TWM322005U - A locating structure of lens module - Google Patents

Description

M322005 VIII. New description: [New technical field] It is especially about an avoidable positioning structure. The present invention relates to a lens module structure, and the lens module is damaged when the lens module is not in focus. [Prior Art] In the conventional lens module structure, a voice coil motor is often used as a lens focusing operation mode. In the first figure, in order to explain the improvement of the prior art, only the conventional voice coil motor mirror mold, the main knot of the group ι〇, including the base 11, a first elasticity, is illustrated. The conductive element 12, a second conductive conductive element 13, a lens holder 14, and a third elastic element 15. The mirror stand 14 includes a bottom 141, a top cymbal 2, and an internal thread 143. The first elastic conductive member 12 includes a first inner arc portion 121, a first rib joint 122, and a first outer arc portion 123. ^ Le-elastic conductive element 1 3 pack 3 - second inner arc portion 131, a second rib portion 1P ^ ^ ^ . cut 132, and a second outer arc rib joint 5 include - third inner round portion 151, - The first rib 152 and the third outer circle 153. Wherein the 12th member and the second elastic conductive member, the inner arc portion 121 and the _# white sigh are placed in the base 14, and the first and first inner arc portions 13 1 are seated at the bottom portion 141. The third elastic element b 7 is adhered to the lens to be glued to the top of the lens holder 14 = inner circle - the same as the 4th figure is a conventional lens module showing 'there is a lock to the pair 2 wide" The father is not intending. As shown in Fig., there are 21, - lens 22, a positioning rule 6 M322005 2 3 and a conventional assembled voice coil motor lens module 1 〇. The lens 22 has a corresponding internal thread of the lens holder 4 The external thread of the 丨 43. ' During the focus correction process, the positioning jig 23 is inserted into the conventional voice coil motor, the lens module 10, so that the third elastic member 15 is kept positioned. Then, the focus adjustment jig 21 will be used by the lock. The lens 2 2 is screwed into the lens mount 4. Since the lens mount 14 is adhered to the first inner arc portion 121, the second inner arc portion 131, and the third inner round portion 151', if the adhesive force is too large, It is easy to cause the lens to be deformed during the screwing process, and the first rib joint 122 and the second rib joint 132 having less deformed parts are easily twisted. On the contrary, if the force is too small, the lens is easily caused. 22 is separated from the first inner arc portion 121 and the second inner arc portion 131 during the screwing process Or the third inner circle portion 151. In view of this, the present invention provides a new lens module positioning structure, which can prevent the elastic conductive element and the elastic element from being damaged or disconnected from the lens holder when the lens is screwed to the lens holder. In this way, the assembly yield of the lens module can be improved. [New content] A new type of lens module positioning knot 'damage or disengagement from the lens holder' to enhance the lens module group The main purpose of the case is to propose a structure 'After a preferred embodiment of the present invention, a lens module positioning structure is proposed, which comprises a base and a a first elastic conductive member, a second elastic conductive member, and a lens holder, wherein the base is formed with first and second conductive sheet slots, and the first and second positioning grooves; the first elastic conductive member is formed with the first The inner arc portion, the first outer arc portion and the first conductive sheet, and the first conductive sheet is disposed in the first conductive sheet slot; the second elastic conductive member is formed with the second inner portion a second outer arc portion and a second conductive piece, wherein the second conductive piece is disposed in the second conductive piece slot; the lens holder is used for mounting the lens, and the lens seat is formed with the first and second positioning protrusions The first and second positioning protrusions are respectively disposed in the first and second positioning slots, and the bottom of the lens holder is coupled to the first and second inner arcs. [Embodiment] Please refer to the third figure to In a ninth embodiment, a preferred embodiment includes: a bottom cymbal 31, a first elastic conductive member 32, a second elastic conductive member 33, a lens holder 35, a metal cylinder 38, and a third elastic member. And a top cover 40. The base 31 is formed with a first conductive strip slot 311 and a second conductive strip slot 312 on the third side, and a first positioning slot 3 1 on the side of the side of the y (3) h 2 3. The second positioning birch on the second side is 3 3 3 4 , and the four corners respectively have symmetrical joints 3 15 . The first elastic cloth cover 玍 玍 conductive 70 member 32 includes a first inner arc portion 321 , a first rib joint portion 322 , a Chu-to-outer arc portion 323 , a first conductive sheet 324 , and two first The bottom is fixed to the Bugu pupil 325. The second elasticity: the electrical component 33 and the first elastic conductive component 32 are mutually mirror-symmetrical structures. The second elastic portion 33 i includes a second inner arc portion 33 i, a second inner rib portion 332, and an eighth M322005 outer arc. 333, a second conductive #334, and two: lower fixing holes 335. The lens holder 35 is a circularly symmetrical structure, comprising a bottom, a top 4 352, a first positioning protrusion 35 3 , a second positioning protrusion π, an internal thread 35 5 , and four uppers. The fixing protrusion 3 56, the four lower fixing