CN202267773U - High-resolution multipoint zoom lens for intelligent buildings - Google Patents
High-resolution multipoint zoom lens for intelligent buildings Download PDFInfo
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- CN202267773U CN202267773U CN2011203724134U CN201120372413U CN202267773U CN 202267773 U CN202267773 U CN 202267773U CN 2011203724134 U CN2011203724134 U CN 2011203724134U CN 201120372413 U CN201120372413 U CN 201120372413U CN 202267773 U CN202267773 U CN 202267773U
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Abstract
The utility model relates to a high-resolution multipoint zoom lens for intelligent buildings, which comprises a main lens barrel. The high-resolution multipoint zoom lens is characterized in that a front lens set A of negative focal power and a rear lens set B of positive focal power are arranged along the light incidence direction from left to right, and an auto iris is arranged at a diaphragm C between the front lens set A and the rear lens set B. A front lens set holder for holding the front lens set A is arranged in the front of the inner periphery of the main lens barrel, and a rear lens set holder for holding the front lens set B is arranged in the rear of the inner periphery of the main lens barrel. The high-resolution multipoint zoom lens has the advantages of large zoom ratio, integration of an ultra-wide angle lens and a standard lens, high resolution, confocal wide spectrum and the like, and is applicable to camera monitoring for places such as elevator cars, hotel halls, corridors, courtyard surroundings and the like.
Description
Technical field
The utility model relates to a kind of high resolving power multiple spot zoom lens that is used for intelligent building, relates to the video camera technology in the intelligent building, especially relates to high resolving power, confocal, the multiple spot zooming camera lens device of wide spectrum.
Background technology
Along with the development of intelligent building industry, status and the effect of safety precaution in intelligent building grows with each passing day.Especially showing important effect in star hotel, senior office building, bank and even government bodies building.The monitoring camera-shooting of safety precaution comprises occasions such as elevator cage, hall, hotel, corridor and courtyard circumference in the intelligent building industry; The pick-up lens that both need surpass wide-angle; Also need the pick-up lens of standard, and be difficult to find the pick-up lens that can satisfy above-mentioned requirements one by one in the existing pick-up lens series.
Summary of the invention
The purpose of the utility model is to provide a kind of high resolving power multiple spot zoom lens that is used for intelligent building, helps satisfying the requirement of current intelligent building industry for the video camera technology.
The utility model is characterised in that: a kind of high resolving power multiple spot zoom lens that is used for intelligent building; Comprise body tube; It is characterized in that: along light from left to right incident direction focal power is set respectively is positive back mirror group B for negative preceding mirror group A and focal power, said before mirror group A and afterwards the C place, light hurdle between the mirror group B auto iris is set; The front portion in week is provided with the preceding arrangement of mirrors seat in order to mirror group A before installing in the said body tube; The rear portion is provided with in order to install the back arrangement of mirrors seat of back mirror group B; The peripheral part of arrangement of mirrors seat is connected with an end of a guide pin before said; The other end of said guide pin runs through the helicla flute of body tube and is installed in the draw-in groove that is positioned at preceding group of regulating ring on the body tube periphery; The peripheral part of said back arrangement of mirrors seat is connected with an end of a guide pin, and the other end of said guide pin runs through the helicla flute of body tube and is installed in the draw-in groove that is positioned at back group of regulating ring on the body tube periphery.
The advantage of the utility model:
1, the utility model has reasonably been formulated the performance index of camera lens according to the various shooting requirements in the intelligent building industry, makes camera lens satisfy each item shooting requirement of the sector.Can in lift car, make a video recording, also can make a video recording to distant object occasions such as courtyard circumferences to extremely near target.
2, the inventor is when optical design, two groups focal power before and after the reasonable distribution:
FA '=-14.4mm, fB '=15.5mm; Make optical system reach the hypermutation multiple proportions, and structure length is short, length overall ∑ D≤90.5mm.
3, in two mirror constituent elements; Select the glass combination of high index of refraction, low chromatic dispersion or low-refraction, high-dispersion glass dexterously for use; Especially the positive light coke eyeglass of organizing in the back is selected the FK61 glass of ED for use; Eliminated various aberrations and chromatic aberation effectively, the resolution that makes camera lens is up to 2,000,000 pixels.
