CN215297784U - Lens assembly, assembling equipment thereof and electronic equipment - Google Patents
Lens assembly, assembling equipment thereof and electronic equipment Download PDFInfo
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- CN215297784U CN215297784U CN202120791972.2U CN202120791972U CN215297784U CN 215297784 U CN215297784 U CN 215297784U CN 202120791972 U CN202120791972 U CN 202120791972U CN 215297784 U CN215297784 U CN 215297784U
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- 238000000034 method Methods 0.000 description 17
- 230000003287 optical effect Effects 0.000 description 14
- 239000000853 adhesive Substances 0.000 description 12
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- 229920001187 thermosetting polymer Polymers 0.000 description 8
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- 238000013461 design Methods 0.000 description 5
- 238000010438 heat treatment Methods 0.000 description 5
- 230000000712 assembly Effects 0.000 description 3
- 238000000429 assembly Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 2
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- 239000011521 glass Substances 0.000 description 1
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- 238000001746 injection moulding Methods 0.000 description 1
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- 239000002184 metal Substances 0.000 description 1
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Abstract
The utility model relates to a lens subassembly and equipment, electronic equipment thereof. The lens assembly includes: the first lens comprises a light-transmitting part and a bearing part connected with the edge of the light-transmitting part; the lens barrel is used for mounting the first lens, the lens barrel is provided with a step part arranged around the axis of the lens barrel, the step part comprises a bearing wall and a side wall which are connected with each other, and when the first lens is mounted on the lens barrel, at least part of structure of the bearing part is positioned in a space enclosed by the side wall and the bearing wall; the filling piece fills a gap between the bearing part and the bearing wall so as to support the first lens; the step part is provided with at least two adjusting holes at intervals along the circumferential direction, the adjusting holes penetrate through the step part, and the adjusting holes are used for enabling the filling piece to enter a gap between the bearing part and the bearing wall. Above-mentioned lens subassembly, the equipment precision is high, can satisfy high imaging quality's requirement.
Description
Technical Field
The utility model relates to a camera lens equipment field especially relates to a camera lens subassembly and equipment, electronic equipment thereof.
Background
With the development of the imaging technology, the market has higher and higher requirements on the imaging quality of the camera lens, the camera lens generally comprises a plurality of lenses, in the assembly process of the camera lens, a plurality of lenses need to be assembled in a lens barrel, and the assembly precision between the plurality of lenses and the lens barrel greatly affects the imaging quality of the camera lens. However, in the current lens assembling process, when the aperture difference between two mutually abutted lenses is large, which results in a large step size of the portion between the two lenses which is not supported, the lens is easy to deform in the assembling process, which reduces the assembling precision between the lens and the lens barrel, and is difficult to meet the requirement of high imaging quality of the camera lens.
SUMMERY OF THE UTILITY MODEL
In view of the above, it is necessary to provide a lens assembly, an assembling apparatus thereof, and an electronic apparatus, in order to solve the problem of low assembling accuracy between a lens and a lens barrel.
A lens assembly, comprising:
the first lens comprises a light-transmitting part and a bearing part connected with the edge of the light-transmitting part;
the lens barrel is provided with a step part arranged around the axis of the lens barrel, the step part comprises a bearing wall and a side wall which are connected with each other, the first lens is arranged on the lens barrel, at least part of structure of the bearing part is positioned in a space enclosed by the side wall and the bearing wall, the bearing wall is opposite to the bearing part, and the side wall surrounds the periphery of the bearing part; and
a filler filling a gap between the bearing part and the bearing wall to support the first lens;
the step part is provided with at least two adjusting holes at intervals along the circumferential direction, the adjusting holes penetrate through the step part, and the adjusting holes are used for enabling the filling piece to enter a gap between the bearing part and the bearing wall.
Above-mentioned lens subassembly, filler are filled and are held the clearance between portion and the carrier wall, can play the supporting role to first lens, avoid leading to holding the condition of leaning on between portion and the carrier wall too big because of the big segment difference between first lens and the lens cone and machining error, and then leading to first lens not hard up or warp, have promoted the equipment precision of lens subassembly to satisfy the requirement of the high imaging quality of lens subassembly.
In one embodiment, the adjusting hole penetrates through the bearing wall; and/or
The adjusting hole penetrates through the side wall. The diversified arrangement makes the design of the lens barrel more selective.
In one embodiment, the adjusting hole penetrates through the bearing wall, and the axial direction of the adjusting hole is parallel to the axis of the lens assembly;
the adjusting hole penetrates through the side wall, and the axial direction of the adjusting hole is perpendicular to the axis of the lens assembly. The axial direction of the adjusting hole is parallel to or perpendicular to the axis of the lens assembly, so that the filler can enter the gap between the bearing part and the bearing wall.
