WO2021253520A1 - Lens module - Google Patents

Abstract

The present invention provides a lens module, comprising a housing, a lens, a lens support, a first base, a second base, a focus driving member, and an anti-shake driving member. The lens support, the first base, and the second base are sequentially arranged along a first direction; the lens support can move in both the optical axis direction of a lens and a second direction; the focus driving member comprises focusing magnets and focusing coils; the anti-shake driving member comprises anti-shake magnets and anti-shake coils; the first direction, the optical axis direction, and the second direction are perpendicular to each other; the housing has a wall surface; a circuit board is fixed on the wall surface; the focusing coils and the anti-shake coils are fixed on the circuit board and are electrically connected to the circuit board; and the focusing magnets and the anti-shake magnets are both fixed on the side of the lens support facing the wall surface. Compared with the related art, in the lens module of the present invention, not only is more space made for balls without increasing the volume of the module, but the focusing coils and the anti-shake coils can share the same circuit board.

Description

镜头模组Lens module 技术领域Technical field

本发明涉及光学成像技术领域，尤其涉及一种镜头模组。The present invention relates to the technical field of optical imaging, in particular to a lens module.

背景技术Background technique

近年来，随着光学成像技术的发展及具有成像功能的电子产品的兴起，光学镜头被广泛地应用在各种电子产品中。一般光线都是直接从物侧射入，沿着光轴直线通过镜头组件到达像侧，通过镜头组件来对物体进行成像。该镜头组件一般具有自动对焦功能(autofocusing)和光学防抖功能(OIS:optical image stabilization)。In recent years, with the development of optical imaging technology and the rise of electronic products with imaging functions, optical lenses have been widely used in various electronic products. Generally, light enters directly from the object side, passes through the lens assembly in a straight line along the optical axis to the image side, and images the object through the lens assembly. The lens assembly generally has an autofocusing function (autofocusing) and an optical image stabilization function (OIS: optical image stabilization).

相关技术中的镜头模组包括壳体、收容于壳体内的镜头、固定镜头的镜头支架、与镜头支架相对设置的第一基座和第二基座、对焦驱动件及防抖驱动件，其中，第二基座相对于壳体固定，镜头支架与第一基座之间以及第一基座与第二基座之间均设有滚珠，对焦驱动件包括固定于镜头支架的对焦磁钢及相对于所述壳体固定的对焦线圈，对焦线圈和对焦磁钢配合以驱动镜头支架相对于第二基座沿镜头的光轴方向发生相对位移，实现镜头自动对焦；防抖驱动件包括固定于镜头支架的防抖磁钢及相对于所述壳体固定的防抖线圈，防抖磁钢和防抖线圈配合以驱动镜头支架相对于第二基座沿垂直于镜头的光轴方向发生相对位移，实现补偿镜头的抖动。然而，此种镜头模组的对焦驱动件和防抖驱动件的设置方式占用空间，且对焦线圈和防抖线圈分别通过不同的电路板连接，提高了成本。The lens module in the related art includes a housing, a lens housed in the housing, a lens holder for fixing the lens, a first base and a second base disposed opposite to the lens holder, a focus driving part, and an anti-shake driving part. , The second base is fixed relative to the housing, balls are provided between the lens holder and the first base, and between the first base and the second base, and the focus driving component includes a focus magnet fixed to the lens holder and With respect to the focus coil fixed to the housing, the focus coil and the focus magnet cooperate to drive the lens holder to move relative to the second base along the optical axis of the lens to achieve automatic focusing of the lens; the anti-shake driving component includes The anti-shake magnet of the lens holder and the anti-shake coil fixed with respect to the housing, the anti-shake magnet and the anti-shake coil cooperate to drive the lens holder to move relative to the second base along the direction perpendicular to the optical axis of the lens , To achieve compensation for the shake of the lens. However, the arrangement of the focus driver and the anti-shake driver of this lens module occupies space, and the focus coil and the anti-shake coil are respectively connected through different circuit boards, which increases the cost.

因此，实有必要提供一种新的镜头模组解决上述技术问题。Therefore, it is necessary to provide a new lens module to solve the above technical problems.

技术问题technical problem

本发明的目的在于提供一种镜头模组，该镜头模组不仅可以在不增加模组体积的情况下让出更多的空间给滚珠，而且其对焦线圈和防抖线圈可以共用一个电路板。The purpose of the present invention is to provide a lens module, which not only can make more space for the balls without increasing the volume of the module, but also the focus coil and the anti-shake coil can share the same circuit board.

技术解决方案Technical solutions

为了达到上述目的，本发明提供了一种镜头模组，包括壳体以及收容于所述壳体内的镜头、固定所述镜头的镜头支架、第一基座、相对于所述壳体固定的第二基座、对焦驱动件及防抖驱动件，所述镜头支架、所述第一基座及所述第二基座沿第一方向依次设置，所述对焦驱动件包括对焦磁钢及与所述对焦磁钢相互作用以驱动所述镜头支架沿所述镜头的光轴方向运动的对焦线圈，所述防抖驱动件包括防抖磁钢及与所述防抖磁钢相互作用以驱动所述镜头支架沿第二方向运动的防抖线圈，所述第一方向、所述光轴方向及所述第二方向之间相互垂直，所述壳体具有与所述镜头支架相对且沿所述第一方向与所述镜头支架间隔设置的壁面，所述壁面上固设有电路板，所述对焦线圈和所述防抖线圈固定于所述电路板并与所述电路板电连接，所述对焦磁钢和所述防抖磁钢均固定于所述镜头支架朝向所述壁面的一侧。In order to achieve the above objective, the present invention provides a lens module including a housing, a lens housed in the housing, a lens holder for fixing the lens, a first base, and a first base fixed relative to the housing. Two bases, a focus driving part and an anti-shake driving part, the lens holder, the first base and the second base are arranged in sequence along a first direction, the focus driving part includes a focus magnet and an anti-shake driving part. The focusing magnet interacts to drive the focusing coil of the lens holder to move along the optical axis of the lens, and the anti-shake driving member includes an anti-shake magnet and interacts with the anti-shake magnet to drive the An anti-shake coil for the lens holder to move in a second direction, the first direction, the optical axis direction, and the second direction are perpendicular to each other, and the housing has an anti-shake coil opposite to the lens holder and along the first direction. A wall surface spaced apart from the lens holder in one direction, a circuit board is fixed on the wall surface, the focusing coil and the anti-shake coil are fixed to the circuit board and electrically connected to the circuit board, the focusing Both the magnetic steel and the anti-shake magnetic steel are fixed on the side of the lens holder facing the wall surface.

优选地，所述对焦线圈绕线的厚度方向和所述防抖线圈绕线的厚度方向均平行于所述第一方向。Preferably, the thickness direction of the focus coil winding and the thickness direction of the anti-shake coil winding are both parallel to the first direction.

