WO2021128155A1 - 镜头组件 - Google Patents

镜头组件 Download PDF

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Publication number
WO2021128155A1
WO2021128155A1 PCT/CN2019/128628 CN2019128628W WO2021128155A1 WO 2021128155 A1 WO2021128155 A1 WO 2021128155A1 CN 2019128628 W CN2019128628 W CN 2019128628W WO 2021128155 A1 WO2021128155 A1 WO 2021128155A1
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WO
WIPO (PCT)
Prior art keywords
lens
barrel
lens barrel
image side
object side
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Application number
PCT/CN2019/128628
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English (en)
French (fr)
Inventor
马杰
Original Assignee
诚瑞光学(常州)股份有限公司
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Publication date
Application filed by 诚瑞光学(常州)股份有限公司 filed Critical 诚瑞光学(常州)股份有限公司
Priority to PCT/CN2019/128628 priority Critical patent/WO2021128155A1/zh
Publication of WO2021128155A1 publication Critical patent/WO2021128155A1/zh

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Classifications

    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B7/00Mountings, adjusting means, or light-tight connections, for optical elements
    • G02B7/02Mountings, adjusting means, or light-tight connections, for optical elements for lenses

Definitions

  • This application belongs to the field of optical imaging technology, and in particular relates to a lens assembly.
  • the existing lens assembly generally includes a lens barrel 1'and a lens group 2'housed in the lens barrel 1'. As shown in FIG. 1, this structure is limited by the thickness of the lens barrel wall 1A', making the size A'unable to Further reduce.
  • the existing lens assembly structure cannot meet the market's requirements for lens miniaturization.
  • the technical problem to be solved by this application is to provide a lens assembly, which aims to solve the problem that the existing lens assembly cannot be further miniaturized due to the limitation of the lens barrel structure.
  • a lens assembly including a lens barrel, and a lens group housed in the lens barrel, the lens barrel includes an upper lens barrel and a lower lens barrel; the upper lens barrel And the lower lens barrel form an accommodation space for accommodating the lens group;
  • the upper lens barrel includes a first upper barrel wall with a light through hole and a second upper barrel wall bent and extended outward from the lower side of the first upper barrel wall;
  • the lens group includes a first lens and a second lens arranged in a direction from the object side to the image side.
  • the first lens has a shape that matches the upper lens barrel and is accommodated in the upper lens barrel.
  • Two lenses are accommodated in the lower lens barrel;
  • the lower lens barrel has a flange extending inward from the image side end thereof, and the flange fixes the lens group in the receiving space;
  • the second lens is glued and fixed to the upper lens barrel and the lower lens barrel respectively.
  • the upper lens barrel further includes a third upper barrel wall bent from the second upper barrel wall to the image side, and the third upper barrel wall is glued and fixed to the second lens.
  • it also includes a hollow ring-shaped pressure ring arranged on the object side of the second lens, and the inner and outer sides of the pressure ring are respectively adhesively connected to the upper lens barrel and the lower lens barrel.
  • the first lens includes a first optical part for imaging and a first bearing part arranged around the first optical part
  • the second lens includes a second optical part for imaging and a first supporting part arranged around the first optical part.
  • a second bearing portion provided on the second optical portion, the first bearing portion and the second bearing portion are snapped and fixed.
  • the first supporting portion includes a first object side surface close to the object side, a first image side surface disposed opposite to the first object side surface, and a first image side surface connecting the first object side surface and the first image side surface.
  • the second supporting portion includes a second object side surface close to the object side, a second image side surface disposed opposite to the second object side surface, and a second side surface connecting the second object side surface and the second image side surface;
  • the first image side surface and the second object side surface are buckled and fixed. .