In one embodiment, the adjusting holes are uniformly distributed along the circumferential direction of the stepped portion. The lens component is beneficial to the filling piece to uniformly support all parts of the first lens in the circumferential direction, the stability of the first lens is improved, and the assembling precision of the lens component is further ensured.
In one embodiment, the bearing part is approximately annular, and the bearing part extends axially along the edge of the light-transmitting part; and/or
The lens assembly further comprises a third lens, the third lens is contained in the lens barrel and is positioned on one side, away from the bearing wall, of the first lens, and the third lens is used for fixing the bearing part in the lens barrel. The diversified arrangement makes the design of the lens assembly more selective.
An electronic device comprises a housing and the lens assembly of any of the above embodiments, wherein the lens assembly is disposed on the housing. Adopt above-mentioned lens subassembly in electronic equipment, the equipment precision of lens subassembly is high, can satisfy the requirement of the high imaging quality of electronic equipment.
An assembly apparatus, comprising:
the limiting part comprises a bottom plate and a side plate, the side plate surrounds the edge of the bottom plate and surrounds the bottom plate to form an accommodating cavity, and at least two limiting holes which are spaced from each other are formed in the bottom plate or the side plate; and
the support pieces correspond to the limiting holes one to one, each support piece is radially fixed in one corresponding limiting hole, and the support pieces can move along the axial direction of the limiting holes.
Above-mentioned equipment, in the assembly process of above-mentioned lens subassembly, support piece can stretch into from the regulation hole and hold the portion of leaning on and bear the weight of the clearance between the wall to support first lens, prevent to hold and have the clearance between portion of leaning on and the weight of the wall, the condition that leads to first lens to receive deformation when assembling pressure is favorable to promoting the equipment precision of lens subassembly, in order to satisfy high imaging quality's requirement.
In one embodiment, the limiting holes penetrate through the bottom plate, and the limiting holes are arranged at intervals along the circumferential direction of the bottom plate; or
The limiting holes penetrate through the side plates, and the limiting holes are arranged at intervals along the circumferential direction of the bottom plate. The diversified setting of spacing hole can satisfy the different designs of camera lens subassembly.
In one embodiment, the position-limiting hole penetrates through the side plate, the support member includes a body portion and a cam portion, the body portion is fixed by the position-limiting hole in the radial direction, and the body portion can drive the cam portion to rotate so as to change the size or position of the cam portion in the direction perpendicular to the bearing wall. The cam part is arranged so that when the body part rotates relative to the side plate, the position or radial dimension of the cam part in the direction perpendicular to the bearing wall can be changed, and the cam part can be further matched with different distances between the bearing part and the bearing wall in the optical axis direction, so that the supporting effect of the cam part on the first lens is ensured.
In one embodiment, the outer peripheral surface of the supporting piece is in threaded fit with the inner wall surface of the limiting hole; or
The outer peripheral surface of the support member is engaged with the inner wall surface through a ball. The diversified matching mode of the supporting piece and the limiting hole enables the design of the assembling equipment to be more selected.
In one embodiment, the assembling device further includes a fixing component, the fixing component includes a fixing seat and a limiting jackscrew, the fixing seat is fixed on one side of the limiting part departing from the accommodating cavity, the fixing seat is provided with a jackscrew hole, the jackscrew hole is opposite to the limiting hole, the limiting jackscrew is at least partially located in the jackscrew hole, and the limiting jackscrew can move along the axial direction of the jackscrew hole to abut against the supporting part or drive the supporting part to move towards the direction away from the accommodating cavity. When the support supports the first lens, the fixing component can abut against the support so as to maintain the stability of the supporting action of the support on the first lens.
A method for assembling a lens assembly, which is used for assembling the lens assembly according to any one of the above embodiments, the method comprising the steps of:
providing the assembling device according to any one of the above embodiments, fixing the lens assembly in the accommodating cavity, and enabling the adjusting holes to be opposite to the limiting holes one to one;
enabling the support piece to enter a gap between the bearing wall and the bearing part from the adjusting hole, and adjusting the support piece so that the support piece supports the first lens;
applying an assembling pressure to one side of the first lens, which is far away from the bearing wall;
removing the support;
and providing a filling piece to fill the gap between the bearing part and the bearing wall.
According to the assembling method of the lens assembly, the first lens is supported by the supporting piece, so that the situation that the first lens deforms under assembling pressure when a gap exists between the bearing part and the bearing wall can be avoided; the gap between the bearing part and the bearing wall is filled by the filling piece, the filling piece can support the first lens after the assembly is finished, and the first lens is prevented from loosening or deforming due to the gap between the bearing part and the bearing wall. Therefore, the assembling method can improve the assembling precision of the lens assembly and meet the requirement of high imaging quality.
