CN101887166B - Ocular - Google Patents

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Publication number
CN101887166B
CN101887166B CN 201010227517 CN201010227517A CN101887166B CN 101887166 B CN101887166 B CN 101887166B CN 201010227517 CN201010227517 CN 201010227517 CN 201010227517 A CN201010227517 A CN 201010227517A CN 101887166 B CN101887166 B CN 101887166B
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lens
coeff
eyepiece
focal length
eyepiece according
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CN101887166A (en
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陈云亮
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Shenzhen Academy of Aerospace Technology
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Shenzhen Academy of Aerospace Technology
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Abstract

The invention relates to an ocular, comprising an aperture, a first lens, a second lens and a third lens which are coaxially and successively arranged from the observing side of human eyes to the display device side along the direction of an optic axis, and the relation among materials, the focuses and positions of the first lens, the second first lens and the third lens meet a certain relation, thus an image displayed on a displayer is imaged in human eyes at the aperture after being amplified by the ocular. The ocular of the invention has the advantages of large bore diameter, large field of view, short focus, low aberration and the like, is suitable for the head-wearing displayer and similar devices, can be made of optic plastics, and has light weight and low cost.

Description

Eyepiece
Technical field
The present invention relates to optical technical field, more particularly, relate to a kind of eyepiece that is applicable to head-mounted display or similar device.
Background technology
Head-mounted display (or claiming Helmet Mounted Display, video eyeglasses) still all has huge using value and market in fields such as military affairs, industry, medical treatment at multimedia recreation.To the requirement of head-mounted display be that comfortable wearing, compact conformation volume are little, high imaging quality and big as far as possible visual field.
Head-mounted display mainly is made up of three parts: display unit, optical system, connect the above two physical construction.Optical system has determined that image quality, visual field size, the volume of head-mounted display are big or small, and promptly optical system is the core of head-mounted display, and its performance parameter has determined product total system parameter.
Use for head-mounted display, require optical system to try one's best big visual field to guarantee to have enough feeling of immersion; Require the bigger emergent pupil size of optical system, can not lose image in the Oculomotor while with the people who guarantees different pupil distances; Require the optical system little focal length of trying one's best, to guarantee system compact type and enough enlargement ratios.And visual field, emergent pupil size, these three parameters of focal length are mutual restriction for optical system.At present, traditional goggle structure with coaxial spherical lens group can't satisfy the requirement of high picture element, big visual field and small size, and optical system compactedness and optical system imaging quality require to exist certain contradiction.On the other hand, coaxial eyepiece optical system has that processing technology is ripe, with low cost, steady performance.Overcome the shortcoming of centered optical system, bringing into play its advantage is the inherent requirement of good available optical system.
Summary of the invention
The technical matters that the present invention will solve is; Can't satisfy the defective of the requirement of high picture element, big visual field and small size to the eyepiece of existing head-mounted display; A kind of eyepiece that is applicable to head-mounted display or similar device is provided, and its distance of exit pupil is long, field angle is big and volume is less relatively.
The technical solution adopted for the present invention to solve the technical problems is: construct a kind of eyepiece, comprise three all-plastic lens, as Fang Yuanxin; Said eyepiece from eye-observation one side to display device one side, along coaxial direction coaxial diaphragm, first lens, second lens and the 3rd lens of being arranged in order;
Wherein, the focal length of said first lens is f1, and the focal length of second lens is f2; The focal length of the 3rd lens is f3, and the total focal length of system is fw, and diaphragm is df to the centre distance of first lens; The 3rd lens are db to the centre distance of the display chip of display device, and satisfy following relational expression:
1)0.6<f1/fw<0.85,
2)0.4<|f2/fw|<0.6,
3)0.5<f3/fw<0.75,
4)0.78<df/fw<0.82,
5)0.28<db/fw<0.45;
And the material of said first lens, second lens and the 3rd lens requires below satisfying:
Nd1>1.48, Nd3>1.48, Nd1, Nd3 represent first lens, the 3rd lens refractive index at the d line respectively;
Vd1>56, Vd3>56, Vd1, Vd3 represent first lens, the 3rd lens Abbe number at the d line respectively;
Nd2>1.55, Vd2<30, Nd2, Vd2 represent refractive index and the Abbe number of second lens at the d line respectively.
