CN207020384U - A kind of Optical devices of the high pixel of the big target surface of super large aperture - Google Patents

Abstract

The utility model discloses a kind of Optical devices of the high pixel of big target surface of super large aperture, the present apparatus includes the first lens L1, the second lens L2 of concave-concave negative power, the 3rd lens L3 of biconvex positive light coke, the 4th lens L4 of biconvex positive light coke, the 5th lens L5 of biconvex positive light coke, the 6th lens L6 of concavo-convex negative power, the 7th lens L7 of biconvex positive light coke, the 8th lens L8 of convex-concave positive light coke of the concave-concave negative power set gradually along light incident direction；Wherein, the 5th lens L5 and the 6th lens L6 is mutually glued forms compound lens.And make lens construction compact while increasing image planes size (1/1.8 ＂) by reasonably distributing focal power, and then significantly reduce tolerance sensitivities, product is set to meet 6Mega high definitions as matter, and reasonably ensure that camera lens is not influenceed by ambient temperature using glass material characteristic, substantially increase the stability of system.

Description

A kind of Optical devices of the high pixel of the big target surface of super large aperture

Technical field

The utility model relates generally to a kind of Optical devices.

Background technology

Domestic closed-circuit control industry (CCTV), which exists, at present shoots fuzzy, unclear the clapped scape of resolution under night low light condition As or for realize that large aperture effect causes the defects of lens construction is complicated, cost is higher, and domestic compentition is very fierce Under form, strong environmental adaptability has become inexorable trend, for example, China northeast market require to design be placed in room Outer and not supervising device of defocus throughout the year, China northeast in winter temperature often at subzero 30 DEG C, and to summer highest Also 31 DEG C or so can be reached.The circuit heating factor of CCTV camera is such as considered further that, design one kind can be burnt in -30 DEG C~70 DEG C Face not offset optical imaging device it is very necessary.

Utility model content

It the utility model is related to mainly for safety monitoring large aperture and ensure defocus and not disappear at -30 DEG C~70 DEG C The Optical devices of purple boundary.

To reach above design requirement, the technical scheme that the utility model is provided is as follows：

A kind of focal length is the 5mm full glass structures of 8G and high/low temperature is confocal and Optical devices without purple boundary phenomenon, its feature exist The second lens L2 of the first lens L1, concave-concave negative power in the concave-concave negative power set gradually along light incident direction, 3rd lens L3 of biconvex positive light coke, the 4th lens L4 of biconvex positive light coke, the 5th lens L5, recessed of biconvex positive light coke 6th lens L6 of convex negative power, the 7th lens L7 of biconvex positive light coke, the 8th lens L8 of convex-concave positive light coke；Its In, the 5th lens L5 and the mutually glued formation compound lens of the 6th lens L6.The focal lengths of eight lens of the device, refractive index, Radius of curvature and lens thickness meet following condition respectively：

Table 1

In upper table：" f " is refractive index, and " n " is refractive index, and " R " is radius of curvature, and " d " is lens thickness, bottom right mark " 1, " L1, L2, L3... ", "-" represent that direction is negative direction to the corresponding lens of 2,3.. ".

In summary, the Optical devices must also meet that lens L1 and L2 axial distance are 3.6-3.9mm, the lens L2 and L3 axial distance is 1.4-1.7mm, and the axial distance of the lens L3 and L4 is 0.14-0.16mm, the lens L4 Axial distance with L5 is 11.35-13.5mm, and the axial distance of the lens L6 and L7 is 0.4-0.7mm, the lens L7 with L8 axial distance is 0.5-0.7mm, it is preferable that the lens L1 and L2 of Optical devices axial distance is 3.74mm, the lens L2 and L3 axial distance are 1.52mm, and the axial distance of the lens L3 and L4 is 0.15mm, described Lens L4 and L5 axial distance are 12.65mm, and the axial distance of the lens L6 and L7 is 0.55mm, the lens L7 and L8 Axial distance be 0.63mm.

