CN208752300U - A kind of high definition continuous magnification lens with active temperature focusing function - Google Patents

Abstract

The utility model relates to a kind of high definition continuous magnification lens with active temperature focusing function, the optical system of camera lens is successively arranged the rear fixed group E that the compensation group C, iris diaphgram D, focal power that the preceding fixed group A that focal power is positive, the zoom group B that focal power is negative, focal power be positive are positive；Preceding fixed group A is successively arranged the first gluing unit of biconvex lens A1, positive meniscus lens A2, diverging meniscus lens A3 and positive meniscus lens A4 contiguity；Zoom group B is successively arranged the second gluing unit of positive meniscus lens B1 and biconcave lens B2 contiguity, biconcave lens B3；Compensation group C is successively arranged the third gluing unit of biconvex lens C1, diverging meniscus lens C2 and biconvex lens C3 contiguity, positive meniscus lens C4；Fixed group E is successively arranged diverging meniscus lens E1, positive meniscus lens E2, plano-convex lens E3, diverging meniscus lens E4, biconvex lens E5 afterwards, has zoom closed loop control function, focusing closed loop control function, focal length feedback function and Video Out.

Description

A kind of high definition continuous magnification lens with active temperature focusing function

Technical field

The utility model relates to a kind of high definition continuous magnification lens with active temperature focusing function, belong to photoelectric technology Field.

Background technique

The horizontal promotion of International Technology confrontation, to airborne, vehicle-mounted detection system, more stringent requirements are proposed, is especially embodied in Not only high-definition image is needed to export, it is also necessary to which cell is searched for and made to the panorama that can make the small multiplying power in big region to target The amplifying observation of the big multiplying power in domain；Due to application environment multiplicity, it is also necessary to can rapid answer external environment variation, compensation temperature effect The influence answered.Traditional conventional zoom relies on Power focus, the influence of compensation temperature effect away from camera lens, and delay of response is focusing Target Continuous can not be observed before clear, monitoring, or even target can be lost.It therefore must be on basis of the traditional zoom away from camera lens On, change mentality of designing, Curve guide impeller method is allowed to adapt to increasingly harsh environmental change, promotes scientific and technological antagonism.

Utility model content

The purpose of this utility model is place against the above deficiency, and it is simply poly- with active temperature to provide a kind of structure The high definition continuous magnification lens of burnt function.

The technical solution of the utility model is a kind of high definition continuous magnification lens with active temperature focusing function, institute The optical system for stating camera lens organizes A along the light preceding fixation that direction is successively arranged that focal power is positive from left to right, focal power is negative The rear fixed group E that compensation group C that zoom group B, focal power are positive, iris diaphgram D, focal power are positive；Group A is fixed before described successively The first gluing unit equipped with biconvex lens A1, positive meniscus lens A2, diverging meniscus lens A3 and positive meniscus lens A4 contiguity；The change Group B is successively arranged the second gluing unit of positive meniscus lens B1 and biconcave lens B2 contiguity, biconcave lens B3 again；The compensation group C It is successively arranged third gluing unit, the positive meniscus lens C4 of biconvex lens C1, diverging meniscus lens C2 and biconvex lens C3 contiguity；It is described Fixed group E is successively arranged diverging meniscus lens E1, positive meniscus lens E2, plano-convex lens E3, diverging meniscus lens E4, biconvex lens afterwards E5。

Further, the airspace between the preceding fixed group A and zoom group B is 4~82.01mm, zoom group B and benefit Repaying the airspace between group C is 114.66~2.2 mm, the airspace between compensation group C and rear fixed group E is 2.005~ 36.45mm。

Further, the airspace of biconvex lens A1 and positive meniscus lens A2 is 0.2mm in the preceding fixed group A, just The airspace of meniscus lens A2 and the first gluing unit is 1.7mm；Second gluing unit and biconcave lens B3 in the zoom group B Airspace is 4.44mm；The airspace of biconvex lens C1 and third gluing unit is 0.2mm, third glue in the compensation group C Being combined with the airspace of positive meniscus lens C4 is 0.1mm；Diverging meniscus lens E1 and positive meniscus lens E2 in fixed group E after described Airspace be the airspace of 0.1mm, positive meniscus lens E2 and plano-convex lens E3 be 27.5mm, plano-convex lens E3 and bear curved The airspace of moon lens E4 is that the airspace of 3.75mm, diverging meniscus lens E4 and biconvex lens E5 are 18.4mm.

