TWM302705U - Camera lens module and embedded lenses - Google Patents

Description

M302705 I. New description [New technical field] Each type of lens, group, and especially type is used as a module. , " σ chimeric lens group and lens using the lens group [Prior Art] Using mirrors such as cameras, cameras, telescopes, etc. is often a good focus. The lens group is composed of a plurality of lenses, and since the current lens group, such as a lens group used in a mobile phone lens, is often very small in size, its focusing function is relatively sensitive, that is, a slight relative displacement between the lenses. It will have a very big impact. Therefore, how to make the lens set more efficient in installation or how to make the tolerance of the lens group shift more,], etc. - has been the subject of the phase. Traditionally, there are several types of lens assembly, in which a small number of pieces are assembled using a 4-plus method, that is, a preset position within the barrel. However, since each lens and the lens barrel are placed in the mirror tolerance, the tolerance generated by the integral lens group is accumulated by the eccentricity tolerance. However, when such a superimposed lens is used to adjust the eccentric position of the lens group, it is necessary to re-adjust the position of each of the brothers when needed. In this way, the inconvenience of re-adjusting the school, and because of the various lenses, not only the group, but also the individual lenses must be considered one by one, and the individual tolerances between the individual and the cable are . M302705 Another way is to use a connecting ring as a medium to fit the two lenses to the two ends of the connecting ring. Under this design, if there are more than three lens groups, the number of connecting rings must be increased. Each additional connecting ring will add a tolerance to the connecting ring. Therefore, it is not the best design for a precision lens group. [New content] The main purpose of this creation is to provide a chimeric lens set that combines individual lenses using a fitting structure. Another primary objective of the present work is to eliminate the tolerances between the individual lenses of the lens set and the lens barrel and to reduce the tolerance accumulation of the stacked lens sets to provide a combined lens set after the overall tolerance reduction. To achieve the above objectives, the presently-assembled lens group includes a first lens, a second lens, and a third lens. Preferably, the mating lens set further comprises a fourth lens, a first spacer ring and a second spacer ring. The first spacer ring is located between the first lens and the second lens, and the second spacer ring is located between the second lens and the third lens. According to the fitting relationship between the lenses, the present invention provides at least the following three embodiments. In a first embodiment, the first lens includes a first portion to be engaged and a third portion, the second lens includes an upper end portion and a lower end portion, and the third lens includes a second fitting portion. The upper end of the second lens may be embedded in the first fitting portion, the lower end of the second lens may be embedded in the second fitting portion, and the fourth lens may be embedded in the third fitting portion. In a second embodiment, the first lens comprises a first mating portion. The second lens can be embedded in the first fitting portion, and the third lens can also be embedded in the first fitting portion. M302705 In a third embodiment, the first lens includes a first fitting portion and the second lens includes a second portion. The second lens may be inserted into the first engaging portion, and the third lens may be embedded in the second fitting portion. Furthermore, the chimeric lens set of the present invention can be applied to a lens module including a lens barrel. The lenses are combined into a mating lens group in advance, and the eccentricity between the lenses can be adjusted in advance, and then the rear-fit lens group is directly placed in the lens barrel, so that the lens module can be effectively assembled, thereby reducing The overall eccentricity tolerance. Due to the novel construction of this creation, it can provide industrial use, and it has improved efficiency. Therefore, it applies for a new type of patent according to law. [Embodiment] In order to better understand the technical content of the present creation, three preferred embodiments are described below. 