The design mainly adjusts the focal length value of 8 pieces of 4 groups of lens by controlling.

I.e.

-1.8<f/f12<-0.8；

0.3<f/f34<0.9；

0.01<f/f56<0.07；

0.1<f/f78<0.7；

Wherein, f is the focal length of whole optical system, and f12 is the combined focal length of the first lens and the second lens, f34 the The combined focal length of three lens and the 4th lens, f56 are the combined focal length of the 5th lens and the 6th lens, f78 be the 7th lens and The combined focal length of 8th lens.

In addition, Optical devices of the present utility model also meet：

φ12<0；

φ34>0；

φ56>0；

φ78>0；

Wherein, φ 12 is the combination focal power of the first lens and the second lens, and φ 34 is the 3rd lens and the 4th lens Focal power is combined, φ 56 is the combination focal power of the 5th lens and the 6th lens, and φ 78 is the group of the 7th lens and the 8th lens Closing light focal power.

The focal length value of each piece of lens sees the above table 1.

Using the technical solution of the utility model, effectively ensure in -30 DEG C~70 DEG C of temperature change not defocus, and And the rational focal power using lens materials and each eyeglass of adjustment can eliminate purple boundary and well lifting edge image quality, ensure Very high image quality.

Brief description of the drawings

Fig. 1 is lens assembling figure of the present utility model；

Fig. 2 is Optical devices figure of the present utility model；

Fig. 3, which is that wavelength VS of the present utility model is burnt, moves figure；

Fig. 4 is 20 DEG C of MTF curve figures of the utility model normal temperature；

Fig. 5 is -30 DEG C of MTF curve figures of the utility model low temperature；

Fig. 6 is 70 DEG C of MTF curve figures of the utility model high temperature.

Embodiment

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.It can manage Solution, specific embodiment described herein are used only for explaining the utility model, rather than to restriction of the present utility model.Separately It is outer it should also be noted that, illustrate only the part related to the utility model for the ease of description, in accompanying drawing and not all interior Hold.

See Fig. 1 and Fig. 2, it is first saturating to include the concave-concave negative power set gradually along light incident direction for the utility model Mirror L1, the second lens L2 of concave-concave negative power, the 3rd lens L3 of biconvex positive light coke, the 4th lens of biconvex positive light coke L4, the 5th lens L5 of biconvex positive light coke, the 6th lens L6 of concavo-convex negative power, the 7th lens of biconvex positive light coke L7, convex-concave positive light coke the 8th lens L8；Wherein, the 5th lens L5 and the 6th lens L6 is mutually glued forms compound lens. The lens L1 includes relative R1 faces and R2 faces, and the lens L2 includes relative R3 faces and R4 faces, and the lens L3 is included Relative R5 faces and R6 faces, the lens L4 include relative R7 faces and R8 faces, and the lens L5 includes relative R9 faces and R10 Face, the lens L6 include relative R10 faces and R11 faces, and the lens L7 includes relative R12 faces and R13 faces, the lens L8 includes relative R14 faces and R15 faces.

Embodiment one

When the focal length of eight lens of this implementation, the radius of curvature of refractive index and glass lens, thickness meet table 1 below condition When, while meeting that lens L1 and L2 axial distance is 3.6-3.9mm, the axial distance of the lens L2 and L3 is 1.4- 1.7mm, the lens L3 and L4 axial distance are 0.14-0.16mm, and the axial distance of the lens L4 and L5 is 11.35- 13.5mm, the lens L6 and L7 axial distance are 0.4-0.7mm, and the axial distance of the lens L7 and L8 is 0.5- 0.7mm, it is preferable that the lens L1 and L2 of Optical devices axial distance is 3.74mm, the lens L2's and L3 Axial distance is 1.52mm, and the axial distance of the lens L3 and L4 is 0.15mm, and the axial distance of the lens L4 and L5 is 12.65mm, the lens L6 and L7 axial distance are 0.55mm, and the axial distance of the lens L7 and L8 is 0.63mm.Hang down Axle aberration is shown in Fig. 3, it is seen that the defocusing amount of purple light is smaller, and purple boundary problem has obtained good solution.