Further, the mechanical structure of the camera lens successively includes focusing component, zoom component, compensation component, cam set Part, iris diaphgram component, rear fixation kit, camera assembly；Fixed group A is set in focusing component before described, the zoom group B In zoom component, the compensation group C is set in compensation component, and the rear fixed group E is set on iris diaphgram component and solid afterwards Determine in component, iris diaphgram built in the iris diaphgram component, camera lens outer wall includes sealing structure.

Further, the focusing component is to use A1 piece pressing ring by biconvex lens A1, positive meniscus lens A2, the first gluing unit It is placed in preceding group lens barrel respectively, A1 and A2 spacer ring, positive meniscus lens A2 is equipped between biconvex lens A1 and positive meniscus lens A2 A2 and the first gluing unit spacer ring are equipped between the first gluing unit, the preceding group lens barrel is installed in focusing body tube；The tune The straight trough of uniformly distributed three 120o on burnt body tube, focusing cam are installed on the outside of focusing body tube, and focusing cam passes through three 120 O uniformly distributed linear skewed slot, with focusing guide pin component placement on focusing body tube；Focusing motor, focusing potentiometer, focusing primary mirror Cylinder, focusing cam, microswitch form electric focusing mechanism, and the focusing motor, focusing potentiometer pass through focusing motor rack peace It sets on focusing body tube, the microswitch is placed on focusing body tube by limiting bracket of focusing, motor gear and tune Gear engagement on burnt cam drives focusing cam rotation by motor gear, is led by focusing when focusing electrical power rotation Straight trough limitation on lens barrel, the rotation of preceding group lens barrel is by limitation so that the linear motion in straight trough is only done, to realize to distance The focusing function of target；When focusing cam makes rotating motion, synchronous occurs opposite rotation with focusing potentiometer gear, makes The resistance value of potentiometer changes, and the changing value of potentiometer can be found out by sample circuit appropriate, and is transmitted to control centre, To realize the display of focusing value；Conversely, providing respective resistance values order by control centre, it can be achieved that the real-time control focused； Focusing banking pin is placed on focusing cam, follows the rotation of focusing cam, passes through microswitch and the common of banking pin of focusing Act on the limit and protective effect to focusing cam to corner.

Further, zoom lens barrel is placed in composition zoom component on zoom balladeur train by attachment screw；It is logical to compensate lens barrel Cross attachment screw be placed in compensation balladeur train on form compensation component；The zoom balladeur train is with compensation balladeur train by grinding with body tube Cooperation is placed in body tube, and zoom cam is placed in body tube by steel ball and forms rolling bearing, is locked by zoom cam pressing ring； The zoom cam processes zoom, compensated curve slot by the requirement of the optical zoom equation of motion, respectively with zoom guide pin component and Compensation guide pin component links together zoom cam and zoom balladeur train, compensation balladeur train；Zoom motor, zoom potentiometer, fine motion Switch composition power zoom mechanism, zoom motor are placed on body tube by zoom electric machine support, and zoom potentiometer passes through change Times potentiometer support is placed on body tube, and microswitch is placed on body tube by zoom limit switch frame；Zoom gear It drives zoom cam to correspondingly rotate when zoom rotor does positive and negative rotary motion with zoom cam-engaged, passes through change Again, compensated curve slot and zoom guide pin component, compensation guide pin component drive zoom balladeur train, compensation balladeur train to press zoom, compensated curve The mode of slot moves, and two on body tube straight trough plays the role of limiting zoom guide pin component, compensation guide pin component, and makes to become Times balladeur train, the rotary motion for compensating balladeur train become moving along a straight line；Strict control zoom guide pin component and compensation guide pin component and change The fit clearance between straight-line groove on the curved groove and body tube of times cam guarantees that zoom component and compensation component sliding are flat Surely, without cassette tape；It is rotated by motor and realizes that zoom component and compensation component are done straight line back and forth by zoom motion equation requirement and transported Dynamic, to realize the consecutive variations function of system focal length, when the focal length of system changes, zoom gear is nibbled with zoom cam It closes, synchronous occurs opposite rotation with zoom potentiometer gear, so that the resistance value of potentiometer is changed, passes through sampling appropriate Circuit can find out the changing value of potentiometer, and be transmitted to control centre, to realize the display of zoom value；Conversely, passing through control Center provide respective resistance values order, it can be achieved that focal length real-time control；Microswitch is played by zoom banking pin cooperating Limit and protective effect to system in zooming procedure；Temperature control panel, which is connected through a screw thread, to be fixed on body tube, Ke Yishi When monitor temperature change.