In one embodiment, the step of providing a filler to fill the gap between the bearing portion and the bearing wall includes:
providing thermosetting adhesive to fill a gap between the bearing part and the bearing wall;
and heating and curing to enable the thermosetting adhesive to form the filling piece. The thermosetting adhesive has fluidity before heating and curing, can effectively fill the gap between the bearing part and the bearing wall, and further provides a stable and effective supporting effect for the first lens after heating and curing.
Drawings
FIG. 1 is a cross-sectional schematic view of a lens assembly according to some embodiments of the present application;
FIG. 2 is a cross-sectional view of a lens assembly in accordance with other embodiments of the present application;
FIG. 3 is a schematic view of a distribution of conditioning apertures in some embodiments of the present application;
FIG. 4 is a schematic view of a distribution of conditioning apertures in other embodiments of the present application;
FIG. 5 is a schematic diagram of an electronic device according to some embodiments of the present application;
FIG. 6 is a schematic cross-sectional view of an assembly apparatus according to some embodiments of the present application;
FIG. 7 is a schematic cross-sectional view of an assembly apparatus according to further embodiments of the present application;
FIG. 8 is a schematic view of a support member and a retaining hole of some embodiments of the present disclosure;
FIG. 9 is a schematic view of a support member engaged with a retaining hole according to another embodiment of the present disclosure;
FIG. 10 is a schematic view of a support member engaged with a retaining hole according to still further embodiments of the present disclosure;
FIG. 11 is a schematic view of a method of assembling a lens assembly according to some embodiments of the present application;
FIG. 12 is a schematic structural view of a support member according to some embodiments of the present application;
FIG. 13 is a schematic view of another angle of the support member shown in FIG. 12;
FIG. 14 is a schematic structural view of a support member according to further embodiments of the present application;
FIG. 15 is a schematic view of another angle of the support member shown in FIG. 14.
Description of reference numerals:
100. a lens assembly; 150. An accommodating space; 314. A limiting hole;
110. a lens barrel; 160. An opening; 320. A support member;
111. a step portion; 170. Adhering glue; 321. A body portion;
112. a load-bearing wall; 180. A filling member; 322. A cam portion;
113. a side wall; 200. An electronic device; 330. Assembling a pressure head;
114. an adjustment hole; 210. A housing; 340. A fixing assembly;
120. a first lens; 300. Assembling equipment; 341. A fixed seat;
121. a light-transmitting portion; 310. A limiting member; 342. A jackscrew hole;
122. a bearing part; 311. A base plate; 343. And (5) limiting a jackscrew.
130. A second lens; 312. A side plate;
140. a third lens; 313. An accommodating cavity;
Detailed Description
In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.
Referring to fig. 1 and 2, fig. 1 shows a schematic cross-sectional view of a lens assembly 100 in some embodiments, and fig. 2 shows a schematic cross-sectional view of the lens assembly 100 in other embodiments. The lens assembly 100 includes a lens barrel 110, and a first lens 120, a second lens 130, and a third lens 140 mounted in the lens barrel 110. Lens barrel 110 may be a lens barrel or other fixed structure for holding a lens. The second lens 130, the first lens 120, and the third lens 140 are sequentially stacked in the accommodating space 150 formed by the lens barrel 110, and the lens barrel 110 has an opening 160 for the first lens 120, the second lens 130, and the third lens 140 to enter the accommodating space 150. The second lens 130 is disposed on a side of the first lens 120 away from the opening 160 and abuts against the lens barrel 110 and the first lens 120, and the third lens 140 is disposed on a side of the first lens 120 facing the opening 160.
It should be noted that the second lens 130 may be a lens group composed of a plurality of lenses, the third lens 140 may be a lens closest to the opening 160 in the lens assembly 100, the third lens 140 may directly abut against the first lens 120, and another lens may exist between the first lens 120 and the third lens 140, for example, in the embodiment shown in fig. 1, one lens is further disposed between the first lens 120 and the third lens 140. One side of the third lens 140 facing the opening 160 is connected to the lens barrel 110 by an adhesive 170, so as to fix the first lens 120 and the second lens 130 in the accommodating space 150.
The first lens 120 includes a light-transmitting portion 121 and a bearing portion 122 surrounding an edge of the light-transmitting portion 121, the light-transmitting portion 121 may be an optical effective diameter portion of the first lens 120, the bearing portion 122 may be a structure in which the edge of the first lens 120 bears against or is connected to other structures, and the light-transmitting portion 121 and the bearing portion 122 may be integrally formed through an injection molding process. The lens barrel 110 is generally formed with a step portion 111, the step portion 111 is disposed around an axis of the lens barrel 110 for the bearing portion 122 to bear, and the step portion 111 includes a bearing wall 112 and a side wall 113 connected to each other. When the first lens 120 is mounted on the lens barrel 110, at least a part of the structure of the support portion 122 is located in a space enclosed by the side wall 113 and the support wall 112, for example, the support wall 112 is opposite to the support portion 122, and the side wall 113 surrounds the periphery of the support portion 122.