优选地，在所述第一方向上，所述对焦线圈的厚度大于所述防抖线圈的厚度。Preferably, in the first direction, the thickness of the focus coil is greater than the thickness of the anti-shake coil.

优选地，所述防抖磁钢包括沿所述第二方向依次设置的第一防抖磁钢和第二防抖磁钢，所述第一防抖磁钢和所述第二防抖磁钢沿所述第一方向充磁且极性相反。Preferably, the anti-vibration magnet includes a first anti-vibration magnet and a second anti-vibration magnet arranged in sequence along the second direction, the first anti-vibration magnet and the second anti-vibration magnet Magnetizing along the first direction and opposite polarity.

优选地，所述防抖磁钢还包括夹设于所述第一防抖磁钢和所述第二防抖磁钢之间的第三防抖磁钢，所述第三防抖磁钢沿所述第二方向充磁。Preferably, the anti-shake magnet further includes a third anti-shake magnet sandwiched between the first anti-shake magnet and the second anti-shake magnet, and the third anti-shake magnet The second direction is magnetized.

优选地，所述镜头的沿所述第二方向的相对两侧均设有沿所述光轴方向间隔设置的两个所述对焦磁钢及位于两个所述对焦磁钢之间的一个所述防抖磁钢。Preferably, the two opposite sides of the lens along the second direction are provided with two focusing magnets arranged at intervals along the optical axis direction and a focal point located between the two focusing magnets. The anti-shake magnetic steel.

优选地，所述镜头支架上设有将所述对焦磁钢和所述防抖磁钢隔离的隔板。Preferably, a partition separating the focusing magnet and the anti-shake magnet is provided on the lens holder.

优选地，所述镜头模组还包括多个回复机构，所述回复机构包括异极相对且沿所述第一方向间隔设置的第一回复磁钢和第二回复磁钢，所述第一回复磁钢固定于所述镜头支架朝向所述第一基座的一侧，所述第二回复磁钢固定于所述第二基座朝向所述第一基座的一侧。Preferably, the lens module further includes a plurality of recovery mechanisms, and the recovery mechanism includes a first recovery magnet and a second recovery magnet that are opposite to each other and arranged at intervals along the first direction. The magnet is fixed on the side of the lens holder facing the first base, and the second return magnet is fixed on the side of the second base facing the first base.

优选地，所述镜头支架朝向所述第一基座的一侧形成有***述第一回复磁钢的第一收容槽，所述第二基座朝向所述第一基座的一侧形成有***述第二回复磁钢的第二收容槽。Preferably, a first accommodating groove for accommodating the first return magnet is formed on the side of the lens holder facing the first base, and the second base is formed on the side facing the first base There is a second accommodating groove for accommodating the second return magnet.

优选地，所述回复机构设有四个，且所述回复机构沿所述第一方向的投影与所述对焦磁钢部分重叠，所述对焦驱动件还包括夹设于所述对焦磁钢与所述镜头支架之间的导磁片。Preferably, there are four restoration mechanisms, and the projection of the restoration mechanism along the first direction partially overlaps the focusing magnet, and the focusing driving member further includes a focus drive member sandwiched between the focusing magnet and The magnetic conductive sheet between the lens holders.

优选地，沿所述光轴方向上相邻两所述回复机构之间的间距等于沿所述第二方向上相邻两所述回复机构之间的间距。Preferably, the distance between two adjacent restoring mechanisms in the optical axis direction is equal to the distance between two adjacent restoring mechanisms in the second direction.

优选地，所述镜头支架和所述第一基座之间设有三个第一滚珠，所述第一基座和所述第二基座之间设有三个第二滚珠，其中，两个所述第一滚珠沿所述光轴方向间隔设置并位于所述镜头沿所述第二方向的一侧，另一个所述第一滚珠位于所述镜头沿所述第二方向的另一侧；两个所述第二滚珠沿所述光轴方向间隔设置并位于所述镜头沿所述第二方向的一侧，另一个所述第二滚珠位于所述镜头沿所述第二方向的另一侧；其中，所述第一滚珠和所述第二滚珠中的其中一方可沿所述光轴方向滚动，另一方可沿所述第二方向滚动。Preferably, three first balls are provided between the lens holder and the first base, and three second balls are provided between the first base and the second base, of which two The first ball is arranged at intervals along the optical axis direction and is located on one side of the lens along the second direction, and the other first ball is located on the other side of the lens along the second direction; two One of the second balls is arranged at intervals along the optical axis direction and is located on one side of the lens along the second direction, and the other of the second balls is located on the other side of the lens along the second direction ; Wherein, one of the first ball and the second ball can roll in the optical axis direction, and the other can roll in the second direction.

优选地，单独设置的所述第一滚珠和单独设置的所述第二滚珠位于所述镜头沿所述第二方向的同一侧。Preferably, the separately arranged first ball and the separately arranged second ball are located on the same side of the lens along the second direction.

优选地，所述镜头支架朝向所述第一基座的一侧设有三个第一导向槽，所述第一基座的朝向所述镜头支架的一侧设有三个与所述第一导向槽一一对应设置的第二导向槽，所述第一导向槽与所述第二导向槽之间设有所述第一滚珠，所述第一基座朝向所述第二基座的一侧设有三个第三导向槽，所述第二基座朝向所述第一基座的一侧设有三个与所述第三导向槽一一对应设置的第四导向槽，所述第三导向槽与所述第四导向槽之间设有所述第二滚珠。Preferably, the side of the lens holder facing the first base is provided with three first guide grooves, and the side of the first base facing the lens holder is provided with three first guide grooves. The second guide grooves are arranged in one-to-one correspondence, the first ball is arranged between the first guide groove and the second guide groove, and the first base is provided on a side facing the second base There are three third guide grooves, the side of the second base facing the first base is provided with three fourth guide grooves arranged one-to-one corresponding to the third guide grooves, and the third guide grooves and The second ball is arranged between the fourth guide grooves.

优选地，其中一个所述第一导向槽或其中一个所述第二导向槽垂直于所述第一滚珠滚动方向的横截面的轮廓为矩形，其余所述第一导向槽和所述第二导向槽垂直于所述第一滚珠滚动方向的横截面的轮廓为梯形或者三角形；其中一个所述第三导向槽或其中一个所述第四导向槽垂直于所述第二滚珠滚动方向的横截面的轮廓为矩形，其余所述第三导向槽和所述第四导向槽垂直于所述第二滚珠滚动方向的横截面的轮廓为梯形或者三角形。Preferably, the cross section of one of the first guide grooves or one of the second guide grooves perpendicular to the rolling direction of the first ball has a rectangular profile, and the remaining first guide grooves and the second guide grooves The profile of the cross section of the groove perpendicular to the rolling direction of the first ball is trapezoidal or triangular; one of the third guide grooves or one of the fourth guide grooves is perpendicular to the cross section of the second ball rolling direction. The contour is rectangular, and the contours of the cross section of the remaining third guide groove and the fourth guide groove perpendicular to the rolling direction of the second ball are trapezoidal or triangular.