Further, the rear fixed group E is set in iris diaphgram component and rear fixation kit, the iris diaphgram component Built-in iris diaphgram, the iris diaphgram component include Iris motor and the microswitch for controlling diaphragm openings of sizes position Composition, shown microswitch are placed on diaphragm seat by diaphragm limiting bracket, and the diaphragm piece is placed in by rivet interlacement On diaphragm rotating ring and diaphragm seat, the Iris motor is placed on diaphragm seat by Iris motor frame, is filled on the Iris motor There is Iris motor gear, aperture setting ring rotation, the diaphragm are driven after engaging by diaphragm third wheel with aperture setting ring gear It adjusts ring to be locked on diaphragm seat by aperture setting ring pressing ring, the aperture setting ring passes through the diaphragm that is placed on diaphragm rotating ring It dials nail and drives the rotation of diaphragm rotating ring, the diaphragm rotating ring is locked in diaphragm seat by diaphragm rotating ring pressing ring, the diaphragm rotating ring band Dynamic diaphragm piece rotates to control the variation of aperture openings size, realizes the variation of Electronic control aperture size；The diaphragm electricity Machine gear is engaged by diaphragm third wheel with aperture setting ring, and diaphragm potentiometer is fixed on diaphragm seat using diaphragm potentiometer support On, diaphragm potentiometer is engaged by diaphragm potentiometer gear with aperture setting ring gear, when Iris motor rotation, Iris motor Gear drives light bar to adjust ring generation and correspondingly rotates by diaphragm third wheel, thus realize the display of stop opening size, it is synchronous Opposite rotation occurs with diaphragm potentiometer gear, so that the resistance value of potentiometer is changed, can by sample circuit appropriate To find out the changing value of potentiometer, and it is transmitted to control centre, to realize the display to aperture openings size；Conversely, passing through control Center processed provide respective resistance values order, it can be achieved that focal length real-time control；Auxiliary support plate, which is connected through a screw thread, is fixed on sealing In component.

Further, the sealing structure is made of mirror cover, preceding screening glass, front shroud cylinder, middle cover cylinder, ring flange, back cover cylinder, Preceding screening glass is fixed in front shroud cylinder by preceding screening glass pressing ring, and front shroud cylinder is locked at middle cover cylinder by hexagon socket cap head screw On, ring flange is locked on middle cover cylinder by hexagon socket cap head screw, and back cover cylinder is locked at flange by hexagon socket cap head screw On disk.

Compared with prior art, the utility model has the following beneficial effects: the utility model is closed with zoom Ring control function, focusing closed loop control function, focal length feedback function and Video Out；External environment temperature can be detected simultaneously Degree variation, and active response is quickly made, influence of the compensation temperature to image quality.

Detailed description of the invention

The utility model patent is further illustrated with reference to the accompanying drawing.

Fig. 1 is the light channel structure schematic diagram of the utility model.

MTF when Fig. 2 is focal length.

MTF when Fig. 3 is short focus.

Fig. 4 is the total schematic diagram of mechanical structure；

Fig. 5 is the structural schematic diagram one of focusing component；

Fig. 6 is the structural schematic diagram two of focusing component；

Fig. 7 is the structural schematic diagram one of zoom component and compensation component；

Fig. 8 is the structural schematic diagram two of zoom component and compensation component；

Fig. 9 is the structural schematic diagram one of iris diaphgram component；

Figure 10 is the structural schematic diagram two of iris diaphgram component；

Figure 11 is the structural schematic diagram of sealing structure；

In figure: fixed group A before A-；B- zoom group B；C- compensation group C；D- iris diaphgram D；Fixed group E after E-；A1- biconvex Lens A1；A2- positive meniscus lens A2；A3- diverging meniscus lens A3；A4- positive meniscus lens A4；B1- positive meniscus lens B1；B2- is bis- Concavees lens B2；B3- biconcave lens B3；C1- biconvex lens C1；C2- diverging meniscus lens C2；C3- biconvex lens C3；The positive bent moon of C4- Lens C4；E1- diverging meniscus lens E1；E2- positive meniscus lens E2；E3- plano-convex lens E3；E4- diverging meniscus lens E4；E5- biconvex Lens E5.

Specific embodiment

The present invention will be further described below with reference to the accompanying drawings and specific embodiments.

