CN203455539U - High-magnification and high-definition electric camera lens with magnification varying and zooming functions - Google Patents
High-magnification and high-definition electric camera lens with magnification varying and zooming functions Download PDFInfo
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- CN203455539U CN203455539U CN201320514720.0U CN201320514720U CN203455539U CN 203455539 U CN203455539 U CN 203455539U CN 201320514720 U CN201320514720 U CN 201320514720U CN 203455539 U CN203455539 U CN 203455539U
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Abstract
The invention relates to a high-magnification and high-definition electric camera lens with magnification varying and zooming functions. The high-magnification and high-definition electric camera lens is characterized in that: a front fixing group A with positive focal power, a magnification varying group B with negative focal power, a compensation group C with negative focal power, a variable diaphragm assembly D and a rear fixing group E with positive focal power are sequentially arranged in an optical structure of the high-magnification and high-definition electric camera lens along a light incident direction from left to right, the front fixing group A is sequentially provided with a double-convex lens A-1 and a first adhesion group, the magnification varying group B is sequentially provided with a double-concave lens B-1 and a second adhesion group, the compensation group C is provided with a third adhesion group, a double-convex lens E-1 and a double-convex lens E-2 are sequentially arranged at the front part of the rear fixing group E, a fourth adhesion group and a positive meniscus lens E-5 are sequentially arranged at the middle part of the rear fixing group E, and a negative meniscus lens E-6 and a double-convex lens E-7 are sequentially arranged at the rear part of the rear fixing group E. The high-magnification and high-definition electric camera lens has functions of electrical continuous zooming, electrical focusing and automatic dimming, high definition and the like.
Description
Technical field
The utility model relates to a kind of optical pick-up apparatus of video technique, particularly the electronic two variable pick-up lenss of a kind of high magnification high definition.
Background technology
At present, the pick-up lens that is applicable to routine monitoring requires that range of observation is large, volume is little, quality is light, sharpness is high, can make the panorama of the little multiplying power in large region observe target, can do again the amplification observation of the large multiplying power in zonule.Traditional mechanical compensation formula zoom lens's optical texture form consists of front fixedly group, zoom group, compensation group and four constituent elements of rear fixedly group, ubiquity that overall volume is large, poor image quality, need manually or the shortcoming such as motorized adjustment brightness, is difficult to meet the demand of high-definition monitoring.
Utility model content
The purpose of this utility model is to overcome above-mentioned defect, and the technical problems to be solved in the utility model is to provide the electronic two variable pick-up lenss of a kind of high magnification high definition.
In order to solve the problems of the technologies described above, the technical solution of the utility model is: the electronic two variable pick-up lenss of a kind of high magnification high definition, in the optical texture of described pick-up lens along light from left to right incident direction to be provided with successively focal power be positive front fixedly group A, focal power is negative zoom group B, focal power is negative compensation group C, iris assembly D and focal power are positive rear fixedly group E, the first gummed group that described front fixedly group A is provided with successively biconvex lens A-1 and is connected airtight by negative crescent moon lens A-2 and positive crescent moon lens A-3, the second gummed group that described zoom group B is provided with successively biconcave lens B-1 and is connected airtight by biconcave lens B-2 and biconvex lens B-3, described compensation group C is provided with the 3rd gummed group of being connected airtight by biconcave lens C-1 and positive crescent moon lens C-2, described rear fixedly group E front portion is provided with biconvex lens E-1 and biconvex lens E-2 successively, middle part is provided with the 4th gummed group and the positive crescent moon lens E-5 being connected airtight by biconvex lens E-3 and biconcave lens E-4 successively, rear portion is provided with negative crescent moon lens E-6 and biconvex lens E-7 successively.
In further technical scheme, airspace between described front fixedly group A and zoom group B is 1.86mm ~ 78.28mm, airspace between described zoom group B and compensation group C is 68.41mm ~ 13.56mm, and the airspace between described compensation group C and rear fixedly group E is 24.06mm ~ 2.5mm.
In further technical scheme, the biconvex lens A-1 in described front fixedly group A and the airspace between the first gummed group are 0.1mm.