  • the first image side surface includes a first inclined surface bent and extended toward the image side and a first plane extending horizontally from the first inclined surface close to the optical axis in a direction close to the optical axis.
  • the object side surface in turn includes a horizontally extending top surface, a second inclined surface bent and extended from the top surface to the image side, and a horizontally extending side from the second inclined surface close to the optical axis.
  • the first inclined surface and the second inclined surface buckle each other to form a buckle structure.
  • the lens group further includes a light-shielding sheet clamped between the first plane and the second plane.
  • the lens group further includes a third lens, a fourth lens, and a fifth lens arranged in a direction from the object side to the image side, and the fifth lens abuts against the flange.
  • the present application has the beneficial effect that: the present utility model adopts a new structural design, the lens barrel is designed as two parts of an upper lens barrel and a lower lens barrel, and when assembling, the first lens and the second lens are respectively assembled correspondingly Into the upper lens barrel and the lower lens barrel, the upper lens barrel and the lower lens barrel are assembled, and finally the second lens is bonded with the upper lens barrel and the lower lens barrel using an adhesive to form a lens assembly as a whole. Since the upper lens barrel 11 and the lower lens barrel 12 are designed to be separated, the thickness of the two does not need to be close to the same, and the upper lens barrel can be made thinner, which is beneficial to reduce the size A.
  • the lens of the utility model can meet the market's requirements for miniaturization of the lens; in addition, since the lens barrel wall 1B as shown in Fig. 1 does not exist in this structure, the lens can protrude more, that is, the size B can be maximized, and the lens can be maximized.
  • the tube serves as a diaphragm at the same time, which can also solve the problem of stray light well.
  • FIG. 1 is a cross-sectional view of a lens assembly structure in the prior art.
  • Fig. 2 is a schematic structural diagram of an embodiment of a lens assembly of the present invention.
  • FIG. 3 is a schematic diagram of the structure of the lens barrel in FIG. 2.
  • FIG. 4 is a schematic diagram of the structure of the first lens and the second lens in FIG. 2.
  • orientation or positional relationship indicated by “upper”, “lower”, “top”, “bottom”, “inner”, “outer”, etc. is based on the orientation or positional relationship shown in the drawings, and is only for It is convenient to describe the application and simplify the description, instead of indicating or implying that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore cannot be understood as a limitation of the application.
  • FIG. 2 and 3 The embodiment of a lens assembly provided by the present invention is shown in Figures 2 and 3, which includes a lens barrel 1 and a lens group 2 housed in the lens barrel.
  • the lens barrel 1 includes an upper lens barrel 11 and a lower lens barrel 12;
  • the upper lens barrel 11 and the lower lens barrel 12 form an accommodation space for accommodating the lens group 2.
  • the upper lens barrel 11 includes a first upper barrel wall 111 having a light through hole H, and a second upper barrel wall 112 bent and extended outward from the lower side of the first upper barrel wall 111;
  • the lens group 2 includes a self-object
  • the first lens 21 and the second lens 22 are arranged laterally toward the image side.
  • the upper side is the object side and the lower side is the image side.
  • the first lens 21 has a shape that matches the upper lens barrel 11 and accommodates In the upper barrel, the second lens 22 is accommodated in the lower barrel 12; the lower barrel 12 has a flange 121 extending inward from the image side end thereof, and the flange 121 fixes the entire lens group 2 in the accommodating space , The second lens 22 is adhered and fixed with the upper lens barrel 11 and the lower lens barrel 12 with the adhesive 3 respectively.
  • the utility model adopts a new structure design, the lens barrel is designed into two parts of the upper lens barrel 11 and the lower lens barrel 12.
  • the first lens 21 and the second lens 22 are respectively assembled to the upper lens barrel 11 and the lower lens barrel 12 respectively.
