CN206585677U - A kind of 3D camera lenses and 3D camera systems - Google Patents

Abstract

The utility model is applied to that there is provided a kind of 3D camera lenses and 3D camera systems in 3D technique for taking field, it is intended to solve existing common camera or the problem of single camera product can not complete stereoscopic shooting.The 3D camera lenses include the first reflection subassembly, the second reflection subassembly and fixed mount, and first reflection subassembly, the second reflection subassembly are symmetrical and isolation is arranged on the fixed mount inwall；Light path into the first reflection subassembly and the light path into the second reflection subassembly each complete to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle.The utility model, into the first reflection subassembly light path and enter the second reflection subassembly light path each completes to reflect at least twice so that two light paths occur relative translation, into sensor devices after formation have subtense angle image.

Description

A kind of 3D camera lenses and 3D camera systems

Technical field

The utility model belongs to 3D technique for taking field, more particularly to a kind of 3D camera lenses and 3D camera systems.

Background technology

Recently as the continuous maturation of 3D technology, the development of 3D display industry is swift and violent, such as virtual reality, augmented reality 3D such as (Augment Reality, AR) shows that product is introduced to the market one after another.But show that product is not extra large at present for 3D Amount 3D videos can be watched, such as VR videos, and how easily to obtain 3D videos is the problem of discussing always and want to solve.

At present, dual camera is clearly that 3D shoots best technical solution, by taking mobile phone as an example, the mobile phone of dual camera Several years ago LG just once released it is a, but this mobile phone at that time obviously it is too advanced, do not have several individuals to buy, do not have several individuals now yet Also remember.The mobile phone of dual camera is gradually more and more in recent years, and these Dual-camera handsets are not intended to 3D and shoot and design , cell phone manufacturer is not regarded as the demand that user has 3D to shoot.Even if increasing 3D shoot functions technically not difficult matter, still Dual camera also brings along the increase of cost, is unfavorable for popularization.Existing most of mobile phone one side is single camera, not 3D video captures can be realized.

The content of the invention

The purpose of this utility model is to provide a kind of 3D camera lenses and 3D camera systems, it is intended to solve existing regular handset list Face is single camera, can not realize 3D video captures, and then cost is high for one side Dual-camera handset, is unfavorable for asking for popularization Topic.

On the one hand there is provided a kind of 3D camera lenses, shot for completing 3D together with the imaging device with single sensor devices, The 3D camera lenses include：First reflection subassembly, the second reflection subassembly and fixed mount, first reflection subassembly, the second reflection group Part is symmetrical and isolation is arranged on the fixed mount inwall；Into the second reflection subassembly of light path and entrance of the first reflection subassembly Light path each complete to reflect at least twice, subsequently into sensor devices formation with subtense angle image.

Further, first reflection subassembly includes relative the first reflector and the second reflector of reflecting surface, described Second reflection subassembly includes relative the 3rd reflector and the 4th reflector of reflecting surface.

Further, first reflector, the second reflector, the 3rd reflector, the 4th reflector are anti-including parabola Emitter, hemispherical reflector, hyperbolic reflector, ellipsoidal reflector, plane reflector or polygon deflector.

Further, first reflector, the second reflector, the 3rd reflector, the 4th reflector are high reflectance Thin slice or planar optics, and the length of the second reflector is less than the length of the first reflector, and the length of the 4th reflector is less than The length of 3rd reflector.

Further, first reflector and the 3rd reflector are parabolic reflector piece or hemispherical reflectivity piece；Described Two reflectors and the 4th reflector are high reflectance thin slice, planar optics, parabolic reflector piece or hemispherical reflectivity piece, and second anti- The length of emitter be less than the first reflector length, and the 4th reflector length be less than the 3rd reflector length.

Further, first reflection subassembly and the second reflection subassembly are plugged in the gap of the fixed mount inwall In；First reflection subassembly, the second reflection subassembly without departing from the exiting surface of the fixed mount, and second reflector, Incidence surface of 4th reflector without departing from the fixed mount.Further, the housing of the fixed mount and the imaging device or External protective case is integrally formed, and sensor devices of the light-emitting window just to the imaging device on the exiting surface of the fixed mount.

Further, the exiting surface light-emitting window periphery of the fixed mount, which is set, is removably attachable to the imaging device At sensor devices.

Further, the exiting surface light-emitting window periphery of the fixed mount is provided with buckle structure, helicitic texture or gib head Structure in order to connect the housing of the imaging device or the counter structure of external protective case the 3D camera lenses are fixed on it is photosensitive At device.