4, when optical design, the wide spectral range of 485nm~850nm is carried out aberration balancing and correction, make the multiple spot zoom lens good picture element all arranged at wide spectral range, realized that wide spectrum is confocal.Camera lens can not only photoenvironment in the daytime under blur-free imaging, under the environment of night utmost point low-light (level) or zero illumination, also can blur-free imaging through infrared light filling.
5, the Design of Mechanical Structure of the utility model comprises manual zoom mechanism and manual focusing mechanism; Dial nail through preceding group of nail with the back respectively and drive corresponding regulating ring with locking effect; The draw-in groove structure of utilization regulating ring and the helicla flute position limiting structure of body tube drive microscope base through guide pin respectively and move axially, thereby realize the focusing function.Each fit dimension of strict management and control simultaneously, thus guarantee camera lens concentricity, precision and axial location accurately, the mobile smoothly clamping stagnation not of accomplishing again to focus, comfortable feel.
Description of drawings
Fig. 1 is the utility model embodiment light channel structure synoptic diagram.
Fig. 2 is the utility model embodiment one-piece construction synoptic diagram.
Embodiment
With reference to figure 1 and Fig. 2; A kind of high resolving power multiple spot zoom lens that is used for intelligent building; Comprise body tube 1; Along light from left to right incident direction focal power is set respectively is positive back mirror group B for negative preceding mirror group A and focal power, said before mirror group A and afterwards the C place, light hurdle between the mirror group B auto iris is set; The front portion in week is provided with the preceding arrangement of mirrors seat 2 in order to mirror group A before installing in the said body tube 1; The rear portion is provided with in order to install the back arrangement of mirrors seat 3 of back mirror group B; The peripheral part of arrangement of mirrors seat 2 is connected with an end of a guide pin 4 before said; The other end of said guide pin 4 runs through the helicla flute of body tube 1 and is installed in the draw-in groove that is positioned at preceding group of regulating ring 5 on body tube 1 periphery; The peripheral part of said back arrangement of mirrors seat 3 is connected with an end of a guide pin 6, and the other end of said guide pin 6 runs through the helicla flute of body tube 1 and is installed in the draw-in groove that is positioned at back group of regulating ring 7 on body tube 1 periphery.
Be connected with transition sleeve 8 on the outer end of above-mentioned back group regulating ring 7, be connected with the Connection Block 9 of camera lens sealing on the outer end of said transition sleeve 8 in order to prevent regulating ring axial dipole field.
Trim ring 10 before the front end of arrangement of mirrors seat 2 is provided with before above-mentioned, the rear end of said back arrangement of mirrors seat 3 is provided with back trim ring 11.
The periphery of above-mentioned preceding group regulating ring 5 is provided with can be in order to the preceding nail pulling 12 of locking, and the periphery of said back group regulating ring 7 is provided with can be in order to the back nail pulling 13 of locking.
Mirror group A is by negative selenodont lens A-1 before above-mentioned, biconcave lens A-2 and the first month of the lunar year type lens A-3 formation; Said back mirror group B is by positive selenodont lens B-1, positive selenodont lens B-2, biconvex lens B-3, the gummed group that biconcave lens B-4, negative selenodont lens B-5 and biconvex lens B-6 connect airtight, plano-convex lens B-7 formation.
Before above-mentioned between mirror group A and the light hurdle C is 20.36~51.11 mm at interval; Between said back mirror group B and the light hurdle C is 0.2~13.64 mm at interval; Among the mirror group A, between negative selenodont lens A-1 and the biconcave lens A-2 is 8.87 mm at interval before said; Between biconcave lens A-2 and the first month of the lunar year type lens A-3 is 1.81 mm at interval; Among the said back mirror group B, between positive selenodont lens B-1 and the positive selenodont lens B-2 is 0.1 mm at interval; Between positive selenodont lens B-2 and the biconvex lens B-3 is 0.1 mm at interval; Between biconvex lens B-3 and the biconcave lens B-4 is 0.08 mm at interval; Between the gummed group of biconcave lens B-4 and negative selenodont lens B-5 and biconvex lens B-6 is 0.6 mm at interval; Between the gummed group of negative selenodont lens B-5 and biconvex lens B-6 and the plano-convex lens B-7 is 0.76 mm at interval.
