CN111683196B - Mobile terminal lens turning and viewing peripheral capable of efficiently switching shooting visual angles - Google Patents

Abstract

The utility model provides a high-efficient removal end lens diversion of switching shooting visual angle is looked into and is looked into peripheral hardware, includes: the prism comprises an incidence surface, a reflection surface and an exit surface, and the coating film on the surface of the reflection surface is used for reflecting image information; the prism shell is arranged on the outer side of the prism, and the reflecting surface of the prism is in adhesive connection with the prism shell; the technical key point is that the detachable prism component is adopted, so that the requirements of different shooting angles in direct broadcasting can be conveniently and quickly switched; the fixing mode of magnetic attraction is adopted, so that repeated operation on the mobile terminal equipment is reduced, and the change of the placing angle of the mobile terminal equipment caused by too much force or improper rotation angle when the positioning clamp is taken off is avoided; the whole equipment does not need to be repeatedly disassembled, so that the damage probability to the mobile terminal equipment is greatly reduced; the selection of adjustable direction has been simplified, has promoted the practicality for the device is applicable to the live of present mainstream and uses the scene, has reduced user's the operation degree of difficulty, makes things convenient for old man and children user to use.

Description

Mobile terminal lens turning and viewing peripheral capable of efficiently switching shooting visual angles

Technical Field

The invention belongs to the field of mobile equipment, and particularly relates to a mobile-end lens turning and framing peripheral capable of efficiently switching shooting visual angles.

Background

At present, the network live broadcast technology is rapidly developed, the network live broadcast application fields are very many, and the connection with our life is more and more tight, such as company meeting, news media live broadcast, network marketing, live broadcast teaching and the like. Live instrument is also diversified, and based on present mobile device (cell-phone, panel computer, notebook etc.) more and more light, the camera lens is shot the quality and is more and more high, and everybody is more still tends to use the mobile terminal equipment to carry out live or shoot.

However, currently, all mobile terminal devices are limited to a camera which can only shoot contents in a linear direction where a lens is located, and if the shooting angle needs to be quickly switched and timely interaction on a screen is guaranteed during live broadcasting, the mobile terminal devices are very difficult to switch;

meanwhile, the prior art discloses a type of peripheral equipment of a mobile terminal lens, and images at other angles are collected to the lens by adding a reflecting device on the mobile terminal equipment. However, the prism and the fixing clamp of the equipment are integrated, the rotating angle is too free, and the following problems exist in combination with the current live broadcast application scene:

firstly, the fast switching between the original shooting angle and the conversion angle of the lens cannot be realized, and the operation is complicated after the peripheral is detached and installed, so that the live broadcast is influenced; secondly, the adjustment of the shooting angle is too complicated due to too much rotation angle of the prism; thirdly, the image deformation is serious due to the fact that the reflection angle is not calculated well, and inconvenience is brought to a user in the live broadcast period.

Disclosure of Invention

The invention aims to overcome the defect that the existing direction-changing viewing peripheral cannot freely switch between a main viewing angle and a direction-changing rear viewing angle shot by a lens in the using process; actual application scenes are not considered, and the operation of a user is complicated when the angle is adjusted due to excessive design of the rotation angle; and the defect of serious imaging deformation caused by inaccurate design of the reflection angle, and provides the mobile end lens direction-changing viewing peripheral equipment for efficiently switching the shooting visual angle.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a high-efficient removal end lens diversion of switching shooting visual angle is looked into and is looked into peripheral hardware, includes:

the prism comprises an incidence surface, a reflection surface and an exit surface, wherein the coating film on the surface of the reflection surface is used for reflecting image information;

the prism shell is arranged on the outer side of the prism, the reflecting surface of the prism is in adhesive connection with the prism shell, and the emergent surface of the prism is flush with the lower surface of the prism shell;

the locating clip comprises a first clamping piece, a second clamping piece, a rotating shaft for connecting the two clamping pieces and a reset spring assembled on the surface of the rotating shaft, and the locating clip is connected with the prism shell through two sets of rectangular magnets.

Preferably, on the same plane, an included angle formed between the incident surface and the reflecting surface is 30 °, and an included angle formed between the reflecting surface and the exit surface is 90 °.

Preferably, a groove body used for assembling the prism is arranged in the prism shell, and grooves used for embedding the rectangular magnets are formed in two sides of the lower surface of the prism shell.

Preferably, first spacing pieces are welded to the front side and the rear side of the lower surface of the first clamping piece, and second spacing pieces are welded to the front side and the rear side of the upper surface of the second clamping piece.

Preferably, a first shaft hole is formed in the surface of the first limiting piece, a second shaft hole is formed in the surface of the second limiting piece, and the rotating shaft is arranged in the first shaft hole and the second shaft hole in a penetrating mode.