In preferred embodiments more of the present invention, said first lens and the 3rd lens are positive lens, and second lens are negative lens.In the present invention's preferred embodiment further, said first lens are biconvex lens, and said second lens are meniscus shaped lens, and two curvature of curved surface radiuses of second lens be on the occasion of.
In preferred embodiments more of the present invention, the focal length of said first lens, second lens and the 3rd lens further satisfies following relational expression, to obtain better imaging effect:
6)0.7<f1/fw<0.8;
7)0.45<|f2/fw|<0.55;
8)0.6<f3/fw<0.73。
In preferred embodiments more of the present invention, said first lens, second lens and the 3rd lens are optical plastic.For example, said first lens and the 3rd lens can adopt polymethylmethacrylate (PolymethylMethacrylate PMMA) processes, i.e. Nd1=Nd3=1.492, Vd1=Vd3=57.3274.Second lens can adopt polycarbonate, and (Polycarbonate PC) processes, i.e. Nd2=1.586, Vd2=29.9309.Lens among the present invention are not limited only to above-mentioned two kinds of materials, can also select for use other to meet the optical plastic of refractive index and Abbe number scope.
In preferred embodiments more of the present invention, having an optical surface in said first lens, second lens and the 3rd lens at least is axisymmetric aspheric surface, with the corrective system aberration, like the curvature of field and distortion.Further among some embodiment, the optical surface of said first lens, second lens and the 3rd lens is all axisymmetric aspheric surface in the present invention, thus corrective system aberration better.Preferably, said aspheric expression formula is:
z = cr 2 1 + 1 - ( 1 + k ) c 2 r 2 + α 2 r 2 + α 4 r 4 + α 6 r 6 + . . . . . . ;
Wherein, z is the rise of optical surface, and c is a curvature, and k is an asphericity coefficient, α 2,4,6 ...Be each rank coefficient, r is a range coordinate of putting lens system optical axis on the curved surface.
The eyepiece of embodiment of the present invention; Have following beneficial effect: eyepiece of the present invention adopts three lens with different qualities; The display device images displayed is amplified through the optical system that this eyepiece constitutes, and through being positioned at the eyes imaging at diaphragm place, this eyepiece exit pupil diameter is greater than general eyepiece; It is as Fang Yuanxin, illumination evenly, compact conformation, big visual field, low distortion.In addition, the present invention can adopt aspheric design, thereby utilizes optical aspherical surface to the optical system anaberration, has guaranteed big distance of exit pupil, big field angle, low distortion.Simultaneously, the eyeglass that the present invention also adopts optical plastic to process, for glass mirror, its light weight, cost are low, can realize the aspheric surface of the higher order polynomial that glass is difficult to realize.
Description of drawings
To combine accompanying drawing and embodiment that the present invention is described further below, in the accompanying drawing:
Fig. 1 shows the optical system diagram according to the eyepiece of first embodiment of the invention;
The optical system that Fig. 2 shows according to the eyepiece of first embodiment of the invention passes letter figure;
Fig. 3 (a) and Fig. 3 (b) show the curvature of field and distortion curve according to the eyepiece of first embodiment of the invention respectively;
Fig. 4 shows the optical system diagram according to the eyepiece of second embodiment of the invention;
The optical system that Fig. 5 shows according to the eyepiece of second embodiment of the invention passes letter figure;
Fig. 6 (a) and Fig. 6 (b) show the curvature of field and distortion curve according to the eyepiece of second embodiment of the invention respectively;
Fig. 7 shows the optical system diagram according to the eyepiece of third embodiment of the invention;
The optical system that Fig. 8 shows according to the eyepiece of third embodiment of the invention passes letter figure;
Fig. 9 (a) and Fig. 9 (b) show the curvature of field and distortion curve according to the eyepiece of third embodiment of the invention respectively.