有益效果Beneficial effect

与相关技术相比，本发明的镜头模组通过在所述壁面上固设电路板以固定和电连接所述对焦线圈和所述防抖线圈，并将所述对焦磁钢和所述防抖磁钢均固定于所述镜头支架朝向所述壁面的一侧，从而使得镜头模组不仅可以在不增加模组体积的情况下让出更多的空间给滚珠，而且其对焦线圈和防抖线圈可以共用一个电路板。Compared with the related art, the lens module of the present invention fixes and electrically connects the focusing coil and the anti-shake coil by fixing a circuit board on the wall surface, and combines the focusing magnet and the anti-shake coil. The magnetic steel is fixed on the side of the lens holder facing the wall, so that the lens module can not only make more space for the balls without increasing the volume of the module, but also its focus coil and anti-shake coil Can share a circuit board.

附图说明Description of the drawings

为了更清楚地说明本发明实施例中的技术方案，下面将对实施例描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其它的附图，其中。In order to explain the technical solutions in the embodiments of the present invention more clearly, the following will briefly introduce the accompanying drawings used in the description of the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, without creative work, other drawings can be obtained from these drawings, among which.

图1为本发明的镜头模组一较佳实施例的分解图。FIG. 1 is an exploded view of a preferred embodiment of the lens module of the present invention.

图2为图1所示镜头模组另一角度的结构示意图。FIG. 2 is a schematic structural diagram of the lens module shown in FIG. 1 from another angle.

图3为图1所示镜头模组中镜头支架的结构示意图。FIG. 3 is a schematic diagram of the structure of the lens holder in the lens module shown in FIG. 1.

图4为图1所示镜头模组中第二基座的结构示意图。4 is a schematic diagram of the structure of the second base in the lens module shown in FIG. 1.

图5为图2所示镜头模组中第一滚珠的分布图。FIG. 5 is a distribution diagram of the first rolling balls in the lens module shown in FIG. 2.

图6为图2所示镜头模组中镜头支架、第一基座及第一滚珠的分布图。FIG. 6 is a distribution diagram of the lens holder, the first base, and the first ball in the lens module shown in FIG. 2.

图7为图1所示镜头模组中第一基座、第二基座及第二滚珠的分布图。FIG. 7 is a distribution diagram of the first base, the second base, and the second ball in the lens module shown in FIG. 1.

图8为图1所示镜头模组组装后的立体图。FIG. 8 is a perspective view of the lens module shown in FIG. 1 after being assembled.

图9为图8所示镜头模组沿A-A方向的剖视图。Fig. 9 is a cross-sectional view of the lens module shown in Fig. 8 along the A-A direction.

图10为图8所示镜头模组沿B-B方向的剖视图。10 is a cross-sectional view of the lens module shown in FIG. 8 along the direction B-B.

图11为图8所示镜头模组沿C-C方向的剖视图。11 is a cross-sectional view of the lens module shown in FIG. 8 along the direction C-C.

本发明的实施方式Embodiments of the present invention

下面将结合本发明实施例中的附图，对本发明实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅是本发明的一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例，都属于本发明保护的范围。The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present invention.

请结合参阅图1至图11，镜头模组包括壳体1以及收容于所述壳体1内的镜头2、固定所述镜头2的镜头支架3、第一基座4、相对于所述壳体1固定的第二基座5、对焦驱动件6及防抖驱动件7，所述镜头支架3、所述第一基座4及所述第二基座5沿第一方向Z依次设置，所述对焦驱动件6用于驱动所述镜头支架3沿所述镜头2的光轴方向X运动，所述防抖驱动件7用于驱动所述镜头支架3沿第二方向Y运动，所述第一方向Z、所述光轴方向X及所述第二方向Y之间相互垂直。1-11, the lens module includes a housing 1 and a lens housed in the housing 1, a lens holder 3 for fixing the lens 2, a first base 4, and a first base 4 relative to the housing The second base 5, the focus driving part 6 and the anti-shake driving part 7 fixed to the body 1, the lens holder 3, the first base 4 and the second base 5 are arranged in sequence along the first direction Z, The focus drive member 6 is used to drive the lens holder 3 to move along the optical axis direction X of the lens 2, and the anti-shake drive member 7 is used to drive the lens holder 3 to move in the second direction Y. The first direction Z, the optical axis direction X, and the second direction Y are perpendicular to each other.

需要说明的是，所述光轴方向X的运动包括正向运动和反向运动，所述第二方向Y的运动也包括正向运动和反向运动。It should be noted that the movement in the optical axis direction X includes a forward movement and a reverse movement, and the movement in the second direction Y also includes a forward movement and a reverse movement.

其中，所述镜头支架3、所述第一基座4及所述第二基座5之间可以通过滑动接触，使得相互接触的两者之间的摩擦力较小，以使得所述镜头支架3在所述对焦驱动件6和所述防抖驱动件7驱动下能够有效移动，即实现所述镜头2的自动对焦及补偿镜头的抖动的目的。Wherein, the lens holder 3, the first base 4, and the second base 5 may be in sliding contact with each other, so that the friction between the two in contact with each other is small, so that the lens holder 3 It can be effectively moved under the driving of the focus driving part 6 and the anti-shake driving part 7, that is, the purpose of auto-focusing of the lens 2 and compensation of the shake of the lens are realized.

如图1、图2、图6及图7所示，所述镜头支架3和所述第一基座4之间设有三个第一滚珠a，所述第一基座4和所述第二基座5之间设有三个第二滚珠b，其中，两个所述第一滚珠a沿所述光轴方向X间隔设置并位于所述镜头2沿所述第二方向Y的一侧，另一个所述第一滚珠a位于所述镜头2沿所述第二方向Y的另一侧；两个所述第二滚珠b沿所述光轴方向X间隔设置并位于所述镜头2沿所述第二方向Y的一侧，另一个所述第二滚珠b位于所述镜头2沿所述第二方向Y的另一侧；其中，所述第一滚珠a和所述第二滚珠b中的其中一方可沿所述光轴方向X滚动，另一方可沿所述第二方向Y滚动。通过所述第一滚珠a和所述第二滚珠b实现所述镜头支架3和所述第一基座4之间以及所述第一基座4和所述第二基座5之间可相对运动的目的；同时，由于三个所述第一滚珠a和三个所述第二滚珠b均形成三点支撑结构（三点支撑结构的三个支撑点不在同一直线上），不仅形成的支撑结构稳定，而且简化了结构，降低了镜头模组的复杂程度。As shown in Figure 1, Figure 2, Figure 6 and Figure 7, there are three first balls a between the lens holder 3 and the first base 4, and the first base 4 and the second base 4 Three second balls b are arranged between the base 5, wherein two of the first balls a are spaced apart along the optical axis direction X and are located on one side of the lens 2 along the second direction Y, and the other One of the first balls a is located on the other side of the lens 2 along the second direction Y; two of the second balls b are arranged at intervals along the optical axis direction X and are located along the lens 2 along the On one side of the second direction Y, the other second ball b is located on the other side of the lens 2 along the second direction Y; wherein, of the first ball a and the second ball b One of them can roll in the optical axis direction X, and the other can roll in the second direction Y. The first ball a and the second ball b realize that the lens holder 3 and the first base 4 and the first base 4 and the second base 5 can be opposed to each other The purpose of the movement; at the same time, because the three first balls a and the three second balls b all form a three-point support structure (the three support points of the three-point support structure are not on the same straight line), not only the support is formed The structure is stable, and the structure is simplified, which reduces the complexity of the lens module.

