CN205195811U - 3D camera lens - Google Patents

Abstract

The utility model provides a 3D camera lens, it includes: the underframe, the underframe includes the bottom plate, the horizontal edge extension of bottom plate goes out the swash plate that a pair of contained angle is first angle, vertical edge extension of bottom plate goes out a pair of vertical board that is parallel to each other, vertical board, swash plate and bottom plate enclose into a side and are the trapezoidal chamber that holds, the center of bottom plate is equipped with the through -hole, and a support, the support is the structure of a cross section for the V style of calligraphy of second angle, the horizontal center of bottom plate is located to the support, the support will hold the chamber and separate a left cavity and a right cavity, the reflector is posted respectively to two ascending sides of horizontal stroke of left side cavity, the reflector is posted respectively to two ascending sides of horizontal stroke of right side cavity, a cover plate, the apron lid is in the top of underframe, the position that the apron corresponds the support is equipped with the lens. The utility model discloses a more 3D effect picture of the sense of reality can be taken in the design of above -mentioned scheme.

Description

A kind of 3D camera lens

Technical field

The utility model relates to photography, especially a kind of 3D camera lens.

Background technology

Along with the application of mobile phone is more and more extensive, the function of mobile phone is also more and more perfect, and being reluctant to leave with mobile phone camera becomes a requisite part in most people life, and therefore, everybody requires more and more higher to the pixel of mobile phone, the convenience of mobile phone photograph etc.But the picture that mobile phone is taken at present does not allow most people meet, because the sense of reality of picture is not strong, along with the extensive use of 3D film, the technology of mobile phone 3D picture is also ready to appear.

Utility model content

In order to solve the problem, the utility model proposes a kind of structure simple, and the 3D camera lens of 3D effect picture can be taken.

The utility model is achieved through the following technical solutions:

The utility model proposes a kind of 3D camera lens, it comprises underframe, described underframe comprises base plate, the transverse edge of described base plate extends the swash plate that a pair angle is the first angle, the longitudinal edge of described base plate extends the vertical plate be parallel to each other for a pair, it is trapezoidal container cavity that described vertical plate, swash plate and base plate surround a side, and the center of described base plate is provided with through hole, and described through hole is used for the conducting images of 3D camera lens to the camera of mobile phone; Support, the structure of described support to be a cross section the be V-shape of the second differences in angle, described the transverse center position being set up in base plate, described container cavity is separated out a left chamber and a right chamber by described support, reflective mirror is posted respectively in transversely two sides of described left chamber, and reflective mirror is posted respectively in transversely two sides of described right chamber; Cover plate, described cover plate covers the top at described underframe, and the position of the corresponding support of described cover plate is provided with eyeglass.

Further, the focal length inverse correlation of described first angle and camera, described second angle is 90 degree.

Further, described 3D camera lens also comprises connector, and described connector comprises location division and connecting portion, and described underframe is arranged with counterbore at the outer of described through hole, described location division is located in described counterbore, and described connecting portion is used for described 3D camera lens to be connected to external equipment.

Further, the center of described base plate is longitudinally provided with location notch, and the bottom of described support is located in described location notch, and the inner side of described vertical plate is also provided with limiting section at the two ends of described location notch, and the two ends of described support are limited in described limiting section.

Further, the top at the two ends of described support is also provided with stopper slot, and the position of the corresponding stopper slot of described underframe is provided with the first buckle, and described first buckle is buckled in described stopper slot.

Further, described cover plate is fixed on described underframe by the second buckle.

Further, described cover plate is provided with one block of transparent glass, and described eyeglass is positioned at the centre of described glass, both sides corresponding described left chamber and the right chamber respectively of described glass.

Further, described underframe, connector, support and cover plate are all axisymmetric structures.

The beneficial effects of the utility model:

The utility model passes through the structural design of underframe and support, make there is differential seat angle between the reflective mirror in the reflective mirror in described left chamber and described right chamber, then these reflective mirrors can from slightly different two viewing angles pictures, thus take there is 3D effect picture, make the photo more sense of reality taken.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model underframe;

Fig. 2 is the schematic perspective view of the utility model support;

Fig. 3 be the utility model support installing on underframe after schematic top plan view;

Fig. 4 is the schematic perspective view of the utility model cover plate;

Fig. 5 is the schematic perspective view of the utility model connector.

Wherein, 10-underframe, 30-support, 50-cover plate, 70-connector, 11-is horizontal, 12-base plate, and 13-is longitudinally, 14-swash plate, 15-location notch, 16-vertical plate, 17-first buckle, 18-container cavity, 32-stopper slot, 52-eyeglass, 72-fixed part, 74-connecting portion, 120-through hole, 122-counterbore, 162-limiting section, 164-long row bar, 182-left chamber, the right chamber of 184-.