protrusions 357, and a metal coil 358. Irk > ^ where the 'first positioning projection 353 and the second positioning dog outlet 3 54 are respectively located at the opposite faces. The metal cylinder 38 is formed with a penetrating focus shifting hole 381' and contains a plurality of permanent magnets therein to provide a - magnetic field. The third elastic member 39 includes a third inner circular portion 391, a third rib joint portion 392, a third outer circular turn 393, and four upper fixing holes 394. The upper cover 40 has a square shape, and the four corners of the center of the upper cover hole 401' have a symmetrical joint portion 4''. The first conductive sheet 324 and the second conductive sheet 334 are respectively inserted into the first conductive sheet slot 3 11 and the second conductive sheet slot 3 i 2 such that the first elastic conductive π member 32 and the second elastic conductive member 33 Set on the base 3 1. The four lower fixing protrusions 357 of the lens holder 32 are respectively connected to the two first lower fixing holes 325 and the two second lower fixing holes 355. 「 "mouth holes 335, while the bottom portion 351 is adhered to the first inner arc portion 3 21 and the second inner fox part m ^ 邛 331 ' and the first cusp protrusion 353 and the second locating protrusion 3 5 4 are respectively 私 私 私 私 , , , , , , , , , , , 私 私 私313 and the second positioning groove 314. The first elastic conductive member of the first rib joint portion 322 of the electric shield 7010 is connected between the first inner arc portion 321 and the first outer arc portion 323, and The connecting portion 322 has a plurality of shapes % ^ #, ~ 芡邛仵 can be used for the deformation elastic force, so the first elastic conductive member Μ has an elastic force. The same applies to the f-knive, the second elastic conductive member and the third elastic member 3 9 also has elastic force. 9 M322005 After electric: electric: force ring: 58 series is set on the outer wall of lens holder 35, used to provide several permanent magnets in the lens mount 35 phase, ://38 h performing a vertical movement on the first... The metal cylinder 38 is placed over the metal 2 Μ 3 and the second outer fox 333, and the lens mount 35 is in contact with the pair 38 The focal displacement hole 381 is not in contact with the metal cylinder 38. The mirror base 35 has four upper fixing protrusions 356 respectively corresponding to the four upper fixing holes 394 of the first elastic element 39 to make the lens holder 3 people 5 are connected to the third elastic element". The engaging portions 4〇2 of the upper cover 40 are respectively engaged with the corresponding engaging claws 315 of the base 31, and overlapped over the third outer circular portions 393 of the third elastic members 39. V is the base of her example 3 1. The first elastic conductive element 3 2. The second elastic [the raw conductive element 33, the lens holder 35, and the third elastic element 39 are assembled, and the first part of the lens holder 35 is 351 A positioning protrusion 353 and a second positioning/large output 4 354 are respectively inserted into the first positioning groove 313 and the second positioning groove 314, so that the lens holder 35 is screwed into the internal thread 355 of the lens holder 35. The further torsion force is transmitted to the first positioning groove 313 and the second positioning groove 3 1 4 of the base 31 via the first positioning protrusion 353 and the second positioning protrusion 3 5 4, by ^ ^ The 舞 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' In addition, the four upper fixing protrusions 356 formed by the top portion 352 are respectively engaged with the corresponding four upper fixing holes 394 on the second bullet-type slab-changing member 39, without having to be the top 3 5 2 m The third inner portion 10 of the third elastic member 39 is glued to the third inner portion 10 M322005. The eighth figure is a schematic diagram of the remaining components of the upper cover. The ninth figure is a schematic diagram of the combination of the upper cover and the remaining components in the present case. [Main component symbol description] Voice coil motor lens module 1 〇 base 11, 31 * First elastic conductive element 12, 32 'Second elastic conductive element 1 3, 3 3 ♦ Lens mount 1 4, 3 5 Third elastic element 1 5, 3 9 Focusing tool 2 1 Lens 22 Umbrella tube 38 Upper cover 40 First inner arc portion 1 2 1 , 3 2 1 First rib joint portion 122, 322 'First-outer arc portion 123, 323. Second inner Arc 1 3 1 , 3 3 1 Second rib 1 3 2, 3 3 2 Second outer arc 1 3 3, 3 3 3 Bottom 1 4 1 , 3 5 1 Top 142, 352 Internal thread 1 4 3 3 5 5 third inner round portion 151, 391 12 M322005 third rib joint portion 152, 392 third outer round portion 153, 393 first conductive sheet slot 3 1 1 second conductive sheet slot 3 1 2 first Positioning groove 3 1 3 Second positioning groove 3 1 4 " Bonding card tip 3 1 5 ^ First conductive piece 324 Lu first lower fixing hole 325 Second conductive piece 334 Second lower fixing hole 3 3 5 First positioning protrusion Part 3 5 3 Second positioning protrusion 354 Upper fixing protrusion 3 5 6 Lower fixing protrusion 357 Metal coil 3 5 8 • First-conducting end 361. Second conductive end 362 Focusing displacement hole 3 8 1 Upper fixing hole 394 Upper cover Hole 401 joint 402 13

Claims (1)