It can be understood that, when there is an error in processing the lens assembly 100, a gap is easily generated between the bearing portion 122 and the bearing wall 112, and further the first lens 120 is loosened or deformed due to a change in pressure, temperature, humidity, etc., which affects the assembly precision of the lens assembly 100, and it is difficult to meet the requirement of the lens assembly 100 for high imaging quality because both sides of the second lens 130 are respectively abutted against the lens barrel 110 and the first lens 120.
In order to improve the assembly precision of the lens assembly 100, in some embodiments, the stepped portion 111 is opened with at least two adjusting holes 114 penetrating through the stepped portion 111, and the adjusting holes 114 are arranged at intervals along the circumferential direction of the stepped portion 111. The lens assembly 100 further includes a filler 180, and the filler 180 enters from the adjustment hole 114 and fills the gap between the bearing portion 122 and the bearing wall 112 to support the first lens 120. The supporting function of the filling member 180 can limit the moving space of the first lens 120 in the lens barrel 110, and prevent the first lens 120 from loosening or deforming due to the gap between the bearing portion 122 and the bearing wall 112, thereby improving the assembling accuracy of the lens assembly 100. Further, the filling member 180 may be adhered to the bearing wall 112 and the bearing portion 122, so that the combination between the filling member 180 and the lens barrel 110 and the first lens 120 is more stable. Of course, the filling member 180 may further fill the adjusting hole 114 to increase the adhesion area of the filling member 180 and the lens barrel 110, and improve the bonding strength of the filling member 180 and the lens barrel 110, so that the filling member 180 can provide a more stable supporting effect for the first lens 120.
The adjustment hole 114 is not limited to be provided, as long as the filler 180 can enter the gap between the support wall 112 and the bearing portion 122 from the adjustment hole 114. In some embodiments, the adjustment hole 114 extends through the carrier wall 112, and an axial direction of the adjustment hole 114 is parallel to an axis of the lens assembly 100. In other embodiments, the adjustment hole 114 extends through the sidewall 113, and an axial direction of the adjustment hole 114 is perpendicular to an axis of the lens assembly 100. It should be noted that, when the axes of the lenses in the lens assembly 100 form the optical axis of the optical system, the axis of the lens assembly 100 may be understood as the optical axis of the optical system formed by the lenses in the lens assembly 100. Specifically, in some embodiments, the bearing wall 112 is perpendicular to the optical axis and the side wall 113 is parallel to the optical axis. For example, in the embodiment shown in fig. 1, the adjustment aperture 114 extends through the carrier wall 112, and an axial direction of the adjustment aperture 114 may be perpendicular to the carrier wall 112, such that the filler member 180 can pass from the adjustment aperture 114 into the gap between the bearing portion 122 and the carrier wall 112 without obstruction. In the embodiment shown in fig. 2, the adjustment hole 114 extends through the sidewall 113, and the axial direction of the adjustment hole 114 may be perpendicular to the sidewall 113, so as to facilitate the filling member 180 to enter between the bearing portion 122 and the bearing wall 112. It is understood that when the adjustment aperture 114 extends through the side wall 113, the aperture of the adjustment aperture 114 may be larger than the shortest distance between the bearing portion 122 and the bearing wall 112 to facilitate the entry of the filling member 180 from the adjustment aperture 114. Of course, in other embodiments, the supporting wall 112 and the sidewall 113 may also be inclined to the optical axis.
Further, the number and distribution of the adjustment holes 114 are not limited, and as shown in fig. 3 and 4, in some embodiments, four adjustment holes 114 are provided, and the adjustment holes 114 are uniformly distributed along the circumferential direction of the step portion 111. For example, in the embodiment shown in fig. 3, the supporting wall 112 is substantially annular, the adjusting holes 114 penetrate through the supporting wall 112, and any two adjacent adjusting holes 114 are equidistant from each other in the circumferential direction of the supporting wall 112. In the embodiment shown in fig. 4, the adjustment holes 114 penetrate the side wall 113, and the distance between any two adjacent adjustment holes 114 in the circumferential direction of the step portion 111 is equal. The adjusting holes 114 are uniformly distributed along the circumferential direction of the step portion 111, so that the filling member 180 can enter between the bearing portion 122 and the bearing wall 112 from different positions along the adjusting holes 114, and support each part of the first lens 120 in the circumferential direction, thereby uniformly stressing the first lens 120, improving the stability of the first lens 120, and further improving the assembling precision of the lens assembly 100. Of course, the adjustment holes 114 may also be provided in three, five, six, etc.
