CN207882552U - A kind of ultra-thin ultra high-definition array lens - Google Patents

Abstract

The utility model is related to mobile lens technical field more particularly to a kind of ultra-thin ultra high-definition array lens, including：Microscope base, IR modules in microscope base bottom are set, first mylar film, second mylar film, third mylar film and the 4th mylar film, the first lens being arranged between the first mylar film and the second mylar film and the second lens, it is provided with spacer ring between first lens and the second lens, the third lens being arranged between the second mylar film and third mylar film, and the 4th lens being arranged between third mylar film and the 4th mylar film, first lens, second lens, the incidence surface and light-emitting surface of the third lens and the 4th lens are formed by being no less than 3 arrays of structures that are aspherical and being rotated in 360 °.The utility model reduces module height, can select clear pattern automatically and make zoom or background blurring effect, also has 3D range images, and the range image of light field and high-definition picture synthesis is captured by integrated parallax detection and super-resolution.

Description

A kind of ultra-thin ultra high-definition array lens

Technical field

The utility model is related to mobile lens technical field more particularly to a kind of ultra-thin ultra high-definition array lens.

Background technology

Due to general camera lens stability, environmental protection, it is at low cost, etc. have a clear superiority, in mobile phone, camera, Monitoring, it is vehicle-mounted that fields is waited to be widely used.

Currently, the effect that general camera lens takes the photo come on the market is all plane.For the photo for taking pictures out Only there are one point focusings clearly, and it is fuzzy that unsharp position of focusing, which takes pictures out,；With AR, VR, 3D technology is constantly deep Enter the popular feeling, camera lens cannot meet the needs of people on the market.

Utility model content

The utility model provides a kind of ultra-thin ultra high-definition array lens, reduces module height, and it is clear to select automatically Pattern makes zoom or background blurring effect, also has 3D range images, passes through integrated parallax detection and super-resolution Capture the range image of light field and high-definition picture synthesis.

In order to solve the above-mentioned technical problem, technical solution adopted in the utility model is：

A kind of ultra-thin ultra high-definition array lens, including：The IR modules in the microscope base bottom are arranged, from lower to upper in microscope base The first mylar film, the second mylar film, third mylar film and the 4th mylar film being successively set on the microscope base are arranged described The first lens between first mylar film and second mylar film and the second lens, first lens and second lens Between be provided with spacer ring, the third lens being arranged between second mylar film and the third mylar film, and be arranged in institute State the 4th lens between third mylar film and the 4th mylar film, first lens, second lens, the third The incidence surface and light-emitting surface of lens and the 4th lens are by being no less than 3 array of structures groups that are aspherical and being rotated in 360 ° At.

Preferably, first mylar film, second mylar film, the third mylar film and the 4th mylar film by No less than 3 hole array compositions.

Preferably, first lens, second lens, the third lens and the 4th lens are that plastic cement is saturating Mirror.

Preferably, the refractive index of first lens, second lens, the third lens and the 4th lens is situated between Between 1.3-1.8.

Preferably, the transmitance of first lens, second lens, the third lens and the 4th lens is situated between Between 85-94.

Preferably, first mylar film, second mylar film, the third mylar film and the 4th mylar film are equal It is made of same material.

Preferably, first lens, second lens, the third lens and the 4th lens are rounded or different Shape.

Preferably, first mylar film, second mylar film, the third mylar film and the 4th mylar film are in Round or abnormity.

Preferably, the microscope base and the spacer ring are made of PC or LCP.

Preferably, the IR modules are made of BK7 materials.

Compared with prior art, a kind of ultra-thin ultra high-definition array lens of the utility model, by by first lens, Second lens, the incidence surface of the third lens and the 4th lens and light-emitting surface are set as by being no less than 3 aspheric Face and in 360 ° rotation arrays of structures composition so that the utility model reduces module height, and first lens state second Lens, the incidence surface of the third lens and the 4th lens and light-emitting surface by be no less than 3 it is aspherical and in 360 ° rotation Array of structures composition, also so that the utility model also has the function of that 3D imagings, the utility model pass through integrated parallax inspection It surveys and super-resolution, capture light field and high-definition picture has synthesized range image so that the utility model has ultra-thin, Gao Xing The characteristics of energy, in addition, the utility model also has into the lower-cost feature of production.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of ultra-thin ultra high-definition array lens of the utility model.

Fig. 2 is a kind of cross-sectional view of ultra-thin ultra high-definition array lens of the utility model.

Specific implementation mode

Below in conjunction with the accompanying drawings, the embodiment of the utility model is specifically illustrated, attached drawing is only for reference and illustrates to use, not structure The limitation of pairs of the utility model patent protection domain.

It please refers to Fig.1 and Fig. 2, a kind of ultra-thin ultra high-definition array lens of the utility model, including：Microscope base 1, IR modules 2, First mylar film 3, the second mylar film 4, third mylar film 5, the 4th mylar film 6, the first lens L1, the second lens L2, third are saturating Mirror L3, the 4th lens L4 and spacer ring 7, wherein the IR modules 2 are arranged in 1 bottom of the microscope base, first mylar film 3, institute The second mylar film 4, the third mylar film 5 and the 4th mylar film 6 is stated to be successively set on from lower to upper on the microscope base 1, The first lens L1 is arranged on first mylar film 3, and the second lens L2 is arranged described first thoroughly by spacer ring On mirror L1 and it is arranged at the second mylar film L2, the third lens L3 setting is in second mylar film 3 and described the Between three mylar films 4, the 4th lens L4 is arranged between 4 and the 4th mylar film 5 of the third mylar film.The utility model The spacer ring by 9 or multiple holes battle array form.

Specifically, material used in the microscope base 1 is PC (makrolon) or LPC (polymeric liquid crystal copolymer) material Matter, the microscope base 1 are rounded, it should be noted that the microscope base 1 can also be in abnormity.