M322005 IX. Patent application scope: 1. A lens module positioning structure, comprising: a base, forming a first and second conductive sheet slot, and a first and second positioning groove; a first elastic conductive element, Forming a first inner arc portion, a first outer arc portion, and a first conductive sheet; wherein the first conductive sheet is disposed in the first conductive sheet slot; and a second elastic conductive member is formed a second inner arc portion, a second outer arc portion, and a second conductive sheet; wherein the second conductive sheet is disposed in the second conductive sheet slot; and a lens holder for mounting the lens, The lens holder is formed with a first and a second positioning protrusion, wherein the first and second positioning protrusions are respectively disposed in the first and second positioning slots, and the bottom of the lens holder is coupled to the first and the second Two inner arcs. 2. The lens module positioning structure according to claim 1, wherein the first and second conductive sheets are respectively inserted into the first and second conductive sheet slots. 3. The lens module positioning structure of claim 1, wherein the first and second positioning protrusions are respectively inserted into the first and second positioning grooves. 14 M322005 4·If the scope of the patent application is _ _ ^ . The lens module positioning structure described in the shell, the bottom shape of the lens holder is formed with a plurality of lower fixing protrusions, the first and second elasticity The conductive elements are respectively formed with a plurality of first and second lower fixing holes ′ such that the plurality of lower fixing protrusions are combined with the plurality of first and second lower fixing holes, and the bottom of the lens holder is adhered thereto First and second inner arcs. 5 · The lens module positioning structure described in the first part of the patent application scope, the lens module positioning structure further includes a second elastic element, forming a right ^ _ . I rf| Μ 啕 啕 啕a second inner circular portion, a third outer W Θ and a plurality of upper fixing holes; i Φi ^ m , wherein the plurality of upper fixing holes and the plurality of upper fixing protrusions formed by the mirror shell are combined with each other, The third elastic element is coupled to the lens mount. 6 - a lens module positioning structure, comprising: a base 'having a first and a plurality of channels - showing a conductive sheet slot, and a first and second positioning slots; a first elastic conductive element, Forming a first inner arc portion, a first rib joint portion, a first outer arc portion, a plurality of r-cavities, and a first conductive sheet; wherein the first rib joint portion is opposite to the The first inner arc portion and the first outer arc portion are configured such that the first elastic conductive element is elastic, and the first conductive sheet is inserted into the first conductive sheet slot - a second elastic conductive element, the structure symmetrically symmetrical with the first elastic guide mirror and formed with - a second inner arc portion:, a 'mesh mutually rib joint portion, 15 M322005 a second outer arc portion a plurality of second lower fixing holes and a second conductive sheet; wherein 'the second rib joint connects the second inner arc portion and the second outer arc portion to make the second elastic conductive member have an elastic force, a film system is inserted in the second conductive sheet slot; and a lens mount 'for mounting the lens, the The head seat ★ has a first and second positioning protrusions and a plurality of lower fixing protrusions, the first protrusion 1 is inserted into the stomach and the second positioning groove and the bottom of the two seats is adhered In the first and second inner arc portions, the plurality of lower fixed/large-mouth p-knives are connected to the plurality of first lower fixing holes and the plurality of second lower fixing holes. The lens module positioning structure of the sixth aspect of the invention, wherein the first rib joint has a plurality of deformation members to provide a deformation elastic force, and the two ends of the plurality of deformation members are respectively coupled to the M- The inner arc portion and the first outer arc portion are such that the first elastic conductive member has an elastic force. 8. The lens module positioning structure according to the application of the invention, wherein the rib joint has a plurality of deformation members to provide a deformation elastic force, and: two ends of the deformation member are respectively coupled to the second inner arc And the arc portion to facilitate the elastic force of the second elastic conductive element. 9 · For example, the application of the lens module in the scope of the application of the # 斤 斤 斤 , , , , , , # # # # # # # # # # # # # # # # # # # # # # # # # # # # # a joint, M322005 = second, a round portion and a plurality of upper fixing holes; wherein t, the plurality of upper holes are combined with a plurality of upper fixing protrusions formed by the four mirror bases, so that the first elastic element is coupled to the a lens holder, and the third rib joint connects the second inner circle portion and the third outer round portion. The lens module positioning structure according to claim 9 is characterized in that: the rib joint portion has a plurality of deformation members to provide a deformation elastic force, and four ends of the plurality of deformation members are respectively coupled to the third inner circle portion and > a third outer circle to provide the third elastic member with an elastic force. 11. The lens module positioning structure according to claim 6, wherein the lens mount is a circularly symmetrical structure, and the first and second positioning protrusions are respectively located at opposite faces. 1 2 · The lens module positioning structure according to the scope of claim 2, wherein the first positioning groove of the middle base is formed on one side of the first side of the base, and the two positioning grooves are formed in the opposite side The second side of one side. In the lens module positioning structure described in claim 2, the first and second conductive strip slots of the base are formed on the third side of the base. In the solid junction and the middle of it