Preferably, the upper surface of the first clamping piece is provided with a limiting groove, the shape and the size of the limiting groove are matched with the bottom of the prism shell, a limiting groove through hole is formed in the central position of the limiting groove, and a limiting groove iron sheet is fixedly filled in the limiting groove.

Preferably, the middle part of the limiting groove iron sheet is provided with a limiting groove iron sheet through hole, and the diameter of the limiting groove iron sheet through hole is 1-3 mm larger than that of the limiting groove iron sheet through hole.

Preferably, the upper surface of the second clamping piece is adhered with a soft pad through strong glue, and the thickness of the soft pad is 1-3 mm.

Compared with the prior art, the invention provides the mobile end lens direction-changing viewing peripheral capable of efficiently switching the shooting visual angle, which has the following beneficial effects:

firstly, the extractable prism assembly is adopted, so that the requirements of different shooting angles during direct broadcasting can be conveniently and quickly switched;

secondly, the rectangular magnet is used, a magnetic fixing mode is adopted, repeated operation on the mobile terminal equipment is reduced, and the change of the placing angle of the mobile terminal equipment caused by too much force or improper rotation angle when the positioning clamp is taken off is avoided;

thirdly, the whole equipment does not need to be repeatedly disassembled from the positioning clamp, so that the damage probability to the mobile terminal equipment is greatly reduced; the selection of adjustable direction has been simplified, has promoted the practicality for the device is applicable to the live of present mainstream and uses the scene, has reduced user's the operation degree of difficulty, makes things convenient for old man and children user to use.

Fourthly, three components of a prism, a prism shell and a positioning clamp are simply combined for use, the production and assembly cost is greatly reduced, and because each component is relatively independent, if the components are damaged, a user can independently configure the components of the damaged part.

Drawings

FIG. 1 is a schematic illustration of the subject structure of the invention in a disassembled state;

FIG. 2 is a schematic diagram of an exploded structure of a prism housing of the present invention;

FIG. 3 is a schematic illustration of an exploded view of the alignment clip of the present invention;

FIG. 4 is an elevation view of a triangular prism configuration of the present invention;

FIG. 5 is a front view of a retaining clip configuration of the present invention;

FIG. 6 is a schematic diagram of the left side camera of the mobile terminal device of the present invention in use;

fig. 7 is a schematic diagram of a use state of the upper camera of the equipment equipped with the mobile terminal of the invention.

Reference numerals: 1. a prism; 101. an incident surface; 102. a reflective surface; 103. an exit surface; 2. a prism housing; 201. a rectangular magnet; 3. positioning clips; 301. a first clip piece; 302. limiting the groove iron sheet; 303. a limiting groove through hole; 304. limiting a trough iron sheet through hole; 305. a first limiting sheet; 306. a first shaft hole; 307. a second clip; 308. a second limiting sheet; 309. a second shaft hole; 310. a soft cushion; 311. a rotating shaft; 312. a return spring.

Detailed Description

The following further describes a specific embodiment of the mobile end lens direction-changing viewing peripheral for efficiently switching the shooting angle according to the present invention with reference to fig. 1. The moving-end lens direction-changing viewing peripheral device for efficiently switching the shooting angle of view according to the present invention is not limited to the description of the following embodiments.

This embodiment provides a specific structure of a mobile end lens direction-changing viewing peripheral device capable of efficiently switching a shooting angle, and as shown in fig. 1 to 7, a mobile end lens direction-changing viewing peripheral device capable of efficiently switching a shooting angle includes:

a prism 1 including an incident surface 101, a reflecting surface 102, and an exit surface 103, the surface of the reflecting surface 102 being coated with a film for reflecting image information;

specifically, the coating on the surface of the reflecting surface 102 can enable the image entering from the incident surface 101 to be completely reflected, so that the image entering from the emergent surface 103 into the mobile terminal device is clearer; the incident surface 101 is the surface with the largest area in the triangular prism 1, so that the shot image is larger, and a complete image which can be collected by the mobile terminal device regardless of the use of a transverse screen or a vertical screen is ensured.

The prism shell 2 is arranged on the outer side of the prism 1, the reflecting surface 102 of the prism 1 is in adhesive connection with the prism shell 2, and the emergent surface 103 of the prism 1 is flush with the lower surface of the prism shell 2;

specifically, the prism 1 and the prism shell 2 can be freely taken off or put back to the original position as a whole, and the original shooting direction of the lens and the quick switching between the prism changing angles during live broadcasting can be quickly switched.

The positioning clip 3 comprises a first clamping piece 301, a second clamping piece 307, a rotating shaft 311 for connecting the two clamping pieces, and a return spring 312 assembled on the surface of the rotating shaft 311, and the positioning clip 3 is connected with the prism housing 2 by arranging two groups of rectangular magnets 201.