1 to 3 relate to a first embodiment of the present creation. Please refer to FIG. 2 and FIG. 2 together. FIG. 1 is an exploded view of the first embodiment of the chimeric lens set of the present invention, and FIG. 2 is a perspective view of the first embodiment of the chimeric lens set of the present invention. The chimeric lens set 1 of the present invention comprises a first lens 10, a second lens 20 and a third lens 30. Preferably, the chimeric lens set 1 further includes a fourth lens 40, a first spacer ring 50 and a second spacer ring 60. In terms of the shape of each lens, for example, the first lens 1 〇, the second lens 20, the third lens 30, and the fourth lens 40 may be circular convex lenses or concave lenses. The first lens 1A may include a first fitting portion 11 and a third fitting portion 12, the second lens 20 includes an upper end portion 21 and a lower end portion 22, and the third lens 30 includes a second M302705 fitting portion 31. For example, the first fitting portion 11, the second fitting portion 31, and the second fitting portion 12 may all be concave and concave to facilitate other circular lenses (for example, the second lens 20 and the fourth lens 4). ) embedded. The mutual engagement relationship between the first lens 10, the second lens 20, the third lens 30, and the fourth lens 40 is as follows. The upper end portion 21 of the second lens 20 can be inserted into the first fitting portion 11, and the lower end portion 22 of the second lens 20 can be embedded in the second fitting portion 31, and the fourth lens 40 can be embedded in the third fitting portion 12. For example, it is suggested that the outer diameter of the upper end portion 21 of the second lens 20 may be slightly equal to or slightly smaller than the inner diameter of the fitting portion 11, so that the upper end portion 21 of the second lens 20 can enter the first coupling portion u. . The outer diameter of the lower end portion 22 of the second lens 2 can be slightly equal to: or smaller than the inner diameter of the second fitting portion 31, whereby the lower end portion of the second lens 2 can be fitted into the second fitting portion 31. The outer diameter of the fourth lens 4 can be slightly larger than the inner diameter of the third fitting portion 12, whereby the fourth lens 4 can be attracted to the third fitting portion 12. In addition, a first interval may be disposed between the first lens 10 and the second lens 2, and/or a second Hlki 6G° first-spacer may be disposed between the second lens 2G and the third lens. 5G can be used to control the second lens gap of the first lens, and can prevent the light from passing through the first lens and the second lens. Similarly, the second interval: "I can control!!? The gap between the two lenses 20 and the third lens 30, and the U-line penetrates from the edges of the second lens 20 and the third lens 30 to produce quality: ; = ^ two 'the first spacer ring 50 and the second spacer ring 60 of the material is also opaque black plastic or metal. Chart test 3 'This is a good lens group of the creation - the embodiment" A perspective view of the combination of the mirror and the 70. After the assembled lens set is assembled, the M302705 combined lens set 1 is directly placed in the reading tube 70, and the type 5 lens group 1 can be applied to the lens module including the mirror. 6 is a second embodiment of the present invention, and FIG. 5 is a second embodiment of the present invention. The fifth embodiment of the present invention is a perspective view of a second embodiment of the present invention. The split lens group 1& of the present invention includes a first lens iGa, a first chip, and a third lens 30a. Preferably, the mourning mirror #二 唆ΘΒ Gan entrance gossip group 1a further includes the fourth lens

40a, the second spacer ring 5 as well as the second spacer ring 6 〇 & The first lens 10a includes a first fitting portion 11a and a second fitting portion 12a. For example, the first plucking portion 11a and the second damming portion 12& can both be concave and concave. The mutual engagement relationship between the first lens 10a, the second lens 20a, the third lens 3A, and the fourth lens is as follows. The second lens and the third lens 30a may be sequentially embedded in the first fitting portion of the first lens 丨〇a " & the fourth lens 40a may be embedded in the second fitting portion 12a. For example, the second lens 2 〇 a and the second lens 30a may have an outer diameter slightly equal to or smaller than the inner diameter of the first dispersing portion 11 & 'the second lens 20a and the third lens 30a may be sequentially dispersed into the first portion 11a The outer diameter of the fourth lens 40a may be slightly equal to or smaller than the inner diameter of the second fitting portion 12a, whereby the fourth lens 4a may be embedded in the second fitting portion na. For example, in the present embodiment, a first spacer ring 50a may be disposed between the second lens 10a and the second lens 20a, and/or between the second lens 20a and the third lens 30a. A second spacer ring 60a is provided. The first spacer ring 50a can be used to control the gap between the first lens 10a and the second lens 20a, and can prevent light from penetrating from the edge of the first lens 10a and the second lens 20a. The resulting flooding phenomenon. The second spacer ring 60a can be used to control the gap between the second lens 20a and the third lens 30a, and can prevent light from the M30270. 