在本实施方式中，单独设置的所述第一滚珠a和单独设置的所述第二滚珠b位于所述镜头2沿所述第二方向Y的同一侧。这样可以避免所述第一基座4弯曲变形。可以理解的是，在其他实施方式中，单独设置的所述第一滚珠a和单独设置的所述第二滚珠b也可以位于所述镜头2沿所述第二方向Y的不同侧。当单独设置的所述第一滚珠a和单独设置的所述第二滚珠b位于所述镜头2沿所述第二方向Y的不同侧时，由于所述第一基座4在沿所述第二方向Y的任意一侧均受到三个作用点不同的作用力，从而使得所述第一基座4以变形。In this embodiment, the separately arranged first ball a and the separately arranged second ball b are located on the same side of the lens 2 along the second direction Y. In this way, bending and deformation of the first base 4 can be avoided. It can be understood that, in other embodiments, the separately provided first ball a and the separately provided second ball b may also be located on different sides of the lens 2 along the second direction Y. When the separately arranged first ball a and the separately arranged second ball b are located on different sides of the lens 2 along the second direction Y, since the first base 4 is moving along the first Either side of the two directions Y is subjected to different forces at three points of application, so that the first base 4 is deformed.

在本实施方式中，所述镜头支架3朝向所述第一基座4的一侧设有三个第一导向槽3a，所述第一基座4的朝向所述镜头支架3的一侧设有三个与所述第一导向槽3a一一对应设置的第二导向槽4a，所述第一导向槽3a与所述第二导向槽4a之间设有所述第一滚珠a；所述第一基座4朝向所述第二基座5的一侧设有三个第三导向槽4b，所述第二基座5朝向所述第一基座4的一侧设有三个与所述第三导向槽4b一一对应设置的第四导向槽5a，所述第三导向槽4b与所述第四导向槽5a之间设有第二滚珠b。其中，所述第一导向槽3a和所述第二导向槽4a的延伸方向为所述第一滚珠a的滚动方向，以引导所述第一滚珠a沿其滚动方向滚动；所述第三导向槽4b和所述第四导向槽5a的延伸方向为所述第二滚珠b的滚动方向，以引导所述第二滚珠b沿其滚动方向滚动。通过设置所述第一导向槽3a、第二导向槽4a、所述第三导向槽4b及所述第四导向槽5a可以避免所述第一滚珠a所述第二滚珠b发生沿非期望方向上的运动。In this embodiment, the side of the lens holder 3 facing the first base 4 is provided with three first guide grooves 3a, and the side of the first base 4 facing the lens holder 3 is provided with three first guide grooves 3a. There are two second guide grooves 4a arranged in one-to-one correspondence with the first guide groove 3a, and the first ball a is provided between the first guide groove 3a and the second guide groove 4a; The side of the base 4 facing the second base 5 is provided with three third guide grooves 4b, and the side of the second base 5 facing the first base 4 is provided with three third guide grooves 4b. The grooves 4b are provided with the fourth guide grooves 5a corresponding to each other one by one, and a second ball b is provided between the third guide groove 4b and the fourth guide groove 5a. Wherein, the extending direction of the first guide groove 3a and the second guide groove 4a is the rolling direction of the first ball a, so as to guide the first ball a to roll along its rolling direction; the third guide The extending direction of the groove 4b and the fourth guide groove 5a is the rolling direction of the second ball b to guide the second ball b to roll along the rolling direction. By providing the first guide groove 3a, the second guide groove 4a, the third guide groove 4b, and the fourth guide groove 5a, the occurrence of the first ball a and the second ball b in an undesired direction can be avoided. Sports.

在本实施方式中，所述第一导向槽3a和所述第二导向槽4a沿所述第二方向Y延伸，以使得所述第一滚珠a在所述第一导向槽3a和所述第二导向槽4a的引导下沿所述第二方向Y滚动，从而可以避免所述第一滚珠a发生沿非所述第二方向Y（所述第二方向Y为期望方向）上的运动；所述第三导向槽4b和所述第四导向槽5a沿所述光轴方向X延伸，以使得所述第二滚珠b在所述第三导向槽4b和所述第四导向槽5a的引导下沿所述光轴方向X滚动，从而可以避免所述第二滚珠b沿非所述光轴方向X（所述光轴方向X为期望方向）上的运动。In this embodiment, the first guide groove 3a and the second guide groove 4a extend along the second direction Y, so that the first ball a is in the first guide groove 3a and the second guide groove 3a. The two guide grooves 4a roll along the second direction Y under the guidance of the two guide grooves 4a, so as to prevent the first ball a from moving in the second direction Y (the second direction Y is the desired direction); The third guide groove 4b and the fourth guide groove 5a extend along the optical axis direction X so that the second ball b is guided by the third guide groove 4b and the fourth guide groove 5a Rolling along the optical axis direction X can avoid movement of the second ball b along the non-optical axis direction X (the optical axis direction X is a desired direction).

在本实施方式中，当所述第一滚珠a沿所述第二方向Y滚动时，三个所述第一滚珠a的球心的连线构成一个非等腰三角形。这样可以保证所述镜头支架3的重心始终位于所述非等腰三角形的范围内。In this embodiment, when the first rolling ball a rolls in the second direction Y, the line connecting the centers of the three first rolling balls a forms a non-isosceles triangle. This can ensure that the center of gravity of the lens holder 3 is always within the range of the non-isosceles triangle.