As shown in Fig. 1~11, a kind of high definition continuous magnification lens with active temperature focusing function, the light of the camera lens Zoom group B, the light that system is negative along light direction is successively arranged that focal power is positive from left to right preceding fixed group A, focal power The rear fixed group E that compensation group C that focal power is positive, iris diaphgram D, focal power are positive；Fixed group A is successively arranged lenticular before described The first gluing unit of mirror A1, positive meniscus lens A2, diverging meniscus lens A3 and positive meniscus lens A4 contiguity；The zoom group B is successively The second gluing unit, biconcave lens B3 equipped with positive meniscus lens B1 and biconcave lens B2 contiguity；The compensation group C is successively arranged double The third gluing unit of convex lens C1, diverging meniscus lens C2 and biconvex lens C3 contiguity, positive meniscus lens C4；Fixed group E after described It is successively arranged diverging meniscus lens E1, positive meniscus lens E2, plano-convex lens E3, diverging meniscus lens E4, biconvex lens E5.

In the present embodiment, the airspace between the preceding fixed group A and zoom group B is 4~82.01mm, zoom group B Airspace between compensation group C is 114.66~2.2 mm, and the airspace between compensation group C and rear fixed group E is 2.005~36.45mm.

In the present embodiment, biconvex lens A1 and the airspace of positive meniscus lens A2 are in the preceding fixed group A The airspace of 0.2mm, positive meniscus lens A2 and the first gluing unit is 1.7mm；Second gluing unit and concave-concave in the zoom group B The airspace of lens B3 is 4.44mm；The airspace of biconvex lens C1 and third gluing unit is in the compensation group C The airspace of 0.2mm, third gluing unit and positive meniscus lens C4 are 0.1mm；After described in fixed group E diverging meniscus lens E1 and The airspace of positive meniscus lens E2 is that the airspace of 0.1mm, positive meniscus lens E2 and plano-convex lens E3 are 27.5mm, plano-convex The airspace of lens E3 and diverging meniscus lens E4 are that the airspace of 3.75mm, diverging meniscus lens E4 and biconvex lens E5 are 18.4mm。

In the present embodiment, the mechanical structure of the camera lens successively includes focusing component 41, zoom component 42, compensation component 43, cam pack 44, iris diaphgram component 45, rear fixation kit 46, camera assembly 47；Fixed group A is set to focusing before described In component 41, the zoom group B is set in zoom component 42, and the compensation group C is set in compensation component 43, fixed group after described E is set in iris diaphgram component 45 and rear fixation kit 46, iris diaphgram built in the iris diaphgram component 45, camera lens outer wall packet Include sealing structure 48.

In the present embodiment, the focusing component 41 is with A1 piece pressing ring 51 by biconvex lens A1, positive meniscus lens A2, the One gluing unit is placed in respectively in preceding group lens barrel 52, A1 and A2 spacer ring 510 is equipped between biconvex lens A1 and positive meniscus lens A2, A2 and the first gluing unit spacer ring 58 are equipped between positive meniscus lens A2 and the first gluing unit, the preceding group lens barrel 52 is installed on focusing In body tube 54；The straight trough of uniformly distributed three 120o, focusing cam 55 are installed on focusing body tube 54 on the focusing body tube 54 Outside, the linear skewed slot uniformly distributed by three 120o of focusing cam 55 are placed in focusing body tube 54 with focusing guide pin component 53 On；Focusing motor 515, focusing potentiometer 517, focusing body tube 54, focusing cam 55, microswitch 512 form electromotion focusing Mechanism, the focusing motor 515, focusing potentiometer 517 are placed on focusing body tube 54 by motor rack 514 of focusing, described Microswitch 512 is placed on focusing body tube 54 by limiting bracket 513 of focusing, on motor gear 516 and focusing cam 55 Gear engagement, when focusing motor 515 be powered rotation, by motor gear 516 drive focusing cam 55 rotate, pass through focusing master Straight trough limitation on lens barrel 54, the rotation of preceding group lens barrel 52 is by limitation so that the linear motion in straight trough is only done, thus realization pair The focusing function of far and near target；When focusing cam 55 makes rotating motion, synchronous occurs relatively with focusing potentiometer gear 518 Rotation, so that the resistance value of potentiometer is changed, the changing value of potentiometer can be found out by sample circuit appropriate, and be transmitted to Control centre, to realize the display of focusing value；Conversely, respective resistance values order is provided by control centre, it can be achieved that focusing Real-time control；Focusing banking pin be placed on focusing cam 55, follow the rotation of focusing cam 55, by microswitch 512 with The collective effect of focusing banking pin arrives the limit and protective effect of corner to focusing cam 55.