As shown in fig. 1 and 5, the lens assembly 100 may be assembled with a housing 210 to form an electronic device 200, and the lens assembly 100 is mounted in the housing 210. Specifically, the electronic device 200 includes, but is not limited to: cameras, smart phones, tablet computers, vehicle recorders, electronic readers, and the like are equipped with lenses. By adopting the lens assembly 100 in the electronic device 200, the assembly precision of the lens assembly 100 is high, and the requirement of the electronic device 200 on high imaging quality can be met.
Referring to fig. 6 and 7, fig. 6 shows a schematic view of an assembly apparatus 300 in some embodiments, and fig. 7 shows a schematic view of an assembly apparatus 300 in other embodiments. The assembling apparatus 300 can be used for assembling the lens assembly 100 according to any of the above embodiments, and a method for assembling the lens assembly 100 by using the assembling apparatus 300 will be described in detail later.
In some embodiments, the assembling apparatus 300 includes a stopper 310 and at least two supports 320. The limiting member 310 is used for fixing the lens assembly 100, and specifically, the limiting member 310 includes a bottom plate 311 and a side plate 312, and the side plate 312 surrounds an edge of the bottom plate 311 and encloses with the bottom plate 311 to form an accommodating cavity 313 for accommodating the lens assembly 100. At least two spacing holes 314 are formed in the bottom plate 311 or the side plate 312, the spacing holes 314 correspond to the adjusting holes 114 one by one, and each spacing hole 314 is opposite to a corresponding adjusting hole 114 during assembly. The material of the supporting member 320 includes, but is not limited to, metal, plastic, glass, etc. The supporting members 320 correspond to the limiting holes 314 one by one, the radial direction of each supporting member 320 is fixed in a corresponding limiting hole 314, and the supporting members 320 can move toward or away from the lens assembly 100 along the axial direction of the limiting holes 314.
In the assembly apparatus 300, in the assembly process of the lens assembly 100, the supporting member 320 can extend into the gap between the bearing portion 122 and the bearing wall 112 from the adjusting hole 114, and support the first lens 120, so that the bearing portion 122 and the bearing wall 112 are fixed in position and are not easy to loosen, the situation that the bearing portion 122 deforms relative to the light-transmitting portion 121 when the first lens 120 is subjected to the assembly pressure due to the gap between the bearing portion 122 and the bearing wall 112 is effectively prevented, which is beneficial to improving the assembly precision of the lens assembly 100, and thus the requirement of high imaging quality is met.
It is understood that when the lens assembly 100 is fixed in the receiving cavity 313 and the opening 160 of the lens barrel 110 faces away from the bottom plate 311, the position-limiting hole 314 may be configured differently according to different designs of the adjusting hole 114 of the lens assembly 100. For example, in the embodiment shown in fig. 6, the adjusting holes 114 penetrate through the bearing wall 112, the limiting holes 314 penetrate through the bottom plate 311, and the limiting holes 314 are arranged at intervals along the axial direction of the bottom plate 311. Further, in some embodiments, the axial direction of the limiting hole 314 is perpendicular to the bottom plate 311, and the limiting hole 314 is coaxially disposed with the adjusting hole 114, so as to facilitate the support member 320 to enter the adjusting hole 114. In the embodiment shown in fig. 7, the adjusting holes 114 penetrate through the side wall 113, the limiting holes 314 penetrate through the side plate 312, and the limiting holes 314 are arranged at intervals along the axial direction of the bottom plate 311. Of course, the axial direction of the limiting hole 314 may be perpendicular to the side plate 312 and coaxial with the adjusting hole 114.
Further, referring to fig. 8, 9 and 10 together, the matching manner of the supporting member 320 and the limiting hole 314 is not limited as long as the supporting member 320 can move toward or away from the lens assembly 100 along the axial direction of the limiting hole 314, and specifically, the matching manner of the supporting member 320 and the limiting hole 314 includes but is not limited to: thread fit, screw fit, ball sleeve fit, ball screw fit, and the like. For example, in the embodiment shown in fig. 8, the supporting member 320 is in threaded fit with the position-limiting hole 314, and the outer peripheral surface of the supporting member 320 is in threaded fit with the inner wall surface of the position-limiting hole 314, so that the supporting member 320 may be a screw rod or a lead screw, the position-limiting hole 314 may be a threaded hole, and when the supporting member 320 rotates relative to the position-limiting member 310, the supporting member 320 can move along the axial direction of the position-limiting hole 314. In the embodiment shown in fig. 9, the supporting member 320 is engaged with the limiting hole 314 by a ball sleeve, and the limiting member 310 further includes a ball sleeve, the ball sleeve is embedded in the bottom plate 311 or the side plate 312 to form the limiting hole 314, in other words, the inner wall surface of the limiting hole 314 is provided with balls, and the outer peripheral surface of the supporting member 320 is engaged with the balls of the ball sleeve. In the embodiment shown in fig. 10, the supporting member 320 is engaged with the limiting hole 314 by using a ball screw, the supporting member 320 is provided with a screw thread on its outer circumferential surface, the ball is provided on the inner wall surface of the limiting hole 314, and the screw thread of the supporting member 320 is engaged with the ball on the inner wall surface.