Table 1

Embodiment two

When focal length, refractive index, radius of curvature, the thickness of eight lens of the present embodiment meet table 1, by Fig. 4, Fig. 5, figure 6 it can be seen that be located at the MTF curve surveyed under the maximum conditions such as 20 degrees Celsius of normal temperature, subzero 30 DEG C of low temperature, 70 DEG C of high temperature above freezing All without the serious defocus phenomenon of appearance.

Wherein, portion identification can be found in following explanations in Fig. 3-6.

MODULUS OF THE OTF --- modulation transfer function (MTF) value

SPATIAL FREQUENCY IN CYCLES PER MM --- every millimeter of demand pairs of spatial frequency

POLY CHROMATIC DIFFRACTION MTF --- polychromatic diffractive formula MTF

Preferred embodiment of the present utility model is these are only, it is all in the utility model not to limit the utility model Spirit and principle within, any modification, equivalent substitution and improvements made etc., should be included in protection model of the present utility model Within enclosing.

Claims (5)

1. the Optical devices of the high pixel of a kind of big target surface of super large aperture, it is characterised in that the device is included along light incident direction First lens L1 of the concave-concave negative power set gradually, the second lens L2 of concave-concave negative power, the of biconvex positive light coke Three lens L3, the 4th lens L4 of biconvex positive light coke, the 5th lens L5 of biconvex positive light coke, the 6th of concavo-convex negative power the Lens L6, the 7th lens L7 of biconvex positive light coke, the 8th lens L8 of convex-concave positive light coke；Wherein, the 5th lens L5 and Six lens L6 are mutually glued to form compound lens, wherein each lens of the Optical devices meet following condition：

-1.8<f/f12<-0.8；

0.3<f/f34<0.9；

0.01<f/f56<0.07；

0.1<f/f78<0.7；

Wherein, f is the focal length of whole optical system, and f12 is the combined focal length of first lens and the second lens, and f34 is institute The combined focal length of the 3rd lens and the 4th lens is stated, f56 is the combined focal length of the 5th lens and the 6th lens, and f78 is institute The combined focal length of the 7th lens and the 8th lens is stated,

Wherein, the lens L1 and L2 of Optical devices axial distance is 3.6-3.9mm, the axle of the lens L2 and L3 It is 1.4-1.7mm to distance, the axial distance of the lens L3 and L4 is 0.14-0.16mm, the axial direction of the lens L4 and L5 Distance be 11.35-13.5mm, and the axial distance of the lens L6 and L7 is 0.4-0.7mm, the lens L7 and L8 it is axial away from From for 0.5-0.7mm.

2. Optical devices as claimed in claim 1, it is characterised in that meet following condition：

Wherein,For the combination focal power of first lens and the second lens,For the 3rd lens and the 4th saturating The combination focal power of mirror,For the combination focal power of the 5th lens and the 6th lens,For the 7th lens with The combination focal power of 8th lens.

3. Optical devices as claimed in claim 1, it is characterised in that：The Optical devices also include a device diaphragm, described Device diaphragm is between the 4th lens L4 and the 5th lens L5.

4. Optical devices as claimed in claim 1, it is characterised in that：The lens L1 and L2 of Optical devices axial direction Distance is 3.74mm, and the axial distance of the lens L2 and L3 is 1.52mm, and the axial distance of the lens L3 and L4 is 0.15mm, the lens L4 and L5 axial distance are 12.65mm, and the axial distance of the lens L6 and L7 is 0.55mm, institute The axial distance for stating lens L7 and L8 is 0.63mm.

5. Optical devices as claimed in claim 1, it is characterised in that the Optical devices meet：

。