In the present embodiment, zoom lens barrel 62 is placed in composition zoom component 42 on zoom balladeur train 63 by attachment screw； Compensation lens barrel 69 is placed on compensation balladeur train 611 by attachment screw and forms compensation component 43；The zoom balladeur train 63 and compensation For balladeur train 611 by being placed in body tube 66 with the grinding cooperation of body tube 66, zoom cam 65 is placed in body tube by steel ball 67 66 composition rolling bearings, are locked by zoom cam pressing ring 68；The zoom cam 65 is added by the requirement of the optical zoom equation of motion Work zoom, compensated curve slot, respectively with zoom guide pin component 64 and compensation guide pin component 612 zoom cam 65 and zoom balladeur train 63, compensation balladeur train 611 links together；Zoom motor 618, zoom potentiometer 616, microswitch 615 form power zoom machine Structure, zoom motor 618 are placed on body tube 66 by zoom electric machine support 620, and zoom potentiometer 616 passes through zoom potentiometer Bracket 620 is placed on body tube 66, and microswitch 615 is placed on body tube 66 by zoom limit switch frame 614；Zoom Gear 619 is engaged with zoom cam 65, when 618 rotor of zoom motor does positive and negative rotary motion, zoom cam 65 is driven to do phase The rotation answered drives zoom balladeur train 63 by zoom, compensated curve slot and zoom guide pin component 64, compensation guide pin component 612, mends It repays balladeur train 611 to move in the way of zoom, compensated curve slot, two on body tube 66 straight trough plays limitation zoom guide pin component 64, the effect of guide pin component 612 is compensated, and the rotary motion of zoom balladeur train 63, compensation balladeur train 611 is made to become moving along a straight line；Sternly Lattice control zoom guide pin component 64 and compensate guide pin component 612 and the straight-line groove on the curved groove and body tube 66 of zoom cam 65 Between fit clearance, guarantee zoom component 43 and compensation component 45 slide it is steady, without cassette tape；It is rotated by motor and realizes zoom Component 43 and compensation component 45 do linear motion back and forth by zoom motion equation requirement, to realize the continuous change of system focal length Change function, when the focal length of system changes, zoom gear 619 is engaged with zoom cam 65, synchronization with zoom potentiometer Opposite rotation occurs for gear 617, and the resistance value of potentiometer is made to change, and can find out potentiometer by sample circuit appropriate Changing value, and control centre is transmitted to, to realize the display of zoom value；Conversely, providing respective resistance values life by control centre Enable the real-time control, it can be achieved that focal length；Microswitch 615 is played by 613 cooperating of zoom banking pin in zooming procedure The limit and protective effect of system；Temperature control panel 621, which is connected through a screw thread, to be fixed on body tube 66, can monitor temperature in real time Degree variation.

In the present embodiment, the rear fixed group E is set in iris diaphgram component 45 and rear fixation kit 46, described variable Iris diaphgram built in diaphragm component 45, the iris diaphgram component 45 include Iris motor 722 and are open greatly for controlling diaphragm The microswitch 719 of small position forms, and shown microswitch 719 is placed on diaphragm seat 71 by diaphragm limiting bracket 718, institute It states diaphragm piece to be placed on diaphragm rotating ring 713 and diaphragm seat 71 by rivet interlacement, the Iris motor 722 passes through Iris motor Frame 721 is placed on diaphragm seat 71, on the Iris motor 722 be equipped with Iris motor gear 723, by diaphragm third wheel 725 with Aperture setting ring 73 is driven to rotate after the engagement of 73 gear of aperture setting ring, the aperture setting ring 73 is by aperture setting ring pressing ring 74 It is locked on diaphragm seat 71, the aperture setting ring 73 dials nail by the diaphragm being placed on diaphragm rotating ring 713 and drives diaphragm dynamic Ring 713 rotates, and the diaphragm rotating ring 713 is locked in diaphragm seat 71 by diaphragm rotating ring pressing ring 72, and the diaphragm rotating ring 713 drives Diaphragm piece rotates to control the variation of aperture openings size, realizes the variation of Electronic control aperture size；The Iris motor Gear 723 is engaged by diaphragm third wheel with aperture setting ring 74, and diaphragm potentiometer 726 is fixed using diaphragm potentiometer support 728 In on diaphragm seat 71, diaphragm potentiometer 726 is engaged by diaphragm potentiometer gear 727 with 73 gear of aperture setting ring, works as diaphragm When motor 722 rotates, Iris motor gear 723 drives light bar to adjust the generation of ring 73 and correspondingly rotates by diaphragm third wheel, thus Realize the display of stop opening size, synchronous occurs opposite rotation with diaphragm potentiometer gear 727, makes the resistance value of potentiometer It changes, the changing value of potentiometer can be found out by sample circuit appropriate, and be transmitted to control centre, to realize to light Enclose the display of openings of sizes；Conversely, respective resistance values order is provided by control centre, it can be achieved that focal length real-time control；Auxiliary Support plate 720, which is connected through a screw thread, to be fixed in seal assembly.