In further technical scheme, the negative crescent moon lens B-1 in described zoom group B and the airspace between the second gummed group are 4.13mm.
In further technical scheme, biconvex lens E-1 in described rear fixedly group E and the airspace between biconvex lens E-2 are 0.14mm, airspace between described biconvex lens E-2 and the 4th gummed group is 0.13mm, airspace between described the 4th gummed group and positive crescent moon lens E-5 is 0.11mm, airspace between described positive crescent moon lens E-5 and negative crescent moon lens E-6 is 16.52mm, and the airspace between described negative crescent moon lens E-6 and biconvex lens E-7 is 15.36mm.
Compared with prior art, the utlity model has following beneficial effect: the utility model uses mechanical compensation method and steepest zoom cam curve designing technique, and use H-FK61(Extra-low Dispersion) optical material, having designed a kind of relative aperture reaches 1: 1.6 ~ 1: 3.5, the electronic two variable pick-up lenss of the high magnification high definition with automatic dimming function of 43.6 ° of wide-angle side field angle, 2.2 ° of telescope end field angle, there is the aperture larger than ordinary optical camera lens, higher resolution, wider photokinesis monitoring range; The electronic two variable pick-up lenss of this high magnification high definition have electric continuous zooming heat, electromotion focusing, the function such as with an automatic light meter, can not only be for video camera provides photosignal under the environment of good weather, produce the video image of high resolution, and under low light environment, still can provide high-resolution monitored picture.
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is the structural drawing of optical system.
Fig. 2 is that the structure of pick-up lens is always schemed.
The front view of Tu3Wei electromotion focusing mechanism.
The left view of Tu4Wei electromotion focusing mechanism.
The front view of Tu5Wei power zoom mechanism.
The right view of Tu6Wei power zoom mechanism.
In Fig. 1: fixed mirror group before A., A-1. biconvex lens, A-2. bears crescent moon lens, the positive crescent moon lens of A-3., B. zoom mirror group, B-1. biconcave lens, B-2. biconcave lens, B-3. biconvex lens, C. compensating glass group, C-1. biconcave lens, the positive crescent moon lens of C-2., D. CD-ROM drive automatically, fixed mirror group after E., E-1. biconvex lens, E-2. biconvex lens, E-3. biconvex lens, E-4. biconcave lens, E-5. positive crescent moon lens, E-6. bears crescent moon lens, E-7. biconvex lens.
In Fig. 2: fixed mirror group before 2-1., 2-2. zoom mirror group, 2-3. compensating glass group, the automatic CD-ROM drive of 2-4., fixed mirror group after 2-5., 2-6. electromotion focusing mechanism, 2-7. power zoom mechanism, 2-8. bracing frame.
In Fig. 3 ~ 4: fixed mirror group before 3-1., 3-2. focusing drawtube, the 3-3. retaining screw of focusing, 3-4. body tube, 3-5. microswitch, 3-6. focusing microswitch frame, the 3-7. plectrum of focusing, the 3-8. motor rack of focusing, the 3-9. potentiometer of focusing, 3-10. focusing potentiometer gear, the 3-11. motor of focusing, the 3-12. motor gear of focusing.
In Fig. 5 ~ 6: 4-1. cam cover, 4-2. zoom assembly, 4-3. zoom guide pin, 4-4. guide rod, 4-5. cam, 4-6. body tube, 4-7. zoom is dialled nail, 4-8. zoom regulating ring, and 4-9. compensates guide pin, 4-10. compensation assembly, 4-11. zoom plectrum, 4-12. microswitch, 4-13. zoom microswitch frame, 4-14. zoom motor, 4-15. zoom motor gear, 4-16. zoom potentiometer gear, 4-17. zoom potentiometer, 4-18. zoom motor rack.