Above-mentioned (biconvex) lens B-3 selects FK61 fluor crown material for use.
Be provided with spacer ring BC between above-mentioned negative selenodont lens A-1 and the biconcave lens A-2; Among the said back mirror group B; Be provided with spacer ring DE between said positive selenodont lens B-1 and the positive selenodont lens B-2; Be provided with spacer ring EF between positive selenodont lens B-2 and the biconvex lens B-3, be provided with spacer ring HJ between the gummed group of said negative selenodont lens B-5 and biconvex lens B-6 and the plano-convex lens B-7.
The performance index that the utility model is realized:
1. focal length: f '=3.5~18mm
2. relative aperture D/f '=1/1.4
3. field angle 2 ω >=104 °~20 ° (adaptive) with 1/1.8 " or 1/2 " CCD or cmos camera
4. resolution: can be adaptive with 2,000,000 pixel CCD or cmos camera
5. be suitable for spectral line scope: 480nm~850nm
6. light path length overall ∑ D≤90.5mm.
The practical implementation step:
1, light path design scheme
With reference to figure 1, the utility model provides a kind of high resolving power, day and night multiple spot zoom lens that is mainly used in the intelligent building.Its characteristics of optical path: along light from left to right incident direction focal power is set respectively is positive back mirror group B for negative preceding mirror group A and focal power; C place, light hurdle between preceding mirror group A and back mirror group B is provided with auto iris (being commonly called as CD-ROM drive); Through zoom and the roll adjustment of the interval between mirror group A before changing and the light hurdle C with the realization camera lens; Corresponding image planes when changing interval between back mirror group B and the light hurdle C with compensation zoom and roll adjustment move, and image planes are stablized.
Mirror group A is by negative selenodont lens A-1 before said, biconcave lens A-2 and the first month of the lunar year type lens A-3 formation; Said back mirror group B is by positive selenodont lens B-1, positive selenodont lens B-2, biconvex lens B-3 (material of these piece lens is FK61), the gummed group that biconcave lens B-4, negative selenodont lens B-5 and biconvex lens B-6 connect airtight, plano-convex lens B-7 formation.
Before said between mirror group A and the light hurdle C is 20.36~51.11 mm at interval;
Between said back mirror group B and the light hurdle C is 0.2~13.64 mm at interval.
Among the mirror group A, between negative selenodont lens A-1 and the biconcave lens A-2 is 8.87 mm at interval before said;
Between biconcave lens A-2 and the first month of the lunar year type lens A-3 is 1.81 mm at interval.
Among the said back mirror group B, between positive selenodont lens B-1 and the positive selenodont lens B-2 is 0.1 mm at interval;
Between positive selenodont lens B-2 and the biconvex lens B-3 is 0.1 mm at interval;
Between biconvex lens B-3 and the biconcave lens B-4 is 0.08 mm at interval;
Between the gummed group that biconcave lens B-4 and negative selenodont lens B-5 and biconvex lens B-6 connect airtight is 0.6 mm at interval;
Between gummed group that negative selenodont lens B-5 and biconvex lens B-6 connect airtight and the plano-convex lens B-7 is 0.76 mm at interval.
2, the design proposal of physical construction
See that Fig. 2 the utility model Design of Mechanical Structure comprises: arrangement of mirrors seat and back arrangement of mirrors seat before the design; Mirror group lens A-1, A-2, A-3 before preceding arrangement of mirrors seat is equipped with; And design spacer ring BC between lens A-2, the A-3; Guarantee the logical light of its lens and the air distance between the lens, trim ring before the A-1 lens design, the assembling stability of group lens before guaranteeing.
Back arrangement of mirrors seat is equipped with back mirror group lens B-1, B-2, B-3, B-4, B-5, B-6, B-7; Wherein lens B-5 and B-6 are the gummed group; And B-1, B-2, design spacer ring DE, spacer ring EF and spacer ring HJ guarantee the logical light of its lens and the air distance between the lens between B-2, B-3 and B-6, the B-7; Trim ring after the B-7 lens design guarantees that the assembling of back group lens is stable.