In the present embodiment, the sealing structure 48 is by mirror cover 81, preceding screening glass 83, front shroud cylinder 84, middle cover cylinder 85, flange Disk 86, back cover cylinder 87 form, and preceding screening glass 83 is fixed in front shroud cylinder 84 by preceding screening glass pressing ring 82, and front shroud cylinder 84 is by interior six Angle fillister head screw is locked on middle cover cylinder 85, and ring flange 86 is locked on middle cover cylinder 85 by hexagon socket cap head screw, back cover Cylinder 87 is locked on ring flange 86 by hexagon socket cap head screw.

In the present embodiment, following optical index has been reached by the optical system that above-mentioned lens set is constituted:

1, focal length: 50mm~500mm；

2, field angle: 1.4 °~14 °；

3, relative aperture: D/f ' is greater than 1/4.5；

4, optical transfer function: when transmission function spatial frequency 90lp/mm, center MTF >=0.6 when focal length, short focus, most Big visual field still has good image quality, peripheral field MTF >=0.4；

5, optics overall length is less than 335mm；

6, encircled energy: in complete burnt section, 85% energy is concentrated within the scope of 11 μm of hot spots of Φ.

In the present embodiment, the parameter of each eyeglass is as shown in the table:

Camera lens uses preceding fixed group (﹢), zoom group (﹣), compensation group (﹢), the structure for fixing group (﹢) four constituent elements afterwards, becomes When group is moved forward and backward again, compensation group is mobile to guarantee that image planes are constant simultaneously, this process realizes the variation of lens focus；Pass through The focal power of four constituent elements of reasonable distribution, makes camera lens have longer focal length under lesser length dimension.

To pursue higher resolution ratio, when optical design, makes preceding group suitably to complicate, using four chip architectures, improve light The focal power ability to take the burden of fixed group A before line height is highest, and a piece of ultra-low dispersion glass is used, significantly reduce optics The aberrations such as camera lens second order spectrum significantly improve the resolution ratio of camera lens.

Since temperature change causes the minor change of chemical parameters, the optimal focal plane of camera lens is caused to shift, reduce at Image quality amount, that embodies in long focal length lens is especially apparent.Therefore increase active temperature focusing function, make optical system compared with In big range of temperature retention property stablize, can guarantee in this way optical system image quality and lasting monitoring energy Power.

According to the design of optical lens, under equidistant, in certain range of temperature, temperature and focus-compensating The relation curve of amount is can to carry out quantitative expression with function expression, so our design parameters according to optical lens, knot Fine tuning when practical application is closed, obtains curve representation formula, and convert it to the table of comparisons, the temperature measured by temperature sensor Degree, by tabling look-up, obtains focus-compensating amount, and control focus motor and move to corresponding position.

Temperature sensor is added in camera lens suitable position, temperature change is monitored in real time, quickly environmental change is responded, Greatly shorten the time of Power focus.

Above-listed preferred embodiment has been further described the purpose of this utility model, technical solution and advantage, It should be understood that the above is only the preferred embodiment of the utility model only, it is not intended to limit the utility model, it is all Within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in practical Within novel protection scope.

Claims (8)

1. a kind of high definition continuous magnification lens with active temperature focusing function, it is characterised in that: the optical system of the camera lens It unites and organizes A, the zoom group B that focal power is negative, focal power along the light preceding fixation that direction is successively arranged that focal power is positive from left to right The rear fixed group E that the compensation group C that is positive, iris diaphgram D, focal power are positive；Fixed group A is successively arranged biconvex lens before described The first gluing unit of A1, positive meniscus lens A2, diverging meniscus lens A3 and positive meniscus lens A4 contiguity；The zoom group B is successively set There are the second gluing unit, the biconcave lens B3 of positive meniscus lens B1 and biconcave lens B2 contiguity；The compensation group C is successively arranged biconvex The third gluing unit of lens C1, diverging meniscus lens C2 and biconvex lens C3 contiguity, positive meniscus lens C4；After described fixed group E according to It is secondary to be equipped with diverging meniscus lens E1, positive meniscus lens E2, plano-convex lens E3, diverging meniscus lens E4, biconvex lens E5.