Embodiment
As shown in Figure 1, the electronic two variable pick-up lenss of a kind of high magnification high definition, in the optical texture of described pick-up lens along light from left to right incident direction to be provided with successively focal power be positive front fixedly group A, focal power is negative zoom group B, focal power is negative compensation group C, iris assembly D and focal power are positive rear fixedly group E, the first gummed group that described front fixedly group A is provided with successively biconvex lens A-1 and is connected airtight by negative crescent moon lens A-2 and positive crescent moon lens A-3, the second gummed group that described zoom group B is provided with successively biconcave lens B-1 and is connected airtight by biconcave lens B-2 and biconvex lens B-3, described compensation group C is provided with the 3rd gummed group of being connected airtight by biconcave lens C-1 and positive crescent moon lens C-2, described rear fixedly group E front portion is provided with biconvex lens E-1 and biconvex lens E-2 successively, middle part is provided with the 4th gummed group and the positive crescent moon lens E-5 being connected airtight by biconvex lens E-3 and biconcave lens E-4 successively, rear portion is provided with negative crescent moon lens E-6 and biconvex lens E-7 successively.
In the present embodiment, airspace between described front fixedly group A and zoom group B is 1.86mm ~ 78.28mm, airspace between described zoom group B and compensation group C is 68.41mm ~ 13.56mm, and the airspace between described compensation group C and rear fixedly group E is 24.06mm ~ 2.5mm.
In the present embodiment, the biconvex lens A-1 in described front fixedly group A and the airspace between the first gummed group are 0.1mm; Negative crescent moon lens B-1 in described zoom group B and the airspace between the second gummed group are 4.13mm; Biconvex lens E-1 in described rear fixedly group E and the airspace between biconvex lens E-2 are 0.14mm, airspace between described biconvex lens E-2 and the 4th gummed group is 0.13mm, airspace between described the 4th gummed group and positive crescent moon lens E-5 is 0.11mm, airspace between described positive crescent moon lens E-5 and negative crescent moon lens E-6 is 16.52mm, and the airspace between described negative crescent moon lens E-6 and biconvex lens E-7 is 15.36mm.
In optical design, positive crescent moon lens A-3 in described front fixedly group A is that the H-FK61 optical material by Extra-low Dispersion is made, improved so the focal power ability to take the burden of the front fixedly group A that light height is the highest, the resolution of camera lens is significantly improved, reach mega pixel, can be adaptive with high-definition camera.
In the present embodiment, the optical texture of this pick-up lens has reached following optical index: (1) field angle: 2 ω=43.6 ° ~ 2.2 °; (2) zoom ratio: 21 times; (3) relative aperture: 1: 1.6 ~ 1: 3.5; (4) minimum photographic distance: 3m; (5) applicable spectral line: 430nm ~ 700 nm; (6) optics overall length: be less than 196mm.
As shown in Figure 2, described pick-up lens is distinguished front fixed mirror group 2-1, zoom mirror group 2-2, compensating glass group 2-3, automatic CD-ROM drive 2-4 and rear fixed mirror group 2-5 from left to right.Front fixed mirror group 2-1 increases the 2-6 of electromotion focusing mechanism, realizes the focusing of camera lens to far and near distance target, increases precision resistor simultaneously, realizes focusing preparatory function; Zoom mirror group 2-2 and compensating glass group 2-3 place body tube increase the 2-7 of power zoom mechanism and precision resistor, realize the adjustable of focal length and focal length preparatory function; Between compensating glass group 2-3 and rear fixed mirror group 2-5, add automatic CD-ROM drive 2-4, CD-ROM drive 2-4 just changes and automatically adjusts its aperture size according to extraneous illumination automatically, realizes automatic dimming function.