  • the upper lens barrel 11 and the lower lens barrel 12 are assembled, and finally the second lens group 22 is bonded with the upper lens barrel 11 and the lower lens barrel 12 by the adhesive 3 to form an integral lens assembly.
  • the thickness of the two does not need to be close to the same.
  • the upper lens barrel 11 can be made thinner, which is beneficial to reduce the size A.
  • the lens of the utility model can meet the market's requirements for miniaturization of the lens.
  • the lens barrel wall 1B as shown in Fig. 1 does not exist in this structure, the lens can protrude more, that is, the size B can be maximized.
  • the tube 11 also serves as a diaphragm, which can solve the stray light problem well.
  • the first lens 21 is also constrained by the inner wall of the first upper cylinder wall 111, so that the force of the upper lens barrel 11 is more uniform.
  • the upper lens barrel 11 may also be provided with a third upper barrel wall 113 bent from the second upper barrel wall 112 to the image side, and the third upper barrel wall 113 is glued and fixed to the second lens glue 22, as shown in FIG. 2, Shown in Figure 3.
  • the upper barrel 11 is sleeved in the lower barrel 12, the lower end surface of the third upper barrel wall 113 abuts on the second lens 22, the outer wall of the third upper barrel wall 113 and the inner wall of the lower barrel 12
  • a gap is provided in the gap, and the adhesive 3 is filled in the gap.
  • a hollow ring-shaped pressure ring 4 can be provided at the gap. The inner and outer sides of the pressure ring 4 pass through the adhesive 3 and the upper lens barrel 11, respectively.
  • the lower lens barrel 12 is glued and connected.
  • the first lens 21 includes a first optical portion 211 for imaging and a first supporting portion 212 arranged around the first optical portion 211
  • the second lens 22 includes a first optical portion 211 for imaging.
  • the second optical portion 221 and the second supporting portion 222 disposed around the second optical portion 221, the first supporting portion 212 and the second supporting portion 222 are snapped and fixed.
  • the first supporting portion 212 includes a first object side surface 2121 close to the object side, a first image side surface 2122 disposed opposite to the first object side surface 2121, and a connection between the first object side surface 2121 and the first object side surface 2121.
  • the first side surface 2123 of the first image side surface 2122; the second supporting portion 222 includes a second object side surface 2221 close to the object side, and a second image side surface 2222 disposed opposite to the second object side surface, and is connected to the first object side surface
  • Two object side surfaces 2221 and a second side surface 2223 of the second image side surface 2222, and the first image side surface 2122 and the second object side surface 2221 are snapped and fixed.
  • a specific buckling structure is shown in FIG. 4, the first image side surface 2122 includes a first inclined surface 21221 bent and extended toward the image side in a direction close to the optical axis, and a first inclined surface 21221 extending from the first inclined surface 21221 close to the optical axis.
  • a horizontally extending first plane 21222, the second object side 2221 includes a horizontally extending top surface 22211, a second inclined surface 22212 bent and extending from the top surface 22211 to the image side along a direction close to the optical axis, and A second plane 22213 extends horizontally from the side of the second inclined surface 22212 that is close to the optical axis.
  • the first inclined surface 21221 and the second inclined surface 22212 buckle with each other to form a buckled structure, which is beneficial to lift the first lens And the assembly accuracy and assembly stability of the second lens.
  • the lens group 2 may further include a light-shielding sheet 26, as shown in FIG. 2, which is clamped between the first plane 21222 and the second plane 22213 for shielding stray light.
  • the lens group 2 may further include a third lens 23, a fourth lens 24, and a fifth lens 25 that are arranged from the object side to the image side, and the fifth lens 25 abuts the flange 121. And it may be between the second lens 22 and the third lens 23, between the third lens 23 and the fourth lens 24, and between the fourth lens 24 and the fifth lens 25 A light-shielding sheet 26 is sandwiched to shield stray light.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Lens Barrels (AREA)