5 The flooding phenomenon occurs when the edges of the second lens 20a and the third lens 30a penetrate. The first spacer ring 50a and the second spacer ring 6A are preferably made of opaque black plastic or metal. 6 is a perspective view of the second embodiment of the present invention, which is combined with the lens barrel 70a. The lens unit of the present embodiment is also applicable to the lens module 99a. The lens module 99a includes a lens barrel. 70a, after the assembled lens group la is assembled, the entire mating lens group 1& can be directly placed into the lens barrel 70a for use as the lens module 99a. • Figures 7 to 9 relate to the creation of the lens. 3, please refer to FIG. 7 and FIG. 8 together, FIG. 7 is an exploded view of the third embodiment of the chimeric lens set of the present invention, and FIG. 8 is a perspective view of the third embodiment of the chimeric lens set of the present invention. In this embodiment, the mating lens group 1b includes a first lens i〇b, a second lens 20b, and a third lens 30b. Preferably, the chimeric lens group includes a fourth lens 40b, a first spacer ring 50b, and a second spacer ring 6〇b. wherein the first lens 10b includes a fitting portion lib and a third fitting portion 12b, and the second lens 20b includes a second fitting portion 21b. For example, the first fitting portion lib, the second φ fitting portion 31b', and the third fitting portion 12b may be in a concave shape for the purpose of dispersing. The mutual engagement relationship between the first lens 10b, the second lens 20b, the third lens 30b and the fourth lens 40b is as follows. The second lens 20b can be embedded. The first fitting portion lib, the third lens 30b can be embedded in the second fitting portion 21b, and the fourth lens 40b can be embedded in the third fitting portion 12b. For example, the outer diameter of the second lens 20b can be slightly equal to or It is slightly smaller than the inner diameter of the first fitting portion lib, whereby the second lens 20b can be inserted into the first fitting portion lib. The outer diameter of the third lens 30b may be slightly equal to or smaller than the inner diameter of the second fitting portion 21b, whereby the third lens 30b may enter the second overlapping portion 21b. The outer diameter of the fourth lens 4Ob may be slightly equal to or slightly smaller than the inner diameter of the third fitting portion 12b, whereby the fourth lens 4b may be embedded in the third 'six fitting portion 12b. Similar to the foregoing embodiment, the first spacer ring 50b may be disposed between the first lens 1b and the second lens 20b, and/or between the second lens 20b and the third lens 30b. A second spacer ring 6〇b is provided. The first spacer ring 50b can be used to control the gap between the first lens 10b and the second lens 2b, and can prevent the light from being diffused from the edge of the first lens 10b and the second lens 20b. Light phenomenon. The first spacer ring 6〇b can be used to control the gap between the second lens 2〇b and the third lens 3〇b, and can prevent light from penetrating from the edge of the second lens 20b and the third lens 30b. Flooding phenomenon. Therefore, the material of the spacer ring 50b and the second spacer ring 6〇b is preferably opaque black plastic or metal. Next, please refer to Fig. 9, which is a perspective view of a third embodiment of the present assembled lens group combined with the mirror 70b. Similarly, the mating lens set ib can also be applied to the lens module 99b. The lens module 99b may include a lens barrel 7〇b, and after the rear-fit lens group ib is assembled, the entire mating lens group 1b may be directly placed into the lens barrel 7〇b. Compared with the conventional lens group, the chimeric lens group l la, lb of the present invention can pre-position each lens (first lens 10, 1〇a, 1〇b, second lens 2〇, 20a, 20b and The two lenses 3〇, 30a, 30b) are fitted into each other to form a mating lens group l la, and then lb' directly into the lens group 1, la, lb is placed in the lens barrel 70, 7 such as 701) Group 1, 1 & 11, 11) has only one overall tolerance between the lens barrels 70, 7 (^, 7013, without having to consider the individual tolerances between the individual lenses and the lens barrel one by one), thus effectively improving the lens module 99, 99a, 99b assembly efficiency 'and improve the imaging quality of lens modules 99, 99a, 99b.