Referring to fig. 6 and 11, fig. 11 illustrates an assembly method of the lens assembly 100 in some embodiments, and the assembly apparatus 300 according to any one of the above embodiments is used to assemble the lens assembly 100 according to any one of the above embodiments, where the assembly method includes the following steps:
s110, with reference to fig. 6 and 7, an assembling apparatus 300 is provided, the lens assembly 100 is fixed in the accommodating cavity 313, and the adjusting holes 114 are opposite to the limiting holes 314. Specifically, when the lens assembly 100 is fixed in the receiving cavity 313, the side plate 312 surrounds the outer circumference of the lens barrel 110 and abuts against the lens barrel 110, and the bottom plate 311 also abuts against the lens barrel 110, so as to stably fix the lens assembly 100. And when the adjusting holes 114 are opposite to the limiting holes 314, the supporting member 320, the adjusting holes 114 and the limiting holes 314 are coaxially arranged.
And S120, moving the support member 320 in a direction approaching the lens assembly 100 along the axial direction of the limiting hole 314, and allowing the support member 320 to enter the gap between the bearing wall 112 and the bearing portion 122 from the adjusting hole 114, and adjusting the size of the portion of the support member 320 between the bearing wall 112 and the bearing portion 122, so that the support member 320 supports the first lens 120.
It can be understood that, when the supporting member 320 enters between the supporting wall 112 and the bearing portion 122, both the supporting member 320 can support the first lens 120 and the supporting member 320 is ensured that the size of the portion between the supporting wall 112 and the bearing portion 122 cannot be larger than the distance between the supporting wall 112 and the bearing portion 122, so as to prevent the supporting member 320 from ejecting the first lens 120 to change the assembly position of the lens assembly. Specifically, in the embodiment shown in fig. 6, the supporting member 320 protrudes from the bearing wall 112, and the length of the portion of the supporting member 320 between the bearing wall 112 and the bearing portion 122 can be adjusted by only moving the supporting member 320 along the axial direction of the limiting hole 314, so as to better support the first lens 120. In the embodiment shown in fig. 7, the supporting member 320 enters between the bearing portion 122 and the bearing wall 112 from a direction perpendicular to the side wall 113, and if the supporting member 320 is cylindrical, it is difficult to adjust the radial dimension of the portion of the supporting member 320 located on the bearing wall 112, and it is difficult to adapt different distances between the bearing portion 122 and the bearing wall 112, so as to easily influence the assembling position of the first lens 120.
In order to enable the supporting member 320 to be adapted to different distances between the bearing portion 122 and the bearing wall 112, referring to fig. 7, 12 and 13 together, in some embodiments, the supporting member 320 includes a body portion 321 and a cam portion 322, the body portion 321 is radially fixed to the limiting member 310, the cam portion 322 is fixed to an end surface of the body portion 321 facing one end of the lens assembly 100, and the radial dimension of the cam portion 322 is different in different directions parallel to the end surface. Thereby, when the body portion 321 is rotated relative to the side plate 312, the radial dimension of the cam portion 322 in the direction perpendicular to the bearing wall 112 can be changed. When the distance between the bearing portion 122 and the bearing wall 112 is different, by rotating the body portion 321, the radial dimension of the cam portion 322 in the optical axis direction is made the same as the distance between the bearing portion 122 and the bearing wall 112, so that the cam portion 322 can support the first lens 120 without affecting the assembly position of the first lens 120.
Referring also to fig. 7, 14 and 15, in other embodiments, the cam portion 322 has a generally circular cross-sectional shape, and the geometric center of the cam portion 322 is offset from the axis of the body portion 321. Accordingly, when the body 321 is rotated relative to the side plate 312, the position of the cam portion 322 in the optical axis direction can be changed, and the cam portion 322 can be made to fit different distances between the bearing portion 122 and the bearing wall 112 in the optical axis direction, so that the first lens 120 can be supported without affecting the supporting function of the first lens 120. Of course, the cam portion 322 may have other shapes and arrangements as long as the position or radial dimension of the cam portion 322 in the optical axis direction can be changed to fit different distances between the bearing portion 122 and the bearing wall 112 in the optical axis direction.
S130, applying an assembling pressure to a side of the first lens 120 away from the carrying wall 112.
