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Short distance optical magnification module, glasses, helmet and vr system

An optical magnification and short-distance technology, applied in the field of optical instruments, can solve the problem of low experience and achieve the effect of large eye movement range, good experience and high-quality imaging effect

Active Publication Date: 2018-08-14
SHENZHEN DLODLO NEW TECHNOLOGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] An embodiment of the present invention provides a short-distance optical zoom module, glasses, a helmet, and a VR system to solve the problem of low user experience in smart VR wearable devices in the prior art

Method used

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  • Short distance optical magnification module, glasses, helmet and vr system
  • Short distance optical magnification module, glasses, helmet and vr system
  • Short distance optical magnification module, glasses, helmet and vr system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0073] Such as figure 2 As shown, in the short-distance optical magnification module, the focal length f1 of the first lens is designed to be infinite, and the first focal length f2 of the second lens 20 is equal to the system focal length 1.2F, wherein,

[0074] The specific design parameters of the short-distance optical amplification module are shown in Table 1:

[0075] Surf

type

radius of curvature

thickness

material

Lens diameter

Aspheric coefficient

OBJ

STANDARD

Infinity

-102.8883

205.7766

0

STO

STANDARD

Infinity

5

5

0

2

STANDARD

Infinity

0.1028883

PMMA

14.75702

0

3

STANDARD

Infinity

1.028883

H-ZF52A

14.86619

0

4

STANDARD

Infinity

3.630055

15.7104

-32.99979

5

STANDARD

Infinity

2.5

H-QK1

22.7941

0

6

STANDARD

-42.3863

-2.5

MIRROR

23.6459

0.8191897

...

Embodiment 2

[0083] Such as Figure 6 As shown, in the short-distance optical magnification module, the focal length f1 of the first lens is designed to be 8.7F, and the first focal length f2 of the second lens 20 is equal to the system focal length 1.6F, wherein,

[0084] The specific design parameters of the short-distance optical amplification module are shown in Table 3:

[0085] Surf

type

radius of curvature

thickness

material

Lens Radius

Aspheric coefficient

OBJ

STANDARD

Infinity

Infinity

0

0

1

PARAXIAL

-

0

6

-

STO

STANDARD

Infinity

8

6

0

3

STANDARD

Infinity

0.3

BK7

34

0

4

STANDARD

Infinity

0

34

0

5

STANDARD

Infinity

1.5

PMMA

34

-28.9321

6

EVENASPH

-55.02969

0.4770962

34

31.73109

7

EVENASPH

215.789

5.5

PMMA

34

3.135107

8

STANDARD ...

Embodiment 3

[0103] Such as Figure 10 As shown, in the short-distance optical magnification module, the focal length f1 of the first lens is designed to be 8.7F, and the first focal length f2 of the second lens 20 is equal to the system focal length 1.89F, wherein,

[0104] The specific design parameters of the short-distance optical amplification module are shown in Table 6:

[0105] Surf

type

radius of curvature

thickness

material

Lens Radius

Aspheric coefficient

OBJ

STANDARD

Infinity

Infinity

0

0

1

PARAXIAL

-

0

6

-

STO

STANDARD

Infinity

8

6

0

3

STANDARD

Infinity

0.3

BK7

34

0

4

STANDARD

Infinity

0

34

0

5

STANDARD

Infinity

2.5

PMMA

34

-30.574

6

EVENASPH

-37.84298

1.068855

34

-33.0001

7

EVENASPH

25452.91

4.5

PMMA

34

10.01056

8

STANDARD...

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Abstract

The embodiment of the invention discloses a short distance optical amplification module, spectacles, a helmet and a VR system. The amplification module comprises a reflective polarizing film, a first phase retarder, a second lens and a second phase retarder which are sequentially arranged, and any position on the two sides of any optical element among the reflective polarizing film, the first phase retarder, the second lens and the second phase retarder is further provided with a first lens; the optical surface, close to the second phase retarder, in the second lens is a semi-transmission semi-reflection optical surface; a first focal distance f2 of the second lens meets the condition that f2 is larger than or equal to 1.2 F and smaller than or equal to 2 F, wherein F is the system focal distance of the optical amplification module. Parameter refinement is conducted on the first focal distance f2 which affects the optical amplification effect so that the module can maintain small overall thickness while obtaining a high optical amplification effect, the VR equipment can achieve a better field angle, a large eye movement range and a high-quality imaging effect, and a better experience feeling is brought to a user.

Description

technical field [0001] The invention relates to an optical instrument, in particular to a short-distance optical amplification module, glasses, a helmet and a VR system. Background technique [0002] In the existing optical amplification module structure, such as figure 1 As shown, from the image side to the object side, it includes a reflective polarizer 01, a first phase retarder 02, a lens unit 03, and a second phase retarder 04. In the lens unit 03, close to the second phase retarder The optical surface of sheet 04 is a transflective optical surface. During use, the optical image on the object side is transmitted and enlarged through the lens unit 03, then reflected on the reflective polarizer 01, and then amplified twice through the lens unit 03, and finally passed through the reflective polarizer Piece 01 enters the human eye. Further, there is also a Other lens units that do not affect the phase delay of light rays. The lens unit 03 and other lens units form a le...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B27/28G02B27/01
Inventor 李刚汤伟平
Owner SHENZHEN DLODLO NEW TECHNOLOGY CO LTD
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