For realizing manual focusing; Group lens and back group lens need axially move and amount of movement has the size and the status requirement of strictness promptly; Therefore arrangement of mirrors seat and close-fitting with it guide pin 4 in the arrangement of mirrors seat outside, back and guide pin 6 before designing; The decoking that causes camera lens in order to prevent in rotation or vibrations process, to produce the skew of mirror group position simultaneously is designed with nylon jacket outside copper guide pin.
During the design body tube, the arrangement of mirrors seat moved axially in body tube with back arrangement of mirrors seat before requirement can guarantee, and the strict size and the helicla flute of status requirement are arranged on body tube.
Group regulating ring and back group regulating ring before the design; When before rotating, organizing regulating ring; Drive guide pin through the draw-in groove structure on the regulating ring and in helicla flute, move, the arrangement of mirrors seat is done axial slip through guide pin before making in body tube, with the purpose of group zoom and roll adjustment before reaching.When rotating back group regulating ring, it is mobile in helicla flute to drive guide pin through the draw-in groove structure on the regulating ring, makes back arrangement of mirrors seat in body tube, do axial slip through guide pin, the purpose that the image planes when compensating zoom and roll adjustment to reach the back group move.
For prevent that forward and backward two groups of regulating rings from axial dipole field taking place when rotating, the design transition sleeve is to reach the purpose of limit axial skew.
For the focal length that prevents to have confirmed camera move or the vibrations process in decoking, design has back group of nail of locking effect, preceding group of nail, carries out locking mechanism.
The utility model is in order to guarantee favorable imaging quality; Tackled harmful light during structural design dexterously; And eliminated parasitic light effectively, and added screw-drive mechanism through the nylon jacket guide pin and guaranteed that the client in the process of using camera lens, the decoking phenomenon can not occur.
The above is merely the preferred embodiment of the utility model, and all equalizations of being done according to the utility model claim change and modify, and all should belong to the covering scope of the utility model.
Claims (8)
1. high resolving power multiple spot zoom lens that is used for intelligent building; Comprise body tube; It is characterized in that: along light from left to right incident direction focal power is set respectively is positive back mirror group B for negative preceding mirror group A and focal power, said before mirror group A and afterwards the C place, light hurdle between the mirror group B auto iris is set; The front portion in week is provided with the preceding arrangement of mirrors seat in order to mirror group A before installing in the said body tube; The rear portion is provided with in order to install the back arrangement of mirrors seat of back mirror group B; The peripheral part of arrangement of mirrors seat is connected with an end of a guide pin before said; The other end of said guide pin runs through the helicla flute of body tube and is installed in the draw-in groove that is positioned at preceding group of regulating ring on the body tube periphery; The peripheral part of said back arrangement of mirrors seat is connected with an end of a guide pin, and the other end of said guide pin runs through the helicla flute of body tube and is installed in the draw-in groove that is positioned at back group of regulating ring on the body tube periphery.
2. the high resolving power multiple spot zoom lens that is used for intelligent building according to claim 1; It is characterized in that: be connected with in order to prevent the transition sleeve of regulating ring axial dipole field on the outer end of said back group regulating ring, be connected with the Connection Block of camera lens sealing on the outer end of said transition sleeve.
3. the high resolving power multiple spot zoom lens that is used for intelligent building according to claim 1 is characterized in that: the front end of arrangement of mirrors seat is provided with preceding trim ring before said, and the rear end of said back arrangement of mirrors seat is provided with the back trim ring.
4. the high resolving power multiple spot zoom lens that is used for intelligent building according to claim 1; It is characterized in that: the periphery of said preceding group regulating ring is provided with can be in order to the preceding nail pulling of locking, and the periphery of said back group regulating ring is provided with can be in order to the back nail pulling of locking.
5. the high resolving power multiple spot zoom lens that is used for intelligent building according to claim 1 is characterized in that: before said mirror group A by negative selenodont lens A-1, biconcave lens A-2 and the first month of the lunar year type lens A-3 formation; Said back mirror group B is by positive selenodont lens B-1, positive selenodont lens B-2, biconvex lens B-3, the gummed group that biconcave lens B-4, negative selenodont lens B-5 and biconvex lens B-6 connect airtight, plano-convex lens B-7 formation.