As shown in Fig. 3 ~ 4, described electromotion focusing mechanism comprises focusing motor 3-11, focusing drawtube 3-2 and two microswitch 3-5 for the far and near position of accurate control focusing, described focusing drawtube-3-2 is connected with body tube 3-4 by multi-step thread is secondary, described front fixed mirror group 3-1 is fixed in focusing drawtube 3-2 by trim ring, described focusing motor 3-11 is placed on body tube 3-4 by focusing motor rack 3-8, described two microswitch 3-5 are arranged on the both sides of body tube 3-4 by focusing microswitch frame 3-6, focusing motor gear 3-12 is installed on the motor shaft of described focusing motor 3-11, described focusing motor gear 3-12 is by rotating with the rear focusing drawtube 3-2 that drives of focusing drawtube 3-2 gear engagement, before described focusing drawtube 3-2 rotates and drives, fixed mirror group 3-1 rotates, before thereby focusing drawtube 3-2 realizes in rotation process, fixed mirror group 3-1's moves forward and backward, realize focusing function.Simultaneously, described focusing motor gear 3-12 is by rotating with the rear focusing potentiometer gear 3-10 that drives of focusing potentiometer gear 3-10 engagement, the rotation of described focusing potentiometer gear 3-10 make the to focus resistance of potentiometer 3-9 changes, thus, between the resistance of close-shot distance and focusing potentiometer 3-9, form man-to-man relation, by this approach sensor, can realize the preparatory function of close-shot distance.
As shown in Fig. 5 ~ 6 and in conjunction with Fig. 2, described zoom assembly 4-2 and compensation assembly 4-10 are arranged on respectively two guide rod 4-4 and go up and be slidably matched, it is upper that described two guide rod 4-4 are fixed on respectively body tube 4-6 symmetrically by cam cover 4-1, and described cam 4-5 is pressed in body tube 4-6 by cam cover 4-1.Described power zoom mechanism comprises that zoom motor 4-14 and two are for accurately controlling the microswitch 4-12 of the burnt position of length, described microswitch 4-12 is arranged on body tube 4-6 both sides by zoom microswitch frame 4-13, described zoom motor 4-14 is arranged on bracing frame 2-8 by zoom motor rack 4-18, zoom motor gear 4-15 is installed on the motor shaft of described zoom motor 4-14, described zoom motor gear 4-15 rotates by driving zoom to dial nail 4-7 with the engagement of zoom regulating ring 4-8 gear, described zoom is dialled nail 4-7 and is rotated band moving cam 4-5 rotation, described cam 4-5 drives zoom assembly 4-2 and compensation assembly 4-10 to move forward and backward by zoom guide pin 4-3 and compensation guide pin 4-9 respectively, thereby realize the variation of lens focus, complete zoom process.Simultaneously, described zoom motor gear 4-15 is by rotating with the rear zoom potentiometer gear 4-16 that drives of zoom potentiometer gear 4-16 engagement, the rotation of described zoom potentiometer gear 4-16 changes the resistance of zoom potentiometer 4-17, thus, between the resistance of focal length and zoom potentiometer 4-17, form man-to-man relation, by this approach sensor, can realize the preparatory function of focal length.
The foregoing is only preferred embodiment of the present utility model, all equalizations of doing according to the utility model claim change and modify, and all should belong to covering scope of the present utility model.
Claims (9)
1. electronic two variable pick-up lenss of high magnification high definition, it is characterized in that: in the optical texture of described pick-up lens along light from left to right incident direction to be provided with successively focal power be positive front fixedly group A, focal power is negative zoom group B, focal power is negative compensation group C, iris assembly D and focal power are positive rear fixedly group E, the first gummed group that described front fixedly group A is provided with successively biconvex lens A-1 and is connected airtight by negative crescent moon lens A-2 and positive crescent moon lens A-3, the second gummed group that described zoom group B is provided with successively biconcave lens B-1 and is connected airtight by biconcave lens B-2 and biconvex lens B-3, described compensation group C is provided with the 3rd gummed group of being connected airtight by biconcave lens C-1 and positive crescent moon lens C-2, described rear fixedly group E front portion is provided with biconvex lens E-1 and biconvex lens E-2 successively, middle part is provided with the 4th gummed group and the positive crescent moon lens E-5 being connected airtight by biconvex lens E-3 and biconcave lens E-4 successively, rear portion is provided with negative crescent moon lens E-6 and biconvex lens E-7 successively.
2. electronic two variable pick-up lenss of high magnification high definition according to claim 1, it is characterized in that: the airspace between described front fixedly group A and zoom group B is 1.86mm ~ 78.28mm, airspace between described zoom group B and compensation group C is 68.41mm ~ 13.56mm, and the airspace between described compensation group C and rear fixedly group E is 24.06mm ~ 2.5mm.