所述第一导向槽3a、所述第二导向槽4a、所述第三导向槽4b及所述第四导向槽5a垂直于各自延伸方向的横截面的轮廓可以为矩形、梯形或者三角形等。在本实施方式中，优选地，其中一个所述第一导向槽3a或其中一个所述第二导向槽4a垂直于其延伸方向的横截面的轮廓为矩形，其余所述第一导向槽3a和所述第二导向槽4a垂直于其延伸方向的横截面的轮廓为梯形或者三角形；其中一个所述第三导向槽4b或其中一个所述第四导向槽5a垂直于其延伸方向的横截面的轮廓为矩形，其余所述第三导向槽4b和所述第四导向槽5a垂直于其延伸方向的横截面的轮廓为梯形或者三角形。将导向槽设置成这种结构可以降低零件加工精度。The contours of the cross section of the first guide groove 3a, the second guide groove 4a, the third guide groove 4b, and the fourth guide groove 5a perpendicular to the respective extending directions may be rectangular, trapezoidal or triangular. In this embodiment, preferably, one of the first guide grooves 3a or one of the second guide grooves 4a has a rectangular cross-sectional profile perpendicular to its extending direction, and the remaining first guide grooves 3a and The profile of the cross section of the second guide groove 4a perpendicular to its extending direction is trapezoidal or triangular; one of the third guide grooves 4b or one of the fourth guide grooves 5a has a cross section perpendicular to its extending direction. The contour is rectangular, and the contours of the cross section of the remaining third guide groove 4b and the fourth guide groove 5a perpendicular to the extending direction thereof are trapezoidal or triangular. Setting the guide groove into this structure can reduce the machining accuracy of the parts.

所述壳体1具有与所述镜头支架3相对且沿所述第一方向Z与所述镜头支架3间隔设置的壁面1A，所述壁面1A上固设有电路板8。The housing 1 has a wall surface 1A opposite to the lens holder 3 and spaced apart from the lens holder 3 along the first direction Z, and a circuit board 8 is fixed on the wall surface 1A.

如图1、图2、图9及图10所示，所述壳体1包括框体部11、设置于所述框体部11一端的底板13以及设置于所述框体部11另一端的盖板15，所述壁面1A位于所述盖板15上，所述第二基座5与所述底板13和所述框体部11固定。As shown in Figure 1, Figure 2, Figure 9 and Figure 10, the housing 1 includes a frame portion 11, a bottom plate 13 provided on one end of the frame portion 11, and a bottom plate 13 provided on the other end of the frame portion 11 Cover 15, the wall surface 1A is located on the cover 15, and the second base 5 is fixed to the bottom plate 13 and the frame portion 11.

其中，所述第二基座5背离所述第一基座4的一侧凹陷形成有多个凹陷部5A，所述凹陷部5A位于所述第二基座5的边缘并与所述框体部11围合形成容胶槽A。通过在所述第二基座5凹陷形成与所述框体部11围合形成容胶槽A的凹陷部5A，可使得所述框体部11与所述第二基座5之间打胶固定。Wherein, the side of the second base 5 facing away from the first base 4 is recessed to form a plurality of recessed portions 5A, and the recessed portions 5A are located on the edge of the second base 5 and are connected to the frame body. The part 11 is enclosed to form a glue containing groove A. The second base 5 is recessed to form a recessed portion 5A that surrounds the frame portion 11 to form a glue container A, so that glue can be applied between the frame portion 11 and the second base 5 fixed.

所述第二基座5的边缘延伸形成多个间隔设置的定位块5B，所述框体部11开设有***述定位块5B的定位槽11A。通过在所述第二基座5的边缘延伸形成定位块5B并在所述框体部11上开设有***述定位块5B的定位槽11A，可以便于所述第二基座5和所述框体部11装配。The edge of the second base 5 extends to form a plurality of positioning blocks 5B arranged at intervals, and the frame body portion 11 is provided with positioning grooves 11A for receiving the positioning blocks 5B. By extending a positioning block 5B on the edge of the second base 5 and opening a positioning groove 11A for accommodating the positioning block 5B on the frame portion 11, the second base 5 and the The frame body 11 is assembled.

所述对焦驱动件6包括对焦磁钢61及与所述对焦磁钢61相互作用以驱动所述镜头支架3沿所述光轴方向X运动的对焦线圈63，所述对焦线圈63固定于所述电路板8并与所述电路板8电连接，所述对焦磁钢61固定于所述镜头支架3朝向所述壁面1A的一侧。具体应用中，通电后的所述对焦线圈63与所述对焦磁钢61配合产生的洛伦兹力驱动所述镜头支架3沿所述镜头2的所述光轴方向X运动。其中，所述镜头2的所述光轴方向X的通过第一位移传感器10测量，所述第一位移传感器10固设于所述电路板8上。The focus driving member 6 includes a focus magnet 61 and a focus coil 63 that interacts with the focus magnet 61 to drive the lens holder 3 to move along the optical axis direction X, and the focus coil 63 is fixed to the The circuit board 8 is electrically connected to the circuit board 8, and the focusing magnet 61 is fixed on the side of the lens holder 3 facing the wall 1A. In specific applications, the Lorentz force generated by the cooperation of the focusing coil 63 and the focusing magnet 61 after being powered on drives the lens holder 3 to move along the optical axis direction X of the lens 2. Wherein, the optical axis direction X of the lens 2 is measured by a first displacement sensor 10, and the first displacement sensor 10 is fixed on the circuit board 8.

在本实施方式中，所述对焦线圈63绕线的厚度方向与所述第一方向Z平行。这样有利于提高所述对焦线圈63和所述对焦磁钢61之间的BL值。In this embodiment, the thickness direction of the winding of the focus coil 63 is parallel to the first direction Z. This is beneficial to increase the BL value between the focus coil 63 and the focus magnet 61.

在本实施方式中，所述对焦磁钢61为四极磁钢。In this embodiment, the focusing magnet 61 is a quadrupole magnet.

所述防抖驱动件7包括防抖磁钢71及与所述防抖磁钢71相互作用以驱动所述镜头支架3沿所述第二方向Y运动的防抖线圈73，所述防抖线圈73固定于所述电路板8并与所述电路板8电连接，所述防抖磁钢71固定于所述镜头支架3朝向所述壁面1A的一侧。具体应用中，在发生抖动的拍摄情况下，所述镜头20可能在所述第二方向Y上发生微小移动。此时，通电后的所述防抖线圈73与所述防抖磁钢71配合产生的洛伦兹力驱动所述镜头2朝相反的方向运动以补偿抖动量，从而获得高清图像。其中，所述镜头20的抖动通过第二位移传感器20测量，所述第二位移传感器20固设于所述电路板8上。The anti-shake driving member 7 includes an anti-shake magnet 71 and an anti-shake coil 73 that interacts with the anti-shake magnet 71 to drive the lens holder 3 to move in the second direction Y. The anti-shake coil 73 73 is fixed to the circuit board 8 and electrically connected to the circuit board 8, and the anti-shake magnet 71 is fixed to the side of the lens holder 3 facing the wall 1A. In a specific application, the lens 20 may move slightly in the second direction Y in a shooting situation with jitter. At this time, the Lorentz force generated by the anti-shake coil 73 and the anti-shake magnet 71 after being energized drives the lens 2 to move in the opposite direction to compensate for the amount of shaking, so as to obtain a high-definition image. Wherein, the jitter of the lens 20 is measured by a second displacement sensor 20, and the second displacement sensor 20 is fixed on the circuit board 8.