Specifically, the rotating shaft 311 penetrates through shaft holes on the two limiting pieces to fix the return spring 312 between the two clamping pieces to form a clamp shape, and the return spring is used for being fixed at the lens of the mobile terminal device.

The invention is composed of three parts, namely a prism 1, a prism shell 2 and a positioning clamp 3, wherein the prism 1 is fixed in the prism shell 2 as a whole and is placed in a square limiting groove of the positioning clamp 3 in a magnetic attraction manner.

The user can take off prism 1 at any time when directly broadcasting, uses the original shooting angle of camera, puts back prism 1 again and uses other shooting angles. Therefore, the purpose of quickly switching the shooting visual angle can be realized under the condition that the positioning clamp 3 is not required to be taken off.

There is the spacing groove through-hole 303 of the various removal end equipment camera sizes of an adaptation in square spacing groove bottom portion of fixation clamp 3, can set up the fixation clamp 3 position fast, no matter be the direct broadcast of horizontal screen or erect the direct broadcast of screen only need same kind of fixation clamp 3 operation can, promoted the work efficiency when setting up the assembly greatly, this kind of design is experienced more obviously in the use to the pupil and the old person who use the live broadcast of network.

Meanwhile, the support of the mobile terminal device and the viewing peripheral are integrated, and the part for fixing the mobile terminal device can rotate, so that the problems of lens turning and support are solved at the same time, and the mobile terminal support is a common mobile terminal support without a prism.

The working principle of the whole peripheral is as follows:

in the scheme, the prism 1 is selected as a reflection original, the reflection image is clearer than that of the reflection of an ordinary single-side mirror, and the deformation of the image is smaller.

The image enters the interior of the triangular prism 1 through the incident surface 101, reaches the reflecting surface 102, and then is subjected to first total reflection, and at the moment, the image is completely shot and successfully reflected.

The image of the first total reflection is continuously transmitted in the triple prism 1 and reaches the back of the incident surface 101 for second reflection, and the image of the second reflection is emitted from the emergent surface 103 and is transmitted into the lens of the mobile terminal device through the limiting groove through hole 303 at the center of the square limiting groove on the positioning clamp 3.

The triangular prism 1 can reflect a clear image within a range of 0-120 degrees (the actual angle is larger, but the perspective is also larger) of the plane included angle of the emergent surface 103 into the lens of the movable end, so that the purpose of changing the original shooting view-finding angle of the movable end is achieved.

As shown in fig. 2 and 4, on the same plane, the angle formed between the incident surface 101 and the reflecting surface 102 is 30 °, and the angle formed between the reflecting surface 102 and the exit surface 103 is 90 °.

Specifically, the range of the most clear image collected starts at 0 ° below the exit surface 103 and advances to 120 °. When the mobile terminal screen is used, a reasonable distance can be kept between a user and the mobile terminal equipment screen, so that the user can see pictures clearly and click on the mobile terminal screen in time;

the position relation between the emergent surface 103 of the prism 1 and the limiting groove through hole 303 is accurately calculated, and after the limiting groove through hole 303 is aligned with the lens, the lens at the moving end is about 3mm away from the bottom edge of the emergent surface 103; at the moment, the image collected by the lens is the most complete, namely the original image seen from the screen is complete and has no occlusion; therefore, the method is compatible with various live platform software, and provides a larger creative space for the design of a live platform software interface UI.

The technical scheme of replacing the prism 1 is as follows:

the angle between the incident surface 101 and the exit surface 103 of the triangular prism 1 is increased, and the range of captured image acquisition is increased. (but the perspective is stronger, the effect is influenced, and the distance is too long, so that the screen is inconvenient to operate in time); the incident surface 101 is made into a convex lens, wide-angle shooting is changed, and a larger range of framing is obtained;

the number of prism surfaces is increased, and the internal reflection times are increased, so that more angles of view finding are realized; the number of the prism surfaces is changed, and the number of the limit groove sides of the first clamping piece 301 is increased, such as a 6-side type and an 8-side type, so that more angles of image acquisition are increased.

As shown in fig. 2, a groove body for assembling the prism 1 is provided inside the prism housing 2, and grooves for embedding the rectangular magnets 201 are provided on both sides of the lower surface of the prism housing 2.

The alternative design of the rectangular magnet 201 is:

by increasing the height of the frame of the limiting groove on the first clamping piece 301, the prism part with partial angle can not fall off without being adsorbed by a magnet; the limiting groove on the first clamping piece 301 is connected with the prism shell 2 in a buckling mode, and the fixing problem can be solved.

As shown in fig. 3, the first clamping piece 301 is welded with first limiting pieces 305 on both the front and rear sides of the lower surface thereof, and the second clamping piece 307 is welded with second limiting pieces 308 on both the front and rear sides of the upper surface thereof.