On the other hand there is provided a kind of 3D camera systems, the system includes：The imaging device of single sensor devices and above-mentioned 3D Camera lens, the 3D camera lenses are by being detachably connected or being fixed on the housing or external protective case of the imaging device, and institute The light-emitting window of 3D camera lens exiting surfaces is stated just to sensor devices, light path and entrance into the first reflection subassembly of the 3D camera lenses The light path of second reflection subassembly each completes to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle.

The utility model embodiment, incident light enters the light path of the first reflection subassembly of the 3D camera lenses and anti-into second The light path for penetrating component each completes to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle.

Brief description of the drawings

Fig. 1 is the front view for the 3D camera lenses that the utility model embodiment one is provided；

Fig. 2 is the rearview for the 3D camera lenses that the utility model embodiment one is provided；

Fig. 3 is the horizontal section schematic diagram for the camera system that the utility model embodiment two is provided.

In figure：

10- incidence surfaces；The reflection subassemblies of 11- first；The reflection subassemblies of 12- second；The reflectors of 111- first；112- second is anti- Emitter；The reflectors of 121- the 3rd；The reflectors of 122- the 4th；13- fixed mounts；14- exiting surfaces；15- hook head structures.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

It should be noted that imaging device includes but is not limited to camera, mobile phone, flat board in following examples, below only Illustrated by taking mobile phone as an example.

Please with reference to Fig. 1 and 2, the 3D camera lenses that the utility model first embodiment is provided be used for with single camera Mobile phone completes 3D shootings together, and the 3D camera lenses include：First reflection subassembly 11 includes the first relative reflection of reflecting surface The reflector 112 of device 111 and second, it is anti-that second reflection subassembly 12 includes the 3rd relative reflector 121 and the 4th of reflecting surface Emitter 122 and fixed mount 13, first reflection subassembly 11, the second reflection subassembly 12 are symmetrically and isolation is arranged in the fixation On the inwall of frame 13；The light path for injecting the first reflection subassembly 11 and the light path for injecting the second reflection subassembly 12 are each completed at least twice Reflection, then injects image of the sensor devices formation with subtense angle, and the first reflection subassembly 11, the second reflection subassembly 12 mutually hang down Straight or horizontal symmetrical, specifically, a kind of situation is, incident light all the way to left, another road direction right translation, being formed has a left side The image of right view；Another situation is, is translated under the translating up all the way of incident light, another road direction, is formed to have and regards up and down The image of figure.

In the present embodiment, first reflector 111, the second reflector 112, the 3rd reflector 121, the 4th reflector 122 be high reflectance thin slice or planar optics, and the length of the second reflector 112 is less than the length of the first reflector 111, and The length of 4th reflector 122 is less than the length of the 3rd reflector 121.The reflection subassembly 12 of first reflection subassembly 11 and second In the gap for being plugged in the fixed mount inwall.First reflection subassembly 11, the second reflection subassembly 12 are without departing from described The exiting surface 14 of fixed mount 13, and second reflector 112, the 4th reflector 122 enter light without departing from the fixed mount 13 Face 10, it is ensured that field range is larger.

It should be noted that first reflector, the second reflector, the 3rd reflector, the 4th reflector are also a variety of Selection, such as paraboloid, hemispherical reflector, hyperbolic reflector, ellipsoidal reflector, plane reflector or polygon mirror Device.First reflector and the second reflector can be the reflector of same type, or different types of reflector；Institute State the reflector that the first reflector and the second reflector can be same type, or different types of reflector, it is different Reflector combination has different field ranges.First reflector and the 3rd reflector are that parabolic reflector piece or hemisphere are anti- Penetrate piece；Second reflector and the 4th reflector are high reflectance thin slice, planar optics, parabolic reflector piece or hemispherical reflectivity Piece, and length of the length less than the first reflector of the second reflector, and the length of the 4th reflector are less than the 3rd reflector Length.

Wherein, the housing or external protective case of the fixed mount 13 and the mobile phone are connected with two ways, a kind of situation That the housing or external protective case of the imaging device is integrally formed, and on the exiting surface of the fixed mount 13 light-emitting window just to institute State the sensor devices of mobile phone；

A kind of situation, which is that the exiting surface light-emitting window periphery of the fixed mount 13 is set, is removably attachable to the mobile phone At sensor devices.

Wherein, Detachable connection structure can also be buckle structure, helicitic texture or hook head structure.

As Fig. 1 is shown, do not blocked on the exiting surface 14 of the fixed mount 13 reflected light position be provided with hook head structure with At the sensor devices for being fixed on the mobile phone.In use, being hooked on by hook head structure on the side wall of mobile phone, then push to slide and make Light-emitting window is positioned at the sensor devices of mobile phone.