Embodiment

In order to clearly, complete explanation the technical solution of the utility model, below in conjunction with accompanying drawing, the utility model is described in further detail.

In the present invention, when not doing contrary explanation, the noun of locality of use if " upper and lower " is normally for direction shown in the drawings, or for vertically, on vertical or gravity direction; Similarly, for ease of understanding and describing, " left and right " is normally for shown in the drawings left and right; " inside and outside " refers to profile inside and outside relative to each parts itself, but the above-mentioned noun of locality is not limited to the present invention.

The utility model proposes a kind of 3D camera lens, it comprises underframe 10, support 30 and cover plate 50.

As shown in Figure 1, described underframe 10 comprises base plate 12, transverse direction 11 edges of described base plate 12 extend the swash plate 14 that a pair angle is the first angle, and longitudinal direction 13 edges of described base plate 12 extend the vertical plate 16 be parallel to each other for a pair, described transverse direction 11 and longitudinally 13 as indicated by the arrows in fig. 3.It is trapezoidal container cavity 18 that a pair vertical plate 16, a pair swash plate 14 and base plate 10 surround a side, and the center of described base plate 12 is provided with through hole 120, described through hole 120 for the conducting images of 3D camera lens to camera.Described underframe 10 is exactly the structure with container cavity 18 be made up of a pair vertical plate 16, a pair swash plate 14 and base plate 12, and described underframe 10 is black, and described underframe 10 material used is ABS plastic+quartz.

As Fig. 2, shown in 3, the structure of described support 30 to be cross sections the be V-shape of the second angle, laterally 11 centers of base plate 10 are located at by described support 30, described container cavity 18 is separated out a left chamber 182 and a right chamber 184 by described support 30, reflective mirror is posted respectively in two sides in the transverse direction 11 of described left chamber 182, reflective mirror is also posted respectively in two sides in the transverse direction 11 of described right chamber 184, concrete, wherein two reflective mirrors are attached to the inner side of two swash plates 14 of described underframe 10 respectively, namely these two reflective mirrors are in the first angle, another two reflective mirrors are attached to the outside of support 30 respectively, i.e. mutual second angle of these two reflective mirrors, then there is differential seat angle between the reflective mirror in described left chamber 182 and the reflective mirror in described right chamber 184.The reflective mirror being mutually the first angle is for finding a view, and be mutually the reflective mirror of the second angle for reflexing in camera by the image be mutually in the reflective mirror of the first angle, described speculum is high accuracy speculum, and its reflectivity reaches 99%.

As shown in Figure 4, described cover plate 50 covers the top at described underframe 10, and on described cover plate 50, the position of corresponding support 30 is provided with eyeglass 52, and described eyeglass 52 is the eyeglass of generally looking in the mirror, and when described eyeglass 52 is for autodyning, user can see oneself.

Underframe 10 described in the utility model, support 30 and cover plate 50 are all axisymmetric structures, the utility model utilizes support 30 container cavity 18 of underframe 10 to be separated out a left chamber 182 and a right chamber 184, also through hole 120 is separated into left and right two halves simultaneously, the left side of described through hole 182 communicates with left chamber 182, the right of described through hole 182 communicates with right chamber 184, because of described through hole 120 for the conducting images of 3D camera lens to camera, therefore be equivalent to, with support 30, the visual angle of camera be divide into two visual angles, a visual angle utilizes the reflective mirror in left chamber 182 to carry out imaging, another visual angle utilizes the reflective mirror in right chamber 184 to carry out imaging, and the reflective mirror in left chamber 182 and have differential seat angle between the reflective mirror in right chamber 184, then these reflective mirrors can from slightly different two viewing angles pictures, form the picture that sharpness is very high, so be actually two the same seemingly photos after having taken, but these two photos one combine, just there is the effect of 3D.The utility model utilizes above-mentioned principle to realize shooting 3D picture, the photo taken the more sense of reality.

In the present embodiment, the focal length inverse correlation of described first angle and camera, namely the focal length of camera is larger, and the first angle is less, and the focal length of camera is less, and the first angle is larger.

In the present embodiment, the angular range of described first angle is 78 degree to 102 degree, and described second angle is 90 degree.

As shown in Figure 5,3D camera lens of the present utility model also comprises connector 70, described connector 70 comprises location division 72 and connecting portion 74, described location division 72 is in circular, described connecting portion 74 is the cylinder of a hollow, described location division 72 is one-body molded with described connecting portion 74, described underframe 10 is arranged with counterbore 122 at the outer of described through hole 120, described location division 72 is located in described counterbore 122, described connecting portion 74 is provided with external screw thread, and described connecting portion 74 is for being connected to external equipment by described 3D camera lens.