2. the high definition continuous magnification lens according to claim 1 with active temperature focusing function, it is characterised in that: Airspace before described between fixed group A and zoom group B is 4~82.01mm, between the air between zoom group B and compensation group C Every being 114.66~2.2 mm, the airspace between compensation group C and rear fixed group E is 2.005~36.45mm.

3. the high definition continuous magnification lens according to claim 1 with active temperature focusing function, it is characterised in that: institute The airspace of biconvex lens A1 and positive meniscus lens A2 is 0.2mm in fixed group A before stating, and positive meniscus lens A2 and first is glued The airspace of group is 1.7mm；The airspace of the second gluing unit and biconcave lens B3 are 4.44mm in the zoom group B；Institute Stating the airspace of biconvex lens C1 and third gluing unit in compensation group C is 0.2mm, third gluing unit and positive meniscus lens C4's Airspace is 0.1mm；The airspace of diverging meniscus lens E1 and positive meniscus lens E2 are 0.1mm in fixed group E after described, just The airspace of meniscus lens E2 and plano-convex lens E3 are that the airspace of 27.5mm, plano-convex lens E3 and diverging meniscus lens E4 are The airspace of 3.75mm, diverging meniscus lens E4 and biconvex lens E5 are 18.4mm.

4. the high definition continuous magnification lens according to claim 1 with active temperature focusing function, it is characterised in that: institute The mechanical structure for stating camera lens successively includes focusing component, zoom component, compensation component, cam pack, iris diaphgram component, consolidates afterwards Determine component, camera assembly；Fixed group A is set in focusing component before described, and the zoom group B is set in zoom component, described Compensation group C is set in compensation component, and fixed group E is set in iris diaphgram component and rear fixation kit after described, it is described can darkening Iris diaphgram built in late component, camera lens outer wall include sealing structure.

5. the high definition continuous magnification lens according to claim 4 with active temperature focusing function, it is characterised in that: institute Stating focusing component is that biconvex lens A1, positive meniscus lens A2, the first gluing unit are placed in preceding group lens barrel respectively with A1 piece pressing ring It is interior, it is equipped with A1 and A2 spacer ring between biconvex lens A1 and positive meniscus lens A2, is set between positive meniscus lens A2 and the first gluing unit There are A2 and the first gluing unit spacer ring, the preceding group lens barrel is installed in focusing body tube；It is three uniformly distributed on the focusing body tube The straight trough of 120o, focusing cam are installed on the outside of focusing body tube, and the focusing cam linear skewed slot uniformly distributed by three 120o is used Guide pin component placement focus on focusing body tube；Focusing motor, focusing potentiometer, focusing body tube, focusing cam, fine motion are opened Composition electric focusing mechanism is closed, the focusing motor, focusing potentiometer are placed on focusing body tube by motor rack of focusing, institute Microswitch to be stated to be placed on focusing body tube by limiting bracket of focusing, motor gear is engaged with the gear on focusing cam, When focusing electrical power rotation, focusing cam rotation is driven by motor gear, is limited by the straight trough on focusing body tube, it is preceding The rotation of group lens barrel is by limitation so that the linear motion in straight trough is only done, to realize the focusing function to far and near target；Work as tune When burnt cam makes rotating motion, synchronous occurs opposite rotation with focusing potentiometer gear, becomes the resistance value of potentiometer Change, the changing value of potentiometer can be found out by sample circuit appropriate, and be transmitted to control centre, to realize the aobvious of focusing value Show；Conversely, providing respective resistance values order by control centre, it can be achieved that the real-time control focused；Focusing banking pin is placed in tune On burnt cam, follow the rotation of focusing cam, by microswitch and focusing banking pin collective effect to focusing cam to turn The limit and protective effect at angle.