11 M302705 Before the chimeric lens set 1, la, 113 is placed in the lens barrel 70, 7〇a, 7〇b, the mating lens group 1, la, lb can be pre-adjusted and eccentrically combined, so the chimeric lens After the groups 1, la, and lb are placed in the lens barrels 7A, 70a, 70b, better image quality can be obtained. Furthermore, as is well known to those skilled in the art, the first lens 1〇, 10a, 10b, the second lens 20, 2〇a, 2〇b and the third lens 3〇, 3〇a, 3〇b It can be a plastic lens that is easy to mass-produce, thus reducing the cost of the integrated lens group i. It should be noted that the mating lens sets la, la, lb, φ of the above embodiments do not necessarily need to use the first spacer rings 50, 50a, 50b and the second spacer rings 60, 60a, 60b, respectively, depending on the actual use. increase or decrease. It should be noted that 'there are many kinds of combined structures due to the fitting relationship between the lens and the lens of the chimeric lens group. The chimeric lens group 1, la, lb of the present embodiment is only a chimeric lens group. There are three embodiments, and therefore, the present creation is not limited to the above three embodiments. Any three or more lenses that can be integrated into one another and then placed into a lens barrel should be included in the scope of the creation. In addition, the present disclosure also discloses several embodiments of lens modules, as shown in FIG. 3, FIG. 6, and FIG. 9, respectively, that is, the lens module 99, 9%, and 9% may include the above-mentioned chisel type. The lens group 丨, la, lb and the lens barrel 7〇, 7〇a, 7〇b, the chimeric lens group 1, la, lb can be directly placed into the lens barrel 7〇, 7〇a, 7〇b to improve Lens assembly tolerances for lens modules 99, 99a, 99b. In summary, this creation shows its characteristics different from conventional techniques, regardless of its purpose, means and efficacy. It is to be noted that the above-described embodiments are merely illustrative of the principles and functions of the present invention and are not intended to limit the scope of the present invention. Anyone skilled in the art can make modifications and changes to the embodiment without departing from the technical principles and spirit of this creation 12 M302705. The scope of protection of this creation should be as described in the scope of the patent application described later. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded view of a first embodiment of a chimeric lens set of the present invention. Figure 2 is a perspective view of a first embodiment of the chiseled lens set of the present invention. Fig. 3 is a perspective view showing the combination of the first embodiment of the chisel lens group of the present invention and the lens barrel. > Figure 4 is an exploded view of a second embodiment of the chimeric lens set of the present invention. Figure 5 is a perspective view of a second embodiment of the chiseled lens set of the present invention. Fig. 6 is a perspective view showing the second embodiment of the present combined lens group and the lens barrel. Figure 7 is an exploded view of a third embodiment of the chimeric lens set of the present invention. Figure 8 is a perspective view of a third embodiment of the chiseled lens set of the present invention. Fig. 9 is a perspective view showing the third embodiment of the present combined lens group and the lens barrel. [Description of Component Symbols] Fitting lens group 1, la, lb First fitting portion 11, 11a, lib Third fitting portion 12, 12b Upper end portion 21 Third mirror 30, 30a, 30b First lens 10, l 〇a, 10b second fitting portion 31, 12a, 21b second lens 20, 20a, 20b lower end portion 22 fourth lens 40, 40a, 40b 13 M302705 first spacer ring 50, 50a, 50b second spacer ring 60, 60a, 60b lens barrel 70, 70a, 70b lens module 99, 99a, 99b

14

Claims (1)

M302705 玖, the scope of patent application: 1. A chimeric lens set, comprising: a first lens 'including a first dispersing portion; a second lens, comprising an upper end portion and a lower end portion, the second lens The upper end portion can be embedded in the first fitting portion; and a third lens includes a second fitting portion, and the lower end portion of the second lens can be embedded in the second fitting portion. 2. The mating lens set of claim 1, further comprising a fourth lens, and the first lens further comprising a third fitting portion, the fourth lens being insertable into the third fitting portion . 3. The mating lens set according to claim 1, which can be applied to a lens module, and the lens module includes a lens barrel into which the fitting lens group can be placed. 