Specifically, referring to fig. 6, the assembling apparatus 300 further includes an assembling pressure head 330, and the assembling pressure head 330 applies pressure to an edge of the third lens 140 on a side of the third lens 140 facing away from the first lens 120 to make assembling of the lenses in the lens assembly 100 more compact. It can be understood that, the support member 320 supports the bearing portion 122 of the first lens 120, in step S130, the bearing portion 122 of the first lens 120 is not easily deformed relative to the light-transmitting portion 121 due to the gap between the bearing wall 112 and the bearing portion 122, in other words, the bearing portion 122 is not easily bent toward the bearing wall 112 relative to the light-transmitting portion 121 under the action of the assembling pressure, and the assembling accuracy of the lens assembly 100 can be improved.
Further, referring to fig. 6, in some embodiments, the assembling apparatus 300 further includes a fixing element 340, the fixing element 340 includes a fixing base 341 and a limiting screw 343, the fixing base 341 is fixed to a side of the limiting member 310 away from the receiving cavity 313, for example, the lens barrel 110 is fixed to the limiting member 310 by a screw. The fixing base 341 is provided with a screw hole 342, and the screw hole 342 is opposite to the limiting hole 314. The limiting jackscrew 343 is at least partially located in the jackscrew hole 342, and the limiting jackscrew 343 can move in the axial direction of the jackscrew hole 342, for example, the limiting jackscrew 343 is in threaded connection with the jackscrew hole 342.
Then after step S120, the assembly method further includes causing the limit screw 343 to move in the axial direction of the screw hole 342 and abut against the supporter 320. Thus, when the assembly pressure is applied to the third lens 140 by the assembly pressure head 330 in step S130, the support member 320 is not deviated by the action of the assembly pressure, and the assembly accuracy of the lens assembly 100 can be improved. It is understood that in the embodiment of fig. 6, only one of the fixing assemblies 340 is shown, and in practice, at least two fixing assemblies 340 may be provided, the fixing assemblies 340 corresponding to the supports 320 one by one, each fixing assembly 340 being used to support a corresponding one of the supports 320 in step S130.
Of course, in other embodiments, the end of the limiting jackscrew 343 may be fixed to the supporting member 320 by magnetic attraction or gluing. When the limiting jackscrew 343 moves in a direction away from the lens barrel 110, the supporting member 320 can be driven to move in a direction away from the lens barrel 110, so as to adjust the size of the portion of the supporting member 320 located in the lens barrel 110 or to separate the supporting member 320 from the lens barrel 110.
S140, removing the support member 320. The supporting member 320 may be moved in a direction away from the lens assembly 100 along the axial direction of the stopper 310 to separate the supporting member 320 from the lens assembly 100, or the lens assembly 100 may be separated from the stopper 310 after the supporting member 320 is separated from the lens assembly 100, as long as the subsequent steps are not affected.
And S150, providing a filling piece 180 to fill the gap between the bearing part 122 and the bearing wall 112.
Specifically, the filling member 180 may be formed by thermosetting adhesive after being heated and cured, and the step S150 may include:
injecting thermosetting adhesive between the bearing portion 122 and the bearing wall 112 from the adjusting hole 114 until the thermosetting adhesive fills the gap between the bearing portion 122 and the bearing wall 112;
the thermosetting adhesive is heated and cured to form the filling member 180.
The filling member 180 is formed by thermosetting adhesive, has fluidity before heating and curing, can effectively fill the gap between the bearing portion 122 and the bearing wall 112, has sufficient structural strength after heating and curing, and can provide stable and effective supporting function for the first lens 120 after the assembly is completed, so as to prevent the first lens 120 from loosening or deforming. Of course, in other embodiments, the filling member 180 may also be formed by curing an ultraviolet light curing adhesive, and after the ultraviolet light curing adhesive fills the gap between the bearing portion 122 and the bearing wall 112, the ultraviolet light curing adhesive needs to be irradiated by the adjusting hole 114 through ultraviolet light to be cured to form the filling member 180.
In addition, the assembly method may further include:
dispensing is performed between the edge of the third lens 140 on the side away from the first lens 120 and the lens barrel 110, so that the third lens 140 is fixed with the lens barrel 110, and the first lens 120 is further fixed in the accommodating space 150.