6. the high definition continuous magnification lens according to claim 4 with active temperature focusing function, it is characterised in that: become Times lens barrel is placed in composition zoom component on zoom balladeur train by attachment screw；It compensates lens barrel and compensation is placed in by attachment screw Compensation component is formed on balladeur train；The zoom balladeur train and compensation balladeur train are placed in body tube by cooperating with body tube grinding, Zoom cam is placed in body tube by steel ball and forms rolling bearing, is locked by zoom cam pressing ring；The zoom cam presses optics Zoom, compensated curve slot are processed in the requirement of zoom motion equation, respectively with zoom guide pin component and compensation guide pin component zoom Cam links together with zoom balladeur train, compensation balladeur train；Zoom motor, zoom potentiometer, microswitch form power zoom machine Structure, zoom motor are placed on body tube by zoom electric machine support, and zoom potentiometer is placed in by zoom potentiometer support On body tube, microswitch is placed on body tube by zoom limit switch frame；Zoom gear and zoom cam-engaged, work as change When times rotor does positive and negative rotary motion, drives zoom cam to correspondingly rotate, pass through zoom, compensated curve slot and zoom Guide pin component, compensation guide pin component drive zoom balladeur train, compensation balladeur train to move in the way of zoom, compensated curve slot, body tube On two straight troughs play the role of limit zoom guide pin component, compensation guide pin component, and make zoom balladeur train, compensate balladeur train rotation Transhipment is dynamic to be become moving along a straight line；Strict control zoom guide pin component and the curved groove and primary mirror for compensating guide pin component and zoom cam The fit clearance between straight-line groove on cylinder guarantees that zoom component and compensation component slide steadily, without cassette tape；It is rotated by motor Realize that zoom component and compensation component do linear motion back and forth by zoom motion equation requirement, to realize the company of system focal length Continuous variation function, when the focal length of system changes, zoom gear and zoom cam-engaged are synchronous with zoom potentiometer tooth Opposite rotation occurs for wheel, so that the resistance value of potentiometer is changed, the change of potentiometer can be found out by sample circuit appropriate Change value, and it is transmitted to control centre, to realize the display of zoom value；Conversely, respective resistance values order is provided by control centre, it can Realize the real-time control of focal length；Microswitch plays the limit to system in zooming procedure by zoom banking pin cooperating And protective effect；Temperature control panel, which is connected through a screw thread, to be fixed on body tube, can monitor temperature change in real time.

7. the high definition continuous magnification lens according to claim 4 with active temperature focusing function, it is characterised in that: institute Fixed group E is set in iris diaphgram component and rear fixation kit after stating, iris diaphgram built in the iris diaphgram component, it is described can Becoming diaphragm component includes Iris motor and the microswitch composition for controlling diaphragm openings of sizes position, and shown microswitch is logical Diaphragm limiting bracket to be crossed to be placed on diaphragm seat, the diaphragm piece is placed on diaphragm rotating ring and diaphragm seat by rivet interlacement, The Iris motor is placed on diaphragm seat by Iris motor frame, and Iris motor gear is housed on the Iris motor, is passed through Diaphragm third wheel drives aperture setting ring rotation after engaging with aperture setting ring gear, the aperture setting ring is by aperture setting ring pressure Circle is locked on diaphragm seat, and the aperture setting ring dials nail by the diaphragm being placed on diaphragm rotating ring and diaphragm rotating ring is driven to turn Dynamic, the diaphragm rotating ring is locked in diaphragm seat by diaphragm rotating ring pressing ring, and the diaphragm rotating ring drives the rotation of diaphragm piece to control The variation of Electronic control aperture size is realized in the variation of f-stop openings of sizes；The Iris motor gear passes through diaphragm third wheel It is engaged with aperture setting ring, diaphragm potentiometer is fixed on diaphragm seat using diaphragm potentiometer support, and diaphragm potentiometer passes through light Late potentiometer gear is engaged with aperture setting ring gear, and when Iris motor rotation, Iris motor gear crosses wheel belt by diaphragm Dynamic light bar adjusts ring generation and correspondingly rotates, synchronous with diaphragm potentiometer gear to realize the display of stop opening size Opposite rotation occurs, the resistance value of potentiometer is made to change, the variation of potentiometer can be found out by sample circuit appropriate Value, and it is transmitted to control centre, to realize the display to aperture openings size；Conversely, providing respective resistance values by control centre Order the real-time control, it can be achieved that focal length；Auxiliary support plate, which is connected through a screw thread, to be fixed in seal assembly.

8. the high definition continuous magnification lens according to claim 4 with active temperature focusing function, it is characterised in that: institute It states sealing structure to be made of mirror cover, preceding screening glass, front shroud cylinder, middle cover cylinder, ring flange, back cover cylinder, preceding screening glass passes through preceding protection Piece pressing ring is fixed in front shroud cylinder, and front shroud cylinder is locked on middle cover cylinder by hexagon socket cap head screw, and ring flange is justified by interior hexagonal Chapiter screw is locked on middle cover cylinder, and back cover cylinder is locked on ring flange by hexagon socket cap head screw.