4. The mating lens set of claim 1 further comprising a first spacer ring positioned between the first lens and the second lens. 5. The mating lens set of claim 1 further comprising a second spacer ring between the second lens and the third lens. 6. A mating lens set comprising: a first lens comprising a first funnel; a second lens, the second lens being insertable into the first mating portion; and a third lens, the third lens The third lens can be embedded in the first fitting portion. 15 M302705. The mating lens set of claim 6, further comprising a fourth lens, and the first lens further comprises a second fitting portion, the fourth lens being insertable into the second embedded Joint department. 8. The mating lens set according to claim 6, which can be applied to a lens module, and the lens module comprises a lens barrel into which the lens group can be placed. 9. The mating lens set of claim 6 further comprising a first spacer ring positioned between the first lens and the second lens. 10. The mating lens set of claim 6 further comprising a second spacer ring positioned between the second lens and the third lens. 11. A combination lens assembly, the lens assembly comprising: a first lens comprising a first portion; a second lens comprising a second rear portion, the second lens can be immersed in the first lens a fitting portion; and a third lens, the third lens being insertable into the second fitting portion. 12. The mating lens set of claim 11, further comprising a fourth lens, and the first lens further comprising a third rice portion, the fourth lens being insertable into the third fitting portion. 13. The fitting lens set according to claim 11, which is applicable to a lens module, and the lens module comprises a lens barrel, and the fitting lens group can be placed in the lens barrel . 16 M302705 includes: = view, the mating lens set of item 11, the step-by-loop ring, wherein the first-spacer ring is located between the first lens and the cloth. The chimeric lens group of the fifth aspect of the invention, wherein the heart-spacer ring of the third lens of the step-by-step package is located in the second lens and the lens module, comprising: a lens barrel; The chimeric lens set, a chimeric lens set, can be placed in the lens barrel, comprising: a lens, including a first-fitting portion; a lens & an upper end and a lower end, the second The upper end of the lens; the end portion can be embedded in the first fitting portion; and the lens includes a second fitting portion, the lower jaw of the second lens. The second fitting portion can be inserted into the second fitting portion. 17. The mirror group according to claim 16, wherein the lens group further comprises a first-in-one-in-one-in-one-one-four-six-slice, and the first lens further includes a third merging portion. The fourth lens can slay the third fitting portion. 18. The lens module of claim 16, wherein the lens set further comprises - - BB p5 m ^, a first spacer ring is located at a remote lens and the second Between the lenses. The apparatus of the present invention has a second spacer ring, and the second spacer ring system: the second spacer lens and the first Between the three lenses. 17 〆M302705 20. A lens module comprising: a lens barrel; a mating lens group that can be placed in the lens barrel, the mating lens group comprising: a first lens comprising a first a second lens, the second lens can be inserted into the first fitting portion; and a third lens, the third lens can be scattered into the first portion. 21. The lens module of claim 20, wherein the fitting lens group further comprises a fourth lens, and the first lens further comprises a second component, the fourth lens Enter the second unit. 22. The lens module of claim 20, wherein the mating lens set further comprises a first spacer ring, the first spacer ring being located between the first lens and the second lens. 23. The lens module of claim 20, wherein the mating lens set further comprises a second spacer ring, the second spacer ring being located between the second lens and the third lens. 24. A lens module, comprising: a lens barrel; a lens group to be fitted into the lens barrel, the enemy lens group comprising: a first lens comprising a first fitting portion a second lens includes a second fitting portion, the second lens can be embedded in the first dispersing portion, and a third lens, the third lens can be embedded in the second fitting portion. The lens module of claim 24, wherein the lens assembly further comprises a fourth lens, and the first lens further comprises a third rear portion, the fourth lens He entered the third desire department. 26. The lens module of claim 24, wherein the mating lens set further comprises a first spacer ring, the first spacer ring being located between the first lens and the second lens. 27. The lens module of claim 24, wherein the mating lens set further comprises a second spacer ring between the second lens and the third lens. 19