It is understood that in the embodiment shown in fig. 6, only a schematic diagram of the supporting member 320 supporting one of the lenses during assembly is shown, and in other embodiments, the lens barrel 110 may have another step structure, and other lenses in the lens assembly 100 are opposite to and spaced from the step structure. For example, the edge of the third lens 140 is opposite to and spaced apart from one step structure of the lens barrel 110, the step structure opposite to the edge of the third lens 140 may also be provided with the adjusting hole 114, and the assembling apparatus 300 is provided with a greater number of supporting members 320 to support the edge of the third lens 140 during the assembling process. Of course, the assembling apparatus 300 can also support three, four or more lenses of the lens assembly 100 during the assembling process, and the number of the adjusting holes 114 and the number of the supporting members 320 can be specifically set according to the number of the lenses, which is not described herein again.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (11)
1. A lens assembly, comprising:
the first lens comprises a light-transmitting part and a bearing part connected with the edge of the light-transmitting part;
the lens barrel is provided with a step part arranged around the axis of the lens barrel, the step part comprises a bearing wall and a side wall which are connected with each other, the first lens is arranged on the lens barrel, at least part of structure of the bearing part is positioned in a space enclosed by the side wall and the bearing wall, the bearing wall is opposite to the bearing part, and the side wall surrounds the periphery of the bearing part; and
a filler filling a gap between the bearing part and the bearing wall to support the first lens;
the step part is provided with at least two adjusting holes at intervals along the circumferential direction, the adjusting holes penetrate through the step part, and the adjusting holes are used for enabling the filling piece to enter a gap between the bearing part and the bearing wall.
2. The lens assembly of claim 1, wherein the adjustment aperture extends through the carrier wall; and/or
The adjusting hole penetrates through the side wall.
3. The lens assembly of claim 1, wherein the adjustment hole extends through the bearing wall, an axial direction of the adjustment hole being parallel to an axis of the lens assembly; or,
the adjusting hole penetrates through the side wall, and the axial direction of the adjusting hole is perpendicular to the axis of the lens assembly.
4. The lens assembly of claim 1, wherein the adjustment holes are evenly distributed along a circumferential direction of the stepped portion.
5. The lens assembly of any of claims 1-4, wherein the bearing portion is substantially annular and extends axially outward along an edge of the light-transmissive portion; and/or
The lens assembly further comprises a third lens, the third lens is contained in the lens barrel and is positioned on one side, away from the bearing wall, of the first lens, and the third lens is used for fixing the bearing part in the lens barrel.
6. An electronic device comprising a housing and the lens assembly of any of claims 1-5, the lens assembly disposed on the housing.
7. An assembling apparatus for assembling the lens assembly as claimed in any one of claims 1 to 5, comprising:
the limiting piece comprises a bottom plate and a side plate, the side plate surrounds the edge of the bottom plate and surrounds the bottom plate to form an accommodating cavity for accommodating the lens assembly, and at least two limiting holes which are spaced from each other are formed in the bottom plate or the side plate; and
at least two support pieces, support piece with spacing hole one-to-one, every support piece radially be fixed in one that corresponds spacing hole, just support piece can be followed the axial displacement in spacing hole, support piece is used for stretching into when the equipment lens subassembly the regulation hole supports first lens.
8. The assembly equipment according to claim 7, wherein the limiting holes penetrate through the bottom plate, and are arranged at intervals along the circumferential direction of the bottom plate; or
The limiting holes penetrate through the side plates, and the limiting holes are arranged at intervals along the circumferential direction of the bottom plate.
9. The assembly apparatus according to claim 8, wherein the stopper hole penetrates the side plate, and the support member includes a body portion fixed by the stopper hole in a radial direction and a cam portion that is rotated by the body portion to change a dimension or a position of the cam portion in a direction perpendicular to the bearing wall.
10. The assembling apparatus according to claim 7, wherein an outer peripheral surface of the support member is screw-fitted to an inner wall surface of the stopper hole; or
The outer peripheral surface of the support member is engaged with the inner wall surface through a ball.
11. The assembling device according to claim 7, further comprising a fixing component, wherein the fixing component includes a fixing seat and a limiting jackscrew, the fixing seat is fixed to a side of the limiting member away from the accommodating cavity, the fixing seat is provided with a jackscrew hole, the jackscrew hole is opposite to the limiting hole, the limiting jackscrew is at least partially located in the jackscrew hole, and the limiting jackscrew can move along an axial direction of the jackscrew hole to abut against the supporting member or drive the supporting member to move in a direction away from the accommodating cavity.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114928686A (en) * | 2022-04-18 | 2022-08-19 | 荣耀终端有限公司 | Camera assembly, camera assembly packaging method and electronic equipment |
CN115220167A (en) * | 2021-04-19 | 2022-10-21 | 江西晶超光学有限公司 | Lens assembly, assembling method and assembling equipment thereof, and electronic equipment |
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2021
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115220167A (en) * | 2021-04-19 | 2022-10-21 | 江西晶超光学有限公司 | Lens assembly, assembling method and assembling equipment thereof, and electronic equipment |
CN114928686A (en) * | 2022-04-18 | 2022-08-19 | 荣耀终端有限公司 | Camera assembly, camera assembly packaging method and electronic equipment |
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