Embodiment
In order to make the object of the invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with accompanying drawing and embodiment.
See also Fig. 1, be optical system diagram according to the eyepiece of first embodiment of the invention.As shown in Figure 1, to display device I side (from left to right), be followed successively by diaphragm E, the first lens L1, the second lens L2, the 3rd lens L3 and display device I from the eye-observation side.In the present embodiment, the first lens L1 and the 3rd lens are positive lens, and second lens are that negative lens is with the corrective system aberration.And the first lens L1, the second lens L2, the 3rd lens L3 all adopt aspheric surface to comprise the curvature of field and distortion with the corrective system aberration.At this, be 1 with diaphragm E surface sequence number, and the like, display device I surface is 8.
The said first embodiment eyepiece design data is as shown in table 1 below:
Table 1
Figure GDA0000085798380000041
Figure GDA0000085798380000051
Each surperficial aspheric surface parameter is following among first embodiment:
Surface 2 (Surface 2) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:6.1412944e-005
Coeff?on?r?6:2.5580088e-006
Coeff?on?r?8:-1.1230122e-007
Coeff?on?r?10:8.9015252e-010
Surface 3 (Surface 3) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-3.309314e-005
Coeff?on?r?6:9.3557479e-007
Coeff?on?r?8:-9.0216008e-008
Coeff?on?r?10:8.8576475e-010
Surface 4 (Surface 4) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-9.6376876e-005
Coeff?on?r?6:2.6558718e-006
Coeff?on?r?8:-1.7473741e-007
Coeff?on?r?10:1.545018e-009
Surface 5 (Surface 5) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:4.4542079e-005
Coeff?on?r?6:1.2197471e-005
Coeff?on?r?8:-1.473328e-007
Coeff?on?r?10:-3.1703855e-009
Surface 6 (Surface 6) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-3.8892206e-006
Coeff?on?r?6:8.4908171e-006
Coeff?on?r?8:-4.6741251e-008
Coeff?on?r?10:3.9082855e-009
Surface 7 (Surface 7) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-9.6742694e-006
Coeff?on?r?6:2.5950192e-006
Coeff?on?r?8:-3.1095373e-008
Coeff?on?r?10:1.1111381e-008
See also Fig. 2, show optical system biography letter figure according to the eyepiece of first embodiment of the invention; Fig. 3 (a) and Fig. 3 (b) show the curvature of field and distortion curve according to the eyepiece of first embodiment of the invention respectively.As shown in the figure, the image quality of optical system that characterizes out present embodiment is high, and distance of exit pupil is big, field angle big and distort low.
See also Fig. 4, be optical system diagram according to the eyepiece of second embodiment of the invention.As shown in Figure 4, to display device I side (from left to right), be followed successively by diaphragm E, the first lens L1, the second lens L2, the 3rd lens L3 and display device I from the eye-observation side.In the present embodiment, the first lens L1 and the 3rd lens are positive lens, and second lens are that negative lens is with the corrective system aberration.And the first lens L1, the second lens L2, the 3rd lens L3 all adopt aspheric surface to comprise the curvature of field and distortion with the corrective system aberration.At this, be 1 with diaphragm E surface sequence number, and the like, display device I surface is 8.
