake camera lenses (2), it is fixed with double mirror (3) in machine shell (1), the plane of reflection of this double mirror (3) and the axle angle at 45 ° of flake camera lens (2), what two image sensors (5) were perpendicular to flake camera lens is located in double mirror (3) both sides, treater (6) also it is provided with in machine shell (1), storer (7) and power supply (8), and treater (6) respectively with image sensor (5), storer (7) and power supply (8) circuit connect.

2. the device realizing omnibearing imaging based on two flake camera lens according to claim 1, it is characterised in that being provided with radio transmitting device (9) in machine shell (1), this radio transmitting device (9) connects with treater (6) circuit.

3. the device realizing omnibearing imaging based on two flake camera lens according to claim 1, it is characterised in that the axle of each image sensor (5) and its be positioned on plane of reflection with the intersection point of the axle of the flake camera lens (2) of plane of reflection side.

4. the device realizing omnibearing imaging based on two flake camera lens according to claim 1, it is characterised in that be provided with pickup device (4) in machine shell (1), this pickup device (4) connects with treater (6) circuit.