Abstract

一种镜头组件,包括镜筒(1),以及收容于镜筒(1)内的透镜组(2),镜筒(1)包括上镜筒(11)和下镜筒(12),上镜筒(11)和下镜筒(12)形成用于收容透镜组(2)的收容空间;上镜筒(11)包括具有通光孔(H)的第一上筒壁(111)和自第一上筒壁(111)的下侧向外弯折延伸的第二上筒壁(112);透镜组(2)包括自物侧向像侧方向配置的第一透镜(21)、第二透镜(22),第一透镜(21)具有与上镜筒(11)相配合的形状,并容置于上镜筒(11)中,第二透镜(22)容置于下镜筒(12)中;下镜筒(12)具有自其像侧端向内延伸的凸缘(121),凸缘(121)将透镜组(2)固定在收容空间内;第二透镜(22)分别与上镜筒(11)和下镜筒(12)胶粘固定。将镜筒(1)设计为分离式的,两者不用做到厚度接近一致,上镜筒(11)可以做得更薄,有利于减小镜头尺寸,能够满足市场对镜头小型化的要求。

Description

镜头组件 技术领域
本申请属于光学成像技术领域,尤其涉及一种镜头组件。
背景技术
现有的镜头组件一般包括镜筒1’以及收容于镜筒1’中的透镜组2’,如图1所示,这种结构由于镜筒壁1A’壁厚的限制,使得尺寸A’无法进一步减小。现有的镜头组件结构无法满足市场对镜头小型化的要求。
技术问题
本申请所要解决的技术问题在于提供一种镜头组件,旨在解决现有的镜头组件由于镜筒结构限制无法进一步小型化的问题。
技术解决方案
为解决上述技术问题,本申请是这样实现的,一种镜头组件,包括镜筒,以及收容于所述镜筒内的透镜组,所述镜筒包括上镜筒和下镜筒;所述上镜筒和所述下镜筒形成用于收容所述透镜组的收容空间;
所述上镜筒包括具有通光孔的第一上筒壁和自所述第一上筒壁的下侧向外弯折延伸的第二上筒壁;
所述透镜组包括自物侧向像侧方向配置的第一透镜、第二透镜,所述第一透镜具有与所述上镜筒相配合的形状,并容置于所述上镜筒中,所述第二透镜容置于所述下镜筒中;
所述下镜筒具有自其像侧端向内延伸的凸缘,所述凸缘将所述透镜组固定在所述收容空间内;
所述第二透镜分别与所述上镜筒和所述下镜筒胶粘固定。
进一步地,所述上镜筒还包括自所述第二上筒壁向像侧弯折的第三上筒壁,所述第三上筒壁与所述第二透镜胶粘固定。
进一步地,还包括设于所述第二透镜的物侧的呈中空环状的压环,所述压环的内外两侧分别与所述上镜筒和所述下镜筒胶粘连接。
进一步地,所述第一透镜包括用于成像的第一光学部以及环绕所述第一光学部设置的第一承载部,所述第二透镜包括用于成像的第二光学部以及环绕所述第二光学部设置的第二承载部,所述第一承载部和所述第二承载部坎合固定。
进一步地,所述第一承载部包括靠近物侧的第一物侧面、与所述第一物侧面相对设置的第一像侧面以及连接所述第一物侧面和所述第一像侧面的第一侧面;
所述第二承载部包括靠近物侧的第二物侧面、与所述第二物侧面相对设置的第二像侧面以及连接所述第二物侧面和所述第二像侧面的第二侧面;
所述第一像侧面与所述第二物侧面坎合固定。。
进一步地,所述第一像侧面沿靠近光轴的方向依次包括向像侧弯折延伸的第一斜面和自所述第一斜面靠近所述光轴水平延伸的第一平面,所述第二物侧面沿靠近所述光轴的方向依次包括水平延伸的顶面、自所述顶面向像侧弯折延伸的第二斜面以及自所述第二斜面靠近所述光轴的一侧水平延伸的第二平面,所述第一斜面与所述第二斜面相互坎合形成坎合结构。
进一步地,所述透镜组还包括夹持于所述第一平面和所述第二平面之间的遮光片。
进一步地,所述透镜组还包括自物侧向像侧方向配置的第三透镜、第四透镜和第五透镜,所述第五透镜与所述凸缘抵接。
有益效果
本申请与现有技术相比,有益效果在于:本实用新型采用新的结构设计,将镜筒设计为上镜筒和下镜筒两部分,组装时,将第一透镜、第二透镜分别对应组装到上镜筒和下镜筒中,再将上镜筒与下镜筒组装,最后采用胶黏剂将第二透镜与上镜筒和下镜筒粘接形成镜头组件整体。由于上镜筒11和下镜筒12是设计为分离的,两者不用做到厚度接近一致,上镜筒可以做得更薄,有利于减小尺寸A。本实用新型的镜头能够满足市场对镜头小型化的要求;此外,由于本结构中不存在如图1中的镜筒壁1B,因此,镜头可以突出更多,即尺寸B可以做到最大,上镜筒同时作为光阑,还可以很好地解决杂散光问题。
附图说明
图1是现有技术的一种镜头组件结构剖视图。
图2是本实用新型一种镜头组件的实施例的结构示意图。
图3是图2中镜筒的结构示意图。
图4是图2中的第一透镜和第二透镜的结构示意图。
本发明的实施方式