The said second embodiment eyepiece design data is as shown in table 2 below:
Table 2
Figure GDA0000085798380000061
Figure GDA0000085798380000071
Each surperficial aspheric surface parameter is following among second embodiment:
Surface 2 (Surface 2) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:0.0001745316
Coeff?on?r?6:-5.2971102e-006
Coeff?on?r?8:-2.1845734e-008
Coeff?on?r?10:-6.5191306e-011
Surface 3 (Surface 3) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:4.9511029e-005
Coeff?on?r?6:-9.2132981e-006
Coeff?on?r?8:1.3727281e-007
Coeffon?r?10:-1.3061152e-009
Surface 4 (Surface 4) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-0.00012965859
Coeff?on?r?6:7.9030145e-006
Coeff?on?r?8:-1.0006347e-007
Coeff?on?r?10:6.9167038e-010
Surface 5 (Surface 5) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:0.00028663084
Coeff?on?r?6:6.519007e-006
Coeff?on?r?8:-5.9855651e-009
Coeff?on?r?10:-9.1306036e-009
Surface 6 (Surface 6) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:0.00090713675
Coeff?on?r?6:2.2296566e-006
Coeff?on?r?8:-1.8815219e-007
Coeff?on?r?10:1.4724701e-008
Surface 7 (Surface 7) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:0.00059319234
Coeff?on?r?6:4.0858718e-006
Coeff?on?r?8:1.4863469e-006
Coeff?on?r?10:-4.0050924e-009
See also Fig. 5, show optical system biography letter figure according to the eyepiece of second embodiment of the invention; Fig. 6 (a) and Fig. 6 (b) show the curvature of field and distortion curve according to the eyepiece of second embodiment of the invention respectively.As shown in the figure, the image quality of optical system that characterizes out present embodiment is high, and distance of exit pupil is big, field angle big and distort low.
See also Fig. 7, be optical system diagram according to the eyepiece of third embodiment of the invention.As shown in Figure 7, to display device I side (from left to right), be followed successively by diaphragm E, the first lens L1, the second lens L2, the 3rd lens L3 and display device I from the eye-observation side.In the present embodiment, the first lens L1 and the 3rd lens are positive lens, and second lens are that negative lens is with the corrective system aberration.And the first lens L1, the second lens L2, the 3rd lens L3 all adopt aspheric surface to comprise the curvature of field and distortion with the corrective system aberration.At this, be 1 with diaphragm E surface sequence number, and the like, display device I surface is 8.
Said the 3rd embodiment eyepiece design data is as shown in table 3 below:
Table 3
Figure GDA0000085798380000091
Each surperficial aspheric surface parameter is following among the 3rd embodiment:
Surface 2 (Surface 2) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:1.8244971e-005
Coeff?on?r?6:3.1538296e-007
Coeff?on?r?8:-9.6275999e-009
Coeff?on?r?10:4.0616455e-011
Surface 3 (Surface 3) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-9.9131785e-006
Coeff?on?r?6:1.1435686e-007
Coeff?on?r?8:-8.2047549e-009
Coeff?on?r?10:4.0336685e-011
Surface 4 (Surface 4) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-3.6208325e-005
Coeff?on?r?6:4.3831507e-007
Coeff?on?r?8:-1.3845781e-008
Coeff?on?r?10:6.000235e-011
Surface 5 (Surface 5) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:1.0301347e-005
Coeff?on?r?6:1.8357947e-006
Coeff?on?r?8:-1.6625861e-008
Coeff?on?r?10:-1.2036801e-010
Aperture (Aperture): the aperture (Floating Aperture) of floating
Maximum curvature radius (Maximum Radius): 8.235294
Surface 6 (Surface 6) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:-2.1447272e-006
Coeff?on?r?6:1.4611758e-006
Coeff?on?r?8:-3.915728e-009
Coeff?on?r?10:1.207144e-010
Surface 7 (Surface 7) type: EVENASPH
Coeff?on?r?2:0
Coeff?on?r?4:6.3635648e-006
Coeff?on?r?6:4.0540057e-007
Coeff?on?r?8:-4.0568124e-009
Coeff?on?r?10:4.3656109e-010
See also Fig. 8, show optical system biography letter figure according to the eyepiece of third embodiment of the invention; Fig. 9 (a) and Fig. 9 (b) show the curvature of field and distortion curve according to the eyepiece of third embodiment of the invention respectively.As shown in the figure, the image quality of optical system that characterizes out present embodiment is high, and distance of exit pupil is big, field angle big and distort low.