In the present embodiment, described support 30 not only for container cavity 18 being separated into the different left chamber 182 in two visual angles and right chamber 184, but also is mutually the support of the reflective mirror of 90 degree as two.Described support 30 is structures with cavity, and its volume roughly occupies 1/3rd of described container cavity 18, is the eyeglass 52 for autodyning directly over described support 30, therefore support 30 is also for the effect of bearing lens 52.

In the present embodiment, the center of described base plate 10 longitudinally 13 is provided with location notch 15, and the bottom of described support 30 is located in described location notch 15; The inner side of described vertical plate 16 is also provided with limiting section 162 at the two ends of described location notch 15, and the two ends of described support 30 are limited in described limiting section 162; The top at the two ends of described support 30 is also provided with stopper slot 32, and the position of the corresponding stopper slot 32 of described underframe 10 is provided with the first buckle 17, and described first buckle 17 is buckled in described stopper slot 32.Described support 30 by location notch 15 and limiting section 162 positioned internal at described underframe 10, and coordinates by stopper slot 32 and the first bayonet socket 17 inside being fixed on described underframe 10.

In the present embodiment, as shown in Figure 1, described limiting section 162 is formed by the V-type face cutting out 90 degree on several long strips 164.

In the present embodiment, described cover plate 50 is fixed on described underframe 10 by the second buckle.

In the present embodiment, described cover plate 50 is provided with one block of transparent glass, the centre of described glass is located at by described eyeglass 52, both sides corresponding described left chamber 182 and the right chamber 184 respectively of described glass, described glass causes the reflecting rate of reflective mirror to be affected for preventing dust etc. from entering in container cavity 18.

During use, only the connecting portion 74 of 3D camera lens of the present utility model by connector 70 need be connected with a clip, then clip on mobile phone, through hole 120 on 3D camera lens is aimed at camera, finally open camera to carry out taking, taking the picture come is exactly 3D effect picture, very easy to use, and it is very strong to take the picture sense of reality come.

3D camera lens of the present utility model is applicable to the various equipment with camera, as mobile phone, panel computer, video camera etc.

Certainly, the utility model also can have other numerous embodiments, based on present embodiment, those of ordinary skill in the art under the prerequisite not making any creative work obtain other execution modes, all belong to the scope that the utility model is protected.

Claims (8)

1. a 3D camera lens, is characterized in that, described 3D camera lens comprises:

Underframe, described underframe comprises base plate, the transverse edge of described base plate extends the swash plate that a pair angle is the first angle, the longitudinal edge of described base plate extends the vertical plate be parallel to each other for a pair, it is trapezoidal container cavity that described vertical plate, swash plate and base plate surround a side, the center of described base plate is provided with through hole, and described through hole is used for the conducting images of 3D camera lens to camera;

Support, the structure of described support to be a cross section the be V-shape of the second angle, described the transverse center position being set up in base plate, described container cavity is separated out a left chamber and a right chamber by described support, reflective mirror is posted respectively in transversely two sides of described left chamber, and reflective mirror is also posted respectively in transversely two sides of described right chamber; And

Cover plate, described cover plate covers the top at described underframe, and the position of the corresponding support of described cover plate is provided with eyeglass.

2. 3D camera lens according to claim 1, is characterized in that, the focal length inverse correlation of described first angle and camera, and described second angle is 90 degree.

3. 3D camera lens according to claim 1, it is characterized in that, described 3D camera lens also comprises connector, described connector comprises location division and connecting portion, described underframe is arranged with counterbore at the outer of described through hole, described location division is located in described counterbore, and described connecting portion is used for described 3D camera lens to be connected to external equipment.

4. 3D camera lens according to claim 1, it is characterized in that, the center of described base plate is longitudinally provided with location notch, the bottom of described support is located in described location notch, the inner side of described vertical plate is also provided with limiting section at the two ends of described location notch, and the two ends of described support are limited in described limiting section.

5. 3D camera lens according to claim 4, is characterized in that, the top at the two ends of described support is also provided with stopper slot, and the position of the corresponding stopper slot of described underframe is provided with the first buckle, and described first buckle is buckled in described stopper slot.

6. 3D camera lens according to claim 1, is characterized in that, described cover plate is fixed on described underframe by the second buckle.

7. 3D camera lens according to claim 6, is characterized in that, described cover plate is provided with one block of transparent glass, and described eyeglass is positioned at the centre of described glass, both sides corresponding described left chamber and the right chamber respectively of described glass.

8. 3D camera lens according to claim 1, is characterized in that, described underframe, connector, support and cover plate are all axisymmetric structures.