为了使本申请的目的、技术方案及优点更加清楚明白,以下结合实施例,对本申请进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本申请,并不用于限定本申请。
需要说明的是,“上”、“下”、“顶”、“底”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本申请和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本申请的限制。
本实用新型提供的一种镜头组件实施例如图2和图3所示,包括镜筒1,以及收容于所述镜筒内的透镜组2,镜筒1包括上镜筒11和下镜筒12;上镜筒11和下镜筒12形成用于收容所述透镜组2的收容空间。上镜筒11包括具有通光孔H的第一上筒壁111、自所述第一上筒壁111的下侧向外弯折延伸的第二上筒壁112;所述透镜组2包括自物侧向像侧方向配置的第一透镜21、第二透镜22,图中上侧为物侧,下侧为像侧,所述第一透镜21具有与上镜筒11相配合的形状,并容置于上镜筒中,所述第二透镜22容置于下镜筒12中;下镜筒12具有自其像侧端向内延伸的凸缘121,凸缘121将整个透镜组2固定在收容空间内,第二透镜22分别与上镜筒11和下镜筒12采用胶黏剂3粘接固定。
本实用新型采用新的结构设计,将镜筒设计为上镜筒11和下镜筒12两部分,组装时,将第一透镜21、第二透镜22分别对应组装到上镜筒11和下镜筒12中,再将上镜筒11与下镜筒12组装,最后采用胶黏剂3将第二透镜组22与上镜筒11、下镜筒12粘接形成镜头组件整体。由于上镜筒11和下镜筒12是设计为分离的,两者不用做到厚度接近一致,上镜筒11可以做得更薄,有利于减小尺寸A。本实用新型的镜头能够满足市场对镜头小型化的要求,此外,由于本结构中不存在如图1中的镜筒壁1B,因此,镜头可以突出更多,即尺寸B可以做到最大,上镜筒11同时作为光阑,可以很好地解决杂散光问题。
如图2所示,第一透镜21除了受到第二上筒壁112的约束,还受到第一上筒壁111的内壁的约束,使上镜筒11的受力更均匀。本实施例中,上镜筒11还可以设置自第二上筒壁112向像侧弯折的第三上筒壁113,第三上筒壁113与第二透镜胶22粘固定,如图2、图3所示。具体装配时,将上镜筒11套接在下镜筒12中,第三上筒壁113的下端面抵接在第二透镜22上,第三上筒壁113的外壁与下镜筒12的内壁之间设有间隙,在间隙处填充胶黏剂3,较佳地,可以在间隙处设置呈中空环状的压环4,压环4的内外两侧分别通过胶黏剂3与上镜筒11、下镜筒12胶粘连接。
进一步地,如图4所示,第一透镜21包括用于成像的第一光学部211以及环绕所述第一光学部211设置的第一承载部212,所述第二透镜22包括用于成像的第二光学部221以及环绕所述第二光学部221设置的第二承载部222,第一承载部212和第二承载部222坎合固定。具体的,所述第一承载部212包括靠近物侧的第一物侧面2121、与所述第一物侧面2121相对设置的第一像侧面2122,以及连接所述第一物侧面2121和所述第一像侧面2122的第一侧面2123;所述第二承载部222包括靠近物侧的第二物侧面2221、与所述第二物侧面相对设置的第二像侧面2222,以及连接所述第二物侧面2221和所述第二像侧面2222的第二侧面2223,第一像侧面2122与所述第二物侧面2221坎合固定。一种具体的坎合结构如图4所示,第一像侧面2122沿靠近光轴的方向依次包括向像侧弯折延伸的第一斜面21221和自所述第一斜面21221靠近所述光轴水平延伸的第一平面21222,所述第二物侧面2221沿靠近所述光轴的方向依次包括水平延伸的顶面22211、自所述顶面22211向像侧弯折延伸的第二斜面22212以及自所述第二斜面22212靠近所述光轴的一侧水平延伸的第二平面22213,所述第一斜面21221与所述第二斜面22212相互坎合形成坎合结构,有利于提升第一透镜和第二透镜的组装精度和组装稳定性。本实施例中,透镜组2还可以包括遮光片26,如图2所示,夹持于第一平面21222和第二平面22213之间,用于遮蔽杂散光。
进一步地,所述透镜组2还可以包括自物侧向像侧方向配置的第三透镜23、第四透镜24和第五透镜25,第五透镜25与凸缘121抵接。并且可以在所述第二透镜22和所述第三透镜23之间、所述第三透镜23和所述第四透镜24之间、所述第四透镜24和所述第五透镜25之间夹设置遮光片26,以遮蔽杂散光。
可以理解的是,上述实施例是示例性的,不能理解为对本实用新型的限制,本领域的普通技术人员在本实用新型的范围内可以对上述实施例进行变化、修改、替换和变型,这些均应包含在本申请的保护范围之内。