As shown in fig. 3, a first shaft hole 306 is formed on the surface of the first position-limiting piece 305, a second shaft hole 309 is formed on the surface of the second position-limiting piece 308, and a rotating shaft 311 penetrates through the first shaft hole 306 and the second shaft hole 309.

As shown in fig. 3, the upper surface of the first clamping piece 301 is provided with a limiting groove, the shape and size of the limiting groove are matched with the bottom of the prism housing 2, a central position of the limiting groove is provided with a limiting groove through hole 303, and a limiting groove iron piece 302 is fixedly filled in the limiting groove.

Specifically, the diameter of the limiting groove through hole 303 at the center of the limiting groove of the first clamping piece 301 is 6mm, so that the limiting groove through hole can be adapted to the size of a lens of all mobile terminal devices on the market, and the positioning clamp can be used for positioning more quickly and accurately without influencing the passing of images.

As shown in fig. 3, a limiting channel iron sheet through hole 304 is formed in the middle of the limiting channel iron sheet 302, and the diameter of the limiting channel iron sheet through hole 304 is 1-3 mm larger than that of the limiting channel iron sheet through hole 303.

As shown in fig. 3 and 5, the upper surface of the second jaw 307 is adhered with a soft pad 310 by strong glue, and the thickness of the soft pad 310 is 1-3 mm.

The installation and use process of the whole peripheral:

during the use, take off the prism part (prism 1 and prism shell assembly) earlier, fix the camera lens department at removal end equipment with the locating clip 3, confirm that the position can be through spacing groove through-hole 303 in the middle of the 301 positive direction spacing groove of first clamping piece and the camera lens is between two parties and align, put the back according to removing the end after putting, put the prism part back to the spacing inslot again, then accomplished the installation step.

During live broadcast use, if the content in the front of the live broadcast is required to be shot through the lens, the prism part can be easily taken down so as to be checked, and if the live broadcast is required to return to the original shooting angle again, the prism part can be put back again.

The screen is always towards the user during the use, and the interaction on the screen during live broadcasting is not influenced. The user no matter adopt horizontal screen or erect the live of screen and do not need extra adjustment locating clip, even the live mode of temporary change during live, also only need take off partial angle of adjustment of prism put back can.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (8)

1. The utility model provides a high-efficient removal end camera lens diversion of switching shooting visual angle is looked into and is looked into peripheral hardware, its characterized in that includes:

the prism (1) comprises an incident surface (101), a reflecting surface (102) and an emergent surface (103), wherein the coating film on the surface of the reflecting surface (102) is used for reflecting image information;

the prism shell (2) is arranged on the outer side of the prism (1), the reflecting surface (102) of the prism (1) is in adhesive connection with the prism shell (2), and the emergent surface (103) of the prism (1) is flush with the lower surface of the prism shell (2);

the positioning clamp (3) comprises a first clamping piece (301), a second clamping piece (307), a rotating shaft (311) used for connecting the two clamping pieces and a reset spring (312) assembled on the surface of the rotating shaft (311), and the positioning clamp (3) is connected with the prism shell (2) through two sets of rectangular magnets (201).

2. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 1, wherein: on the same plane, an included angle formed between the incident surface (101) and the reflecting surface (102) is 30 degrees, and an included angle formed between the reflecting surface (102) and the emergent surface (103) is 90 degrees.

3. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 1, wherein: the groove body that is used for assembling prism (1) is seted up to the inside of prism shell (2), and the recess that is used for inlaying and establishes rectangle magnet (201) is all seted up to the both sides of prism shell (2) lower surface.

4. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 1, wherein: first spacing piece (305) have all been welded to the preceding back both sides of first clamping piece (301) lower surface, second spacing piece (308) have all been welded to the preceding back both sides of second clamping piece (307) upper surface.

5. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 4, wherein: the surface of the first limiting piece (305) is provided with a first shaft hole (306), the surface of the second limiting piece (308) is provided with a second shaft hole (309), and the rotating shaft (311) is arranged in the first shaft hole (306) and the second shaft hole (309) in a penetrating mode.

6. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 1, wherein: the upper surface of first clamping piece (301) has seted up the spacing groove, and its shape and size all match with the bottom of prism shell (2), and the central point department of putting of spacing inslot has seted up spacing groove through-hole (303) to at the fixed packing of the inside of spacing groove iron sheet (302).

7. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 6, wherein: the middle part of the limiting groove iron sheet (302) is provided with a limiting groove iron sheet through hole (304), and the diameter of the limiting groove iron sheet through hole (304) is 1-3 mm larger than that of the limiting groove iron sheet through hole (303).

8. The mobile end lens direction-changing viewing peripheral device for efficiently switching a shooting angle of view according to claim 1, wherein: the upper surface of the second clamping piece (307) is adhered with a soft pad (310) through strong glue, and the thickness of the soft pad (310) is 1-3 mm.

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