6. according to claim 1 or the 5 described high resolving power multiple spot zoom lens that are used for intelligent building, it is characterized in that: before said between mirror group A and the light hurdle C is 20.36~51.11 mm at interval; Between said back mirror group B and the light hurdle C is 0.2~13.64 mm at interval; Among the mirror group A, between negative selenodont lens A-1 and the biconcave lens A-2 is 8.87 mm at interval before said; Between biconcave lens A-2 and the first month of the lunar year type lens A-3 is 1.81 mm at interval; Among the said back mirror group B, between positive selenodont lens B-1 and the positive selenodont lens B-2 is 0.1 mm at interval; Between positive selenodont lens B-2 and the biconvex lens B-3 is 0.1 mm at interval; Between biconvex lens B-3 and the biconcave lens B-4 is 0.08 mm at interval; Between the gummed group of biconcave lens B-4 and negative selenodont lens B-5 and biconvex lens B-6 is 0.6 mm at interval; Between the gummed group of negative selenodont lens B-5 and biconvex lens B-6 and the plano-convex lens B-7 is 0.76 mm at interval.
7. the high resolving power multiple spot zoom lens that is used for intelligent building according to claim 5 is characterized in that: said biconvex biconvex lens B-3 selects FK61 fluor crown material for use.
8. according to claim 1 or the 4 described high resolving power multiple spot zoom lens that are used for intelligent building, it is characterized in that: be provided with spacer ring BC between said negative selenodont lens A-1 and the biconcave lens A-2; Among the said back mirror group B; Be provided with spacer ring DE between said positive selenodont lens B-1 and the positive selenodont lens B-2; Be provided with spacer ring EF between positive selenodont lens B-2 and the biconvex lens B-3, be provided with spacer ring HJ between the gummed group of said negative selenodont lens B-5 and biconvex lens B-6 and the plano-convex lens B-7.
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CN2011203724134U CN202267773U (en) | 2011-09-28 | 2011-09-28 | High-resolution multipoint zoom lens for intelligent buildings |
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CN2011203724134U CN202267773U (en) | 2011-09-28 | 2011-09-28 | High-resolution multipoint zoom lens for intelligent buildings |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102323660A (en) * | 2011-09-28 | 2012-01-18 | 福建福光数码科技有限公司 | High-resolution multipoint zoom lens used in intelligent building |
CN103389562A (en) * | 2013-08-15 | 2013-11-13 | 福建福光数码科技有限公司 | 5 mega-pixel micro camera lens with large target surface |
CN106324815A (en) * | 2015-06-26 | 2017-01-11 | 浙江大华技术股份有限公司 | Zoom lens system and lens |
EP3311212A4 (en) * | 2015-06-17 | 2018-09-12 | Zhejiang Dahua Technology Co., Ltd | A zoom lens system |
-
2011
- 2011-09-28 CN CN2011203724134U patent/CN202267773U/en not_active Withdrawn - After Issue
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102323660A (en) * | 2011-09-28 | 2012-01-18 | 福建福光数码科技有限公司 | High-resolution multipoint zoom lens used in intelligent building |
CN102323660B (en) * | 2011-09-28 | 2014-05-14 | 福建福光数码科技有限公司 | High-resolution multipoint zoom lens used in intelligent building |
CN103389562A (en) * | 2013-08-15 | 2013-11-13 | 福建福光数码科技有限公司 | 5 mega-pixel micro camera lens with large target surface |
CN103389562B (en) * | 2013-08-15 | 2015-05-27 | 福建福光数码科技有限公司 | 5 mega-pixel micro camera lens with large target surface |
EP3311212A4 (en) * | 2015-06-17 | 2018-09-12 | Zhejiang Dahua Technology Co., Ltd | A zoom lens system |
US10495860B2 (en) | 2015-06-17 | 2019-12-03 | Zhejiang Dahua Technology Co., Ltd. | Zoom lens system |
CN106324815A (en) * | 2015-06-26 | 2017-01-11 | 浙江大华技术股份有限公司 | Zoom lens system and lens |
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Granted publication date: 20120606 Effective date of abandoning: 20140514 |
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