Claims (8)

  1. 一种镜头组件,包括镜筒,以及收容于所述镜筒内的透镜组,其特征在于,所述镜筒包括上镜筒和下镜筒,所述上镜筒和所述下镜筒形成用于收容所述透镜组的收容空间;
    所述上镜筒包括具有通光孔的第一上筒壁和自所述第一上筒壁的下侧向外弯折延伸的第二上筒壁;
    所述透镜组包括自物侧向像侧方向配置的第一透镜、第二透镜,所述第一透镜具有与所述上镜筒相配合的形状,并容置于所述上镜筒中,所述第二透镜容置于所述下镜筒中;
    所述下镜筒具有自其像侧端向内延伸的凸缘,所述凸缘将所述透镜组固定在所述收容空间内;
    所述第二透镜分别与所述上镜筒和所述下镜筒胶粘固定。
  2. 如权利要求1所述的镜头组件,其特征在于,所述上镜筒还包括自所述第二上筒壁向像侧弯折的第三上筒壁,所述第三上筒壁与所述第二透镜胶粘固定。
  3. 如权利要求1所述的镜头组件,其特征在于,还包括设于所述第二透镜的物侧的呈中空环状的压环,所述压环的内外两侧分别与所述上镜筒和所述下镜筒胶粘连接。
  4. 如权利要求1所述的镜头组件,其特征在于,所述第一透镜包括用于成像的第一光学部以及环绕所述第一光学部设置的第一承载部,所述第二透镜包括用于成像的第二光学部以及环绕所述第二光学部设置的第二承载部,所述第一承载部和所述第二承载部坎合固定。
  5. 如权利要求4所述的镜头组件,其特征在于,所述第一承载部包括靠近物侧的第一物侧面、与所述第一物侧面相对设置的第一像侧面以及连接所述第一物侧面和所述第一像侧面的第一侧面;
    所述第二承载部包括靠近物侧的第二物侧面、与所述第二物侧面相对设置的第二像侧面以及连接所述第二物侧面和所述第二像侧面的第二侧面;
    所述第一像侧面与所述第二物侧面坎合固定。
  6. 如权利要求5所述的镜头组件,其特征在于,
    所述第一像侧面沿靠近光轴的方向依次包括向像侧弯折延伸的第一斜面和自所述第一斜面靠近所述光轴水平延伸的第一平面,所述第二物侧面沿靠近所述光轴的方向依次包括水平延伸的顶面、自所述顶面向像侧弯折延伸的第二斜面以及自所述第二斜面靠近所述光轴的一侧水平延伸的第二平面,所述第一斜面与所述第二斜面相互坎合形成坎合结构。
  7. 如权利要求6所述的镜头组件,其特征在于,所述透镜组还包括夹持于所述第一平面和所述第二平面之间的遮光片。
  8. 如权利要求1所述的镜头组件,其特征在于,所述透镜组还包括自物侧向像侧方向配置的第三透镜、第四透镜和第五透镜,所述第五透镜与所述凸缘抵接。
PCT/CN2019/128628 2019-12-26 2019-12-26 镜头组件 WO2021128155A1 (zh)

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