在本实施方式中，所述防抖线圈73绕线的厚度方向与所述第一方向Z平行。这样有利于提高所述防抖线圈73和所述防抖磁钢71之间的BL值。In this embodiment, the thickness direction of the anti-vibration coil 73 is parallel to the first direction Z. This is beneficial to increase the BL value between the anti-shake coil 73 and the anti-shake magnet 71.

在本实施方式中，所述防抖磁钢71包括沿所述第二方向Y依次设置的第一防抖磁钢711和第二防抖磁钢713，所述第一防抖磁钢711和所述第二防抖磁钢713沿所述第一方向Z充磁且极性相反。进一步优选地，所述防抖磁钢71还包括夹设于所述第一防抖磁钢711和所述第二防抖磁钢713之间的第三防抖磁钢715，所述第三防抖磁钢715沿所述第二方向Y充磁。所述第三防抖磁钢715的设置可以增加所述防抖磁钢71的BL值。In this embodiment, the anti-vibration magnet 71 includes a first anti-vibration magnet 711 and a second anti-vibration magnet 713 that are sequentially arranged along the second direction Y, and the first anti-vibration magnet 711 and The second anti-vibration magnet 713 is magnetized along the first direction Z with opposite polarities. Further preferably, the anti-shake magnet 71 further includes a third anti-shake magnet 715 sandwiched between the first anti-shake magnet 711 and the second anti-shake magnet 713, and the third anti-shake magnet 715 The anti-vibration magnet 715 is magnetized along the second direction Y. The setting of the third anti-shake magnet 715 can increase the BL value of the anti-shake magnet 71.

在本实施方式中，在所述第一方向Z上，所述对焦线圈63的厚度大于所述防抖线圈73的厚度。通过调整所述对焦线圈63的厚度可以增加所述镜头支架3沿所述光轴方向X运动的驱动力。In this embodiment, in the first direction Z, the thickness of the focus coil 63 is greater than the thickness of the anti-shake coil 73. By adjusting the thickness of the focus coil 63, the driving force of the lens holder 3 to move along the optical axis direction X can be increased.

在本实施方式中，所述镜头2的沿所述第二方向Y的相对两侧均设有沿所述光轴方向X间隔设置的两个所述对焦磁钢61及位于两个所述对焦磁钢61之间的一个所述防抖磁钢71。通过在所述镜头2的沿所述第二方向Y的相对两侧均设有沿所述光轴方向X间隔设置的两个所述对焦磁钢61及位于两个所述对焦磁钢61之间的一个所述防抖磁钢71，不仅能增大对焦驱动件6和防抖驱动件7对所述镜头支架3的驱动力，从而可以实现自动对焦及补偿镜头的抖动的快速响应，而且可以使所述镜头2的沿所述第二方向Y的相对两侧的受力均衡。In this embodiment, two opposite sides of the lens 2 along the second direction Y are provided with two focusing magnets 61 arranged at intervals along the optical axis direction X, and two focusing magnets 61 and two focusing magnets 61 arranged at intervals along the optical axis direction X. One of the anti-shake magnets 71 between the magnets 61. By providing two focusing magnets 61 arranged at intervals along the optical axis direction X on opposite sides of the lens 2 along the second direction Y and located between the two focusing magnets 61 One of the anti-shake magnets 71 in between can not only increase the driving force of the focus driving part 6 and the anti-shake driving part 7 to the lens holder 3, so as to realize the quick response of autofocus and compensation of the shake of the lens, but also The forces on opposite sides of the lens 2 along the second direction Y can be balanced.

如图9、图10及图11所示，所述第一位移传感器10被一个所述对焦线圈63环绕，且环绕所述第一位移传感器10的所述对焦线圈63的内径大于其他三个所述对焦线圈63的内径，所述第二位移传感器20被一个所述防抖线圈73环绕。As shown in FIGS. 9, 10, and 11, the first displacement sensor 10 is surrounded by one focus coil 63, and the inner diameter of the focus coil 63 surrounding the first displacement sensor 10 is larger than that of the other three. Regarding the inner diameter of the focusing coil 63, the second displacement sensor 20 is surrounded by the anti-shake coil 73.

所述镜头支架3上设有将所述对焦磁钢61和所述防抖磁钢71隔离的隔板31。通过设置所述隔板31，可以避免所述对焦磁钢61和所述防抖磁钢71之间发生相对移动。优选地，所述隔板31具有导磁作用，从而不仅可以避免所述对焦磁钢61和所述防抖磁钢71之间磁场的相互影响，而且有利于提高所述对焦磁钢61和所述防抖磁钢71的BL值。The lens holder 3 is provided with a partition 31 separating the focusing magnet 61 and the anti-shake magnet 71. By providing the partition 31, relative movement between the focusing magnet 61 and the anti-vibration magnet 71 can be avoided. Preferably, the partition plate 31 has a magnetic conduction function, so as not only to avoid the mutual influence of the magnetic field between the focusing magnet 61 and the anti-shake magnet 71, but also to help improve the focus of the focusing magnet 61 and the anti-shake magnet. The BL value of the anti-shake magnet 71 is described.

所述镜头模组还包括多个回复机构9，所述回复机构9包括异极相对且沿所述第一方向Z间隔设置的第一回复磁钢91和第二回复磁钢93，所述第一回复磁钢91固定于所述镜头支架3朝向所述第一基座4的一侧，所述第二回复磁钢93固定于所述第二基座朝5向所述第一基座4的一侧。所述镜头支架3在所述光轴方向X或/和所述第二方向Y发生位移时，所述第一回复磁钢91和所述第二回复磁钢93之间的相互作用力作为使得所述镜头支架3复位的回复力，同时所述第一回复磁钢91和所述第二回复磁钢93之间的相互作用力，还可以使得所述镜头支架3和所述第一基座4压紧在所述第二基座5上。The lens module further includes a plurality of recovery mechanisms 9, and the recovery mechanism 9 includes a first recovery magnet 91 and a second recovery magnet 93 that are opposite to each other and arranged at intervals along the first direction Z. A return magnet 91 is fixed to the side of the lens holder 3 facing the first base 4, and the second return magnet 93 is fixed to the second base 5 to the first base 4 On the side. When the lens holder 3 is displaced in the optical axis direction X or/and the second direction Y, the interaction force between the first return magnet 91 and the second return magnet 93 serves as The restoring force of the lens holder 3 and the interaction force between the first restoring magnet 91 and the second restoring magnet 93 can also make the lens holder 3 and the first base 4 is pressed on the second base 5.