In the present embodiment, the fixed mount 13 is rectangular frame main body, and it is made up of light-proof material.The fixation The light-emitting window periphery of exiting surface 14 of frame 13 is provided with hook head structure to be fixed at the sensor devices of the mobile phone.Fixed mount 13 is made Photocuring 3D printing can use to be integrally formed as technique.

The present embodiment, incident light enters the light path of the first reflection subassembly of the 3D camera lenses and enters the second reflection subassembly Light path each completes to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle, in single sensor devices In the case of, realize 3D shootings.

Please with reference to Fig. 3, the 3D camera systems that the utility model second embodiment is provided include the hand of single sensor devices The 3D camera lenses 2 of machine 1 and embodiment one, the 3D camera lenses 2 are by being detachably connected or being fixed on the housing or outer of the mobile phone Put on protective case, and the 3D camera lenses exiting surface light-emitting window just to sensor devices, into the first reflection group of the 3D camera lenses The light path of the second reflection subassembly of light path and entrance of part each completes to reflect at least twice, has subsequently into sensor devices formation The image of subtense angle.

The present embodiment, incident light enters the light path of the first reflection subassembly of the 3D camera lenses and enters the second reflection subassembly Light path each completes to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle, in single sensor devices In the case of, realize 3D shootings.

Preferred embodiment of the present utility model is these are only, it is all in this practicality not to limit the utility model Any modifications, equivalent substitutions and improvements made within new spirit and principle etc., should be included in guarantor of the present utility model Within the scope of shield.

Claims (10)

1. a kind of 3D camera lenses, shoot, it is characterised in that described for completing 3D together with the imaging device with single sensor devices 3D camera lenses include：First reflection subassembly, the second reflection subassembly and fixed mount, first reflection subassembly, the second reflection subassembly pair Claim and isolation is arranged on the fixed mount inwall；Light path into the first reflection subassembly and the light into the second reflection subassembly Road each completes to reflect at least twice, subsequently into image of the sensor devices formation with subtense angle.

2. 3D camera lenses according to claim 1, it is characterised in that first reflection subassembly includes relative the of reflecting surface One reflector and the second reflector, second reflection subassembly include relative the 3rd reflector and the 4th reflector of reflecting surface.

3. 3D camera lenses according to claim 2, it is characterised in that first reflector, the second reflector, the 3rd reflection Device, the 4th reflector include paraboloid, hemispherical reflector, hyperbolic reflector, ellipsoidal reflector, plane reflector or Polygon deflector.

4. 3D camera lenses according to claim 3, it is characterised in that first reflector, the second reflector, the 3rd reflection Device, the 4th reflector are high reflectance thin slice or planar optics, and the length of the second reflector is less than the length of the first reflector Degree, and the 4th reflector length be less than the 3rd reflector length.

5. 3D camera lenses according to claim 3, it is characterised in that first reflector and the 3rd reflector are parabola Reflector plate or hemispherical reflectivity piece；Second reflector and the 4th reflector are that high reflectance thin slice, planar optics, parabola are anti- Piece or hemispherical reflectivity piece are penetrated, and length of the length less than the first reflector of the second reflector, and the length of the 4th reflector are small In the length of the 3rd reflector.

6. 3D camera lenses according to claim 4, it is characterised in that first reflection subassembly and the second reflection subassembly are inserted In the gap for being located at the fixed mount inwall；First reflection subassembly, the second reflection subassembly are without departing from the fixed mount Exiting surface, and second reflector, the 4th reflector are without departing from the incidence surface of the fixed mount.

7. the 3D camera lenses according to claim any one of 1-6, it is characterised in that the fixed mount and the imaging device Housing or external protective case are integrally formed, and photoreceptor of the light-emitting window just to the imaging device on the exiting surface of the fixed mount Part.

8. the 3D camera lenses according to claim any one of 1-6, it is characterised in that outside the exiting surface light-emitting window of the fixed mount Setting is enclosed to be removably attachable at the sensor devices of the imaging device.

9. the 3D camera lenses according to any one of claim 8, it is characterised in that the exiting surface light-emitting window periphery of the fixed mount It is provided with buckle structure, helicitic texture or hook head structure to connect the housing or external protective case of the imaging device The 3D camera lenses are fixed at sensor devices by counter structure.

10. a kind of 3D camera systems, it is characterised in that the system includes：The imaging device and aforesaid right of single sensor devices It is required that the 3D camera lenses described in any one of 1-9, the 3D camera lenses are by being detachably connected or being fixed on the shell of the imaging device On body or external protective case, and the 3D camera lenses exiting surface light-emitting window just to sensor devices, into the first of the 3D camera lenses The light path of the second reflection subassembly of light path and entrance of reflection subassembly each completes to reflect at least twice, subsequently into sensor devices shape Into the image with subtense angle.