From each association of foregoing invention embodiment, can obtain the embodiment of the invention and satisfy the aforementioned requirement that concerns, the result is as shown in the table:
f1/fw |f2/fw| f3/fw df/fw db/fw
Embodiment 1 0.7469 0.503 0.686 0.786 0.391
Embodiment 2 0.7072 0.501 0.734 0.786 0.359
Embodiment 3 0.7152 0.490 0.69435 0.7751 0.4194
The present invention describes according to specific embodiment, but it will be understood by those skilled in the art that when not breaking away from the scope of the invention, can carry out various variations and be equal to replacement.In addition, for adapting to the specific occasion or the material of the present invention's technology, can carry out many modifications and not break away from its protection domain the present invention.Therefore, the present invention is not limited to specific embodiment disclosed herein, and comprises that all drop into the embodiment of claim protection domain.

Claims (10)

1. an eyepiece is characterized in that, comprise from the eye-observation side to the display device side along optical axis direction the coaxial diaphragm that is arranged in order, first lens, second lens and the 3rd lens;
The focal length of said first lens is f1, and the focal length of second lens is f2, and the focal length of the 3rd lens is f3; The total focal length of system is fw; Diaphragm is df to the centre distance of first lens, and the 3rd lens are db to the centre distance of the display chip of display device, and satisfies following relational expression:
1)0.6<f1/fw<0.85,
2)0.4<|f2/fw|<0.6,
3)0.5<f3/fw<0.75,
4)0.78<df/fw<0.82,
5)0.28<db/fw<0.45;
And the material of said first lens, second lens and the 3rd lens requires below satisfying:
Nd1>1.48, Nd3>1.48, Nd1, Nd3 represent first lens, the 3rd lens refractive index at the d line respectively;
Vd1>56, Vd3>56, Vd1, Vd3 represent first lens, the 3rd lens Abbe number at the d line respectively;
Nd2>1.55, Vd2<30, Nd2, Vd2 represent refractive index and the Abbe number of second lens at the d line respectively.
2. eyepiece according to claim 1 is characterized in that, said first lens and the 3rd lens are positive lens, and second lens are negative lens.
3. eyepiece according to claim 2 is characterized in that, said first lens are biconvex lens, and said second lens are meniscus shaped lens, and two curvature of curved surface radiuses of second lens be on the occasion of.
4. eyepiece according to claim 1 is characterized in that, the focal length of said first lens, second lens and the 3rd lens further satisfies following relational expression:
6)0.7<f1/fw<0.8;
7)0.45<|f2/fw|<0.55;
8)0.6<f3/fw<0.73。
5. eyepiece according to claim 1 is characterized in that, said first lens, second lens and the 3rd lens are optical plastic.
6. eyepiece according to claim 5 is characterized in that, said first lens and the 3rd lens adopt polymethylmethacrylate to process.
7. eyepiece according to claim 6 is characterized in that, said second lens adopt polycarbonate to process.
8. according to any described eyepiece in the claim 1 to 7, it is characterized in that having an optical surface in said first lens, second lens and the 3rd lens at least is axisymmetric aspheric surface.
9. eyepiece according to claim 9 is characterized in that, the optical surface of said first lens, second lens and the 3rd lens is all axisymmetric aspheric surface.
10. eyepiece according to claim 9 is characterized in that, said aspheric expression formula is:
z = cr 2 1 + 1 - ( 1 + k ) c 2 r 2 + α 2 r 2 + α 4 r 4 + α 6 r 6 + . . . . . . ;
Wherein, z is the rise of optical surface, and c is a curvature, and k is an asphericity coefficient, α 2,4,6 ...Be each rank coefficient, r is a range coordinate of putting lens system optical axis on the curved surface.
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US10215978B2 (en) 2015-11-13 2019-02-26 Shenzhen Ned Optics Co., Ltd. Eyepiece optical system with large field-of-view angle and head-mounted display apparatus

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