3. the electronic two variable pick-up lenss of high magnification high definition according to claim 1 and 2, is characterized in that: the biconvex lens A-1 in described front fixedly group A and the airspace between the first gummed group are 0.1mm.
4. the electronic two variable pick-up lenss of high magnification high definition according to claim 1 and 2, is characterized in that: the negative crescent moon lens B-1 in described zoom group B and the airspace between the second gummed group are 4.13mm.
5. electronic two variable pick-up lenss of high magnification high definition according to claim 1 and 2, it is characterized in that: the biconvex lens E-1 in described rear fixedly group E and the airspace between biconvex lens E-2 are 0.14mm, airspace between described biconvex lens E-2 and the 4th gummed group is 0.13mm, airspace between described the 4th gummed group and positive crescent moon lens E-5 is 0.11mm, airspace between described positive crescent moon lens E-5 and negative crescent moon lens E-6 is 16.52mm, and the airspace between described negative crescent moon lens E-6 and biconvex lens E-7 is 15.36mm.
6. electronic two variable pick-up lenss of high magnification high definition according to claim 1 and 2, is characterized in that: the positive crescent moon lens A-3 in described front fixedly group A is that the H-FK61 optical material by Extra-low Dispersion is made.
7. electronic two variable pick-up lenss of high magnification high definition according to claim 1, it is characterized in that: the front portion of described pick-up lens is provided with electromotion focusing mechanism, the middle part of described pick-up lens is provided with power zoom mechanism, and the rear portion of described pick-up lens is provided with automatic CD-ROM drive.
8. electronic two variable pick-up lenss of high magnification high definition according to claim 7, is characterized in that: described electromotion focusing mechanism is provided with one and realizes close-shot apart from the precision resistor of preparatory function.
9. electronic two variable pick-up lenss of high magnification high definition according to claim 7, is characterized in that: described power zoom mechanism is provided with a precision resistor of realizing focal length preparatory function.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103424852A (en) * | 2013-08-22 | 2013-12-04 | 福建福光数码科技有限公司 | High-magnification and high-definition electric camera lens with magnification varying and zooming functions |
CN104777599A (en) * | 2015-03-26 | 2015-07-15 | 中国科学院长春光学精密机械与物理研究所 | Portable flexible triple-component high-zoom ratio varifocal lens |
CN104459943B (en) * | 2014-12-16 | 2016-08-24 | 福建福光股份有限公司 | Big target surface high-resolution focuses CS monitoring camera |
CN106154519A (en) * | 2016-08-29 | 2016-11-23 | 福建福光股份有限公司 | High-resolution with an automatic light meter strong Penetrating Fog zooming camera lens and control method thereof |
WO2018076330A1 (en) * | 2016-10-31 | 2018-05-03 | 中国科学院长春光学精密机械与物理研究所 | Finite conjugate distance optical zoom system with adjustable object distance |
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2013
- 2013-08-22 CN CN201320514720.0U patent/CN203455539U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103424852A (en) * | 2013-08-22 | 2013-12-04 | 福建福光数码科技有限公司 | High-magnification and high-definition electric camera lens with magnification varying and zooming functions |
CN103424852B (en) * | 2013-08-22 | 2015-07-22 | 福建福光数码科技有限公司 | High-magnification and high-definition electric camera lens with magnification varying and zooming functions |
CN104459943B (en) * | 2014-12-16 | 2016-08-24 | 福建福光股份有限公司 | Big target surface high-resolution focuses CS monitoring camera |
CN104777599A (en) * | 2015-03-26 | 2015-07-15 | 中国科学院长春光学精密机械与物理研究所 | Portable flexible triple-component high-zoom ratio varifocal lens |
CN106154519A (en) * | 2016-08-29 | 2016-11-23 | 福建福光股份有限公司 | High-resolution with an automatic light meter strong Penetrating Fog zooming camera lens and control method thereof |
WO2018076330A1 (en) * | 2016-10-31 | 2018-05-03 | 中国科学院长春光学精密机械与物理研究所 | Finite conjugate distance optical zoom system with adjustable object distance |
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