The IR modules 2 are made of BK7 materials, and the IR modules 2 are infrared module.

First mylar film 3, second mylar film 4, the third mylar film 5 and the 4th mylar film 6 be not by Hole array composition less than 3, first mylar film 3, second mylar film 4, the third mylar film 5 and the described 4th Mylar film 6 is made of same material, can be specifically made of SOMA, more specifically, first mylar film 3, described second Mylar film 4, the third mylar film 5 and the 4th mylar film 6 are made of 9 hole arrays, first mylar film 3, described Second mylar film 4, the third mylar film 5 and the 4th mylar film 6 are rounded, it should be noted that first wheat Pulling-on piece 3, second mylar film 4, the third mylar film 5 and the 4th mylar film 6 also can be in abnormity.It needs to illustrate Be, first mylar film 3, second mylar film 4, the third mylar film 5 and the 4th mylar film 6 X-axis and Y-axis Spacing may be configured as equidistantly may be alternatively provided as Unequal distance, first mylar film 3, second mylar film 4, the third wheat The structure setting of pulling-on piece 5 and the 4th mylar film 6 ensure that each lens in airspace when assembled, and then ensure The performance of the utility model.

The incidence surface of the first lens L1, the second lens L2, the third lens L3 and the 4th lens L4 It is formed with light-emitting surface by being no less than 3 arrays of structures that are aspherical and being rotated in 360 °, the first lens L1, described second are thoroughly Mirror L2, the third lens L3 and the 4th lens L4 are plastic lens, the first lens L1, second lens The refractive index of L2, the third lens L3 and the 4th lens L4 are the first lens L1, described between 1.3-1.8 The transmitance of second lens L2, the third lens L3 and the 4th lens L4 are between 85-94, first lens L1, the second lens L2, the third lens L3 and the 4th lens L4 are rounded, the first lens L1, described Second lens L2, the third lens L3 and the 4th lens L4 can also be in abnormity.Specifically, the first lens L1, institute The second lens L2, the X-axis of the third lens L3 and the 4th lens L4 and Y-axis spacing is stated to may be configured as equidistantly or differ Pitch structure, the first lens L1, the second lens L2, the third lens L3 and the 4th lens L4 are by refractive index Transparent optical resin material between 1.3-1.8 is made.By the first lens L1, the second lens L2, described The incidence surface and light-emitting surface of three lens L3 and the 4th lens L4 are set as no less than 3 aspherical and in 360 ° of rotations Array of structures so that the height that entire module can be reduced of the utility model, meanwhile, also improve the property of the utility model Can, in addition, the first lens L1, the second lens L2, the third lens L3 and the 4th lens L4 structure and Installation settings, it is ensured that airspace, and then improve the performance of the utility model.

The first lens L1 of the utility model, the second lens L2, the third lens L3 and the described 4th are thoroughly Material used in mirror L4, first mylar film 3, second mylar film 4, the third mylar film 5 and the 4th wheat The material of pulling-on piece 6 uses and structure setting so that the utility model effectively increases this under the premise of not increasing cost The performance of utility model, by the first lens L1, the second lens L2, the third lens L3 and the 4th lens L4 Incidence surface and light-emitting surface by be no less than 3 it is aspherical and in 360 ° rotation arrays of structures so that the utility model also has The function of 3D imagings, in addition, parallax detection and super-resolution that the utility model is integrated, capture light field and high-definition picture closes At the depth of field, the utility model also by the different depth of field, select clear pattern automatically, make zoom or carry out it is background blurring, into And make the utility model that there is better visual effect.

Above disclosed is only the preferred embodiment of the utility model, and the right of the utility model cannot be limited with this Protection domain, therefore equivalent variations made according to the patent scope of the utility model still belong to the model that the utility model is covered It encloses.

Claims (10)

1. a kind of ultra-thin ultra high-definition array lens, including：The IR modules in the microscope base bottom are arranged in microscope base, from lower to upper according to Secondary the first mylar film being arranged on the microscope base, the second mylar film, third mylar film and the 4th mylar film, setting is described the The first lens between one mylar film and second mylar film and the second lens, first lens and second lens it Between be provided with spacer ring, the third lens being arranged between second mylar film and the third mylar film, and be arranged described The 4th lens between third mylar film and the 4th mylar film, which is characterized in that first lens, described second are thoroughly Mirror, the incidence surface of the third lens and the 4th lens and light-emitting surface by be no less than 3 it is aspherical and in 360 ° rotation Array of structures forms.

2. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that first mylar film, described second Mylar film, the third mylar film and the 4th mylar film are made of the hole array for being no less than 3.

3. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that first lens, described second are thoroughly Mirror, the third lens and the 4th lens are plastic lens.

4. the ultra-thin ultra high-definition array lens as described in claim 1 or 3, which is characterized in that first lens, described second The refractive index of lens, the third lens and the 4th lens is between 1.3-1.8.

5. ultra-thin ultra high-definition array lens as claimed in claim 4, which is characterized in that first lens, described second are thoroughly The transmitance of mirror, the third lens and the 4th lens is between 85-94.

6. ultra-thin ultra high-definition array lens as claimed in claim 1 or 2, which is characterized in that first mylar film, described the Two mylar films, the third mylar film and the 4th mylar film are made of same material.

7. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that first lens, described second are thoroughly Mirror, the third lens and the 4th lens are rounded or special-shaped.

8. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that first mylar film, described second Mylar film, the third mylar film and the 4th mylar film are rounded or special-shaped.

9. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that the microscope base and the spacer ring are by PC Or LCP is made.

10. ultra-thin ultra high-definition array lens as described in claim 1, which is characterized in that the IR modules are by BK7 material systems At.