在本实施方式中，所述镜头支架3朝向所述第一基座4的一侧形成有***述第一回复磁钢91的第一收容槽3A，所述第二基座5朝向所述第一基座4的一侧形成有***述第二回复磁钢93的第二收容槽50。通过设置所述第一收容槽3A***述第一回复磁钢91以及所述第二收容槽50***述第二回复磁钢93，有利于增大所述第一回复磁钢91和所述第二回复磁钢93的体积，从而增大所述第一回复磁钢91和所述第二回复磁钢93的BL值。In this embodiment, the side of the lens holder 3 facing the first base 4 is formed with a first receiving groove 3A for accommodating the first return magnet 91, and the second base 5 faces the A second accommodating groove 50 for accommodating the second return magnet 93 is formed on one side of the first base 4. By providing the first accommodating groove 3A to accommodate the first return magnet 91 and the second accommodating groove 50 to accommodate the second return magnet 93, it is beneficial to increase the size of the first return magnet 91 and the second return magnet 93. The volume of the second returning magnet 93 increases the BL value of the first returning magnet 91 and the second returning magnet 93.

在本实施方式中，所述回复机构9设有四个，且所述回复机构9沿所述第一方向Z的投影与所述对焦磁钢61部分重叠，所述对焦驱动件6还包括夹设于所述对焦磁钢61与所述镜头支架3之间的导磁片65。对焦磁钢61下方增加导磁片65，可以降低对焦磁钢61对所述第一回复磁钢91和所述第二回复磁钢93的影响，尤其是对所述第一回复磁钢91的影响。In this embodiment, the restoration mechanism 9 is provided with four, and the projection of the restoration mechanism 9 in the first direction Z partially overlaps the focusing magnet 61, and the focusing driving member 6 further includes a clamp A magnetic conductive sheet 65 arranged between the focusing magnet 61 and the lens holder 3. Adding a magnetic conductive sheet 65 under the focusing magnet 61 can reduce the influence of the focusing magnet 61 on the first return magnet 91 and the second return magnet 93, especially on the first return magnet 91 Influence.

进一步优选地，沿所述光轴方向X上相邻两所述回复机构9之间的间距等于沿所述第二方向Y上相邻两所述回复机构9之间的间距。这样可以使得所述镜头支架3在所述光轴方向X和所述第二方向Y上回复刚度几乎一致。Further preferably, the distance between two adjacent restoring mechanisms 9 in the optical axis direction X is equal to the distance between two adjacent restoring mechanisms 9 in the second direction Y. In this way, the return stiffness of the lens holder 3 in the optical axis direction X and the second direction Y can be almost the same.

与相关技术相比，本发明的镜头模组通过在所述壁面1A上固设电路板8以固定和电连接所述对焦线圈63和所述防抖线圈73，并将所述对焦磁钢61和所述防抖磁钢71均固定于所述镜头支架3朝向所述壁面1A的一侧，从而使得镜头模组不仅可以在不增加模组体积的情况下让出更多的空间给滚珠，而且其对焦线圈和防抖线圈可以共用一个电路板。Compared with the related art, the lens module of the present invention fixes and electrically connects the focus coil 63 and the anti-shake coil 73 by fixing the circuit board 8 on the wall surface 1A, and connects the focus magnet 61 And the anti-shake magnet 71 are both fixed on the side of the lens holder 3 facing the wall 1A, so that the lens module can not only make more space for the balls without increasing the volume of the module, but also And its focus coil and anti-shake coil can share a circuit board.

以上所述的仅是本发明的实施方式，在此应当指出，对于本领域的普通技术人员来说，在不脱离本发明创造构思的前提下，还可以做出改进，但这些均属于本发明的保护范围。The above are only the embodiments of the present invention. It should be pointed out here that for those of ordinary skill in the art, improvements can be made without departing from the inventive concept of the present invention, but these all belong to the present invention. The scope of protection.

Claims (15)

1. 一种镜头模组，包括壳体以及收容于所述壳体内的镜头、固定所述镜头的镜头支架、第一基座、相对于所述壳体固定的第二基座、对焦驱动件及防抖驱动件，所述镜头支架、所述第一基座及所述第二基座沿第一方向依次设置，所述对焦驱动件包括对焦磁钢及与所述对焦磁钢相互作用以驱动所述镜头支架沿所述镜头的光轴方向运动的对焦线圈，所述防抖驱动件包括防抖磁钢及与所述防抖磁钢相互作用以驱动所述镜头支架沿第二方向运动的防抖线圈，所述第一方向、所述光轴方向及所述第二方向之间相互垂直，所述壳体具有与所述镜头支架相对且沿所述第一方向与所述镜头支架间隔设置的壁面，其特征在于，所述壁面上固设有电路板，所述对焦线圈和所述防抖线圈固定于所述电路板并与所述电路板电连接，所述对焦磁钢和所述防抖磁钢均固定于所述镜头支架朝向所述壁面的一侧。A lens module includes a housing, a lens housed in the housing, a lens holder for fixing the lens, a first base, a second base fixed with respect to the housing, a focus drive, and a protective device Shake driving part, the lens holder, the first base and the second base are sequentially arranged along a first direction, the focus driving part includes a focus magnet and interacts with the focus magnet to drive the The lens holder is a focusing coil that moves along the optical axis of the lens, and the anti-shake driving member includes an anti-shake magnet and an anti-shake magnet that interacts with the anti-shake magnet to drive the lens holder to move in a second direction. Dithering coils, the first direction, the optical axis direction, and the second direction are perpendicular to each other, and the housing is opposite to the lens holder and spaced apart from the lens holder along the first direction The wall surface is characterized in that a circuit board is fixed on the wall surface, the focusing coil and the anti-shake coil are fixed to the circuit board and electrically connected to the circuit board, the focusing magnet and the The anti-shake magnets are all fixed on the side of the lens bracket facing the wall.
2. 根据权利要求1所述的镜头模组，其特征在于，所述对焦线圈绕线的厚度方向和所述防抖线圈绕线的厚度方向均平行于所述第一方向。The lens module of claim 1, wherein the thickness direction of the focus coil winding and the thickness direction of the anti-shake coil winding are both parallel to the first direction.
3. 根据权利要求2所述的镜头模组，其特征在于，在所述第一方向上，所述对焦线圈的厚度大于所述防抖线圈的厚度。3. The lens module of claim 2, wherein in the first direction, the thickness of the focus coil is greater than the thickness of the anti-shake coil.
4. 根据权利要求2所述的镜头模组，其特征在于，所述防抖磁钢包括沿所述第二方向依次设置的第一防抖磁钢和第二防抖磁钢，所述第一防抖磁钢和所述第二防抖磁钢沿所述第一方向充磁且极性相反。The lens module according to claim 2, wherein the anti-shake magnet comprises a first anti-shake magnet and a second anti-shake magnet arranged in sequence along the second direction, and the first anti-shake magnet The vibration magnetic steel and the second anti-vibration magnetic steel are magnetized along the first direction and have opposite polarities.
5. 根据权利要求4所述的镜头模组，其特征在于，所述防抖磁钢还包括夹设于所述第一防抖磁钢和所述第二防抖磁钢之间的第三防抖磁钢，所述第三防抖磁钢沿所述第二方向充磁。The lens module according to claim 4, wherein the anti-shake magnet further comprises a third anti-shake magnet sandwiched between the first anti-shake magnet and the second anti-shake magnet. Magnet, the third anti-shake magnet is magnetized along the second direction.
6. 根据权利要求1-5中任一项所述的镜头模组，其特征在于，所述镜头的沿所述第二方向的相对两侧均设有沿所述光轴方向间隔设置的两个所述对焦磁钢及位于两个所述对焦磁钢之间的一个所述防抖磁钢。The lens module according to any one of claims 1 to 5, wherein two opposite sides of the lens along the second direction are provided with two spaced apart positions along the optical axis direction. The focusing magnet and one of the anti-shake magnets located between the two focusing magnets.
7. 根据权利要求6所述的镜头模组，其特征在于，所述镜头支架上设有将所述对焦磁钢和所述防抖磁钢隔离的隔板。The lens module according to claim 6, wherein the lens holder is provided with a partition that separates the focusing magnet and the anti-shake magnet.
8. 根据权利要求6所述的镜头模组，其特征在于，所述镜头模组还包括多个回复机构，所述回复机构包括异极相对且沿所述第一方向间隔设置的第一回复磁钢和第二回复磁钢，所述第一回复磁钢固定于所述镜头支架朝向所述第一基座的一侧，所述第二回复磁钢固定于所述第二基座朝向所述第一基座的一侧。The lens module according to claim 6, wherein the lens module further comprises a plurality of return mechanisms, and the return mechanism comprises first return magnets with opposite poles opposed to each other and arranged at intervals along the first direction And a second return magnet, the first return magnet is fixed on the side of the lens holder facing the first base, and the second return magnet is fixed on the second base facing the first base One side of a pedestal.
9. 根据权利要求8所述的镜头模组，其特征在于，所述镜头支架朝向所述第一基座的一侧形成有***述第一回复磁钢的第一收容槽，所述第二基座朝向所述第一基座的一侧形成有***述第二回复磁钢的第二收容槽。The lens module according to claim 8, wherein a first receiving groove for receiving the first return magnet is formed on the side of the lens holder facing the first base, and the second base A second accommodating groove for accommodating the second return magnet is formed on the side of the seat facing the first base.
10. 根据权利要求8所述的镜头模组，其特征在于，所述回复机构设有四个，且所述回复机构沿所述第一方向的投影与所述对焦磁钢部分重叠，所述对焦驱动件还包括夹设于所述对焦磁钢与所述镜头支架之间的导磁片。The lens module according to claim 8, wherein the recovery mechanism is provided with four, and the projection of the recovery mechanism along the first direction partially overlaps the focusing magnet, and the focus drive The component also includes a magnetic conductive sheet sandwiched between the focusing magnet and the lens holder.
11. 根据权利要求10所述的镜头模组，其特征在于，沿所述光轴方向上相邻两所述回复机构之间的间距等于沿所述第二方向上相邻两所述回复机构之间的间距。10. The lens module according to claim 10, wherein the distance between two adjacent restoration mechanisms along the optical axis is equal to that between two adjacent restoration mechanisms along the second direction. Pitch.
12. 根据权利要求1所述的镜头模组，其特征在于，所述镜头支架和所述第一基座之间设有三个第一滚珠，所述第一基座和所述第二基座之间设有三个第二滚珠，其中，两个所述第一滚珠沿所述光轴方向间隔设置并位于所述镜头沿所述第二方向的一侧，另一个所述第一滚珠位于所述镜头沿所述第二方向的另一侧；两个所述第二滚珠沿所述光轴方向间隔设置并位于所述镜头沿所述第二方向的一侧，另一个所述第二滚珠位于所述镜头沿所述第二方向的另一侧；其中，所述第一滚珠和所述第二滚珠中的其中一方可沿所述光轴方向滚动，另一方可沿所述第二方向滚动。The lens module according to claim 1, wherein three first balls are provided between the lens holder and the first base, and between the first base and the second base Three second balls are provided, wherein two of the first balls are arranged at intervals along the optical axis and are located on one side of the lens along the second direction, and the other of the first balls is located on the lens On the other side along the second direction; two second balls are arranged at intervals along the optical axis direction and located on one side of the lens along the second direction, and the other second ball is located on the side The other side of the lens along the second direction; wherein one of the first ball and the second ball can roll in the optical axis direction, and the other can roll in the second direction.
13. 根据权利要求12所述的镜头模组，其特征在于，单独设置的所述第一滚珠和单独设置的所述第二滚珠位于所述镜头沿所述第二方向的同一侧。The lens module according to claim 12, wherein the separately arranged first ball and the separately arranged second ball are located on the same side of the lens along the second direction.
14. 根据权利要求12或13所述的镜头模组，其特征在于，所述镜头支架朝向所述第一基座的一侧设有三个第一导向槽，所述第一基座的朝向所述镜头支架的一侧设有三个与所述第一导向槽一一对应设置的第二导向槽，所述第一导向槽与所述第二导向槽之间设有所述第一滚珠，所述第一基座朝向所述第二基座的一侧设有三个第三导向槽，所述第二基座朝向所述第一基座的一侧设有三个与所述第三导向槽一一对应设置的第四导向槽，所述第三导向槽与所述第四导向槽之间设有所述第二滚珠。The lens module according to claim 12 or 13, wherein the side of the lens holder facing the first base is provided with three first guide grooves, and the first base faces the lens One side of the bracket is provided with three second guide grooves arranged one-to-one corresponding to the first guide groove, the first ball is arranged between the first guide groove and the second guide groove, and the first One base is provided with three third guide grooves on the side facing the second base, and the second base is provided with three third guide grooves one-to-one corresponding to the first base. A fourth guide groove is provided, and the second ball is provided between the third guide groove and the fourth guide groove.
15. 根据权利要求14所述的镜头模组，其特征在于，其中一个所述第一导向槽或其中一个所述第二导向槽垂直于所述第一滚珠滚动方向的横截面的轮廓为矩形，其余所述第一导向槽和所述第二导向槽垂直于所述第一滚珠滚动方向的横截面的轮廓为梯形或者三角形；其中一个所述第三导向槽或其中一个所述第四导向槽垂直于所述第二滚珠滚动方向的横截面的轮廓为矩形，其余所述第三导向槽和所述第四导向槽垂直于所述第二滚珠滚动方向的横截面的轮廓为梯形或者三角形。The lens module according to claim 14, wherein the contour of a cross section of one of the first guide grooves or one of the second guide grooves perpendicular to the rolling direction of the first ball is rectangular, and the other The profile of the cross section of the first guide groove and the second guide groove perpendicular to the rolling direction of the first ball is trapezoidal or triangular; one of the third guide grooves or one of the fourth guide grooves is perpendicular The profile of the cross section in the rolling direction of the second ball is rectangular, and the profile of the cross section of the remaining third and fourth guide grooves perpendicular to the rolling direction of the second ball is trapezoidal or triangular.