200928484 九、發明說明: .【發明所屬之技術領域】 本發明涉及-賴片安裝座,尤其涉及—種 位置之鏡片安裝座。 【先前技術】 習知光學加卫設備,如#射㈣域中需採 ^原組成光學系統以使光源發出之光束按照預定光路傳 ❹播,該複數鏡片-般藉由鏡片安裝座固定在光學設備上。 一請參見圖i,所示為-種習知之鏡片安襄座1〇’直包括 -圓盤狀之本體η及三固^件12’該本體:1之 .設有一凹槽U,該凹槽13用於容納鏡片。該 j '處還開設有三等間距排佈之固定孔u 邊緣 q心札Ui,該二固定件1八 穿過該三固定孔111,並將該本體u固定至光工刀 複數鏡片藉由複數鏡片安裝座f備4 内之部件上後’即可與光源組成該光學 ❹統。然,由於光學加工設備内之部件本身之加工誤差= 誤差等原因,通常會導致鏡片偏離預定位 裝 裝座不能對裝設於其上之鏡片之位置進行款,=鏡片安 學加工設備之加工精度降低。 〜’曰導致該光 【發明内容】 鑒·於以上内容,有必裘祖说 之鏡月安裝座。供—種可對鏡片位置進行調節 種鏡片安裝座,其包括一固定座、一底盤小: 接件及至少一彈性件,該彈性亡 夕二連 千牴a又於固疋座和底盤之間, 200928484 該至少三連接件分別連接固定座與底盤且不共線設置,其中 , 至少一連接件可調整固定座與底盤之相對位置。 該鏡片安裝座之底盤及固定座之間抵設有一彈性件,並 藉由複數連接件將底盤與固定座連接在一起,且其中至少一 連接件可調整固定座與底盤之相對位置,所以藉由調節連接 件即可改變固定座與底盤之相對位置,從而實現對裝設於該 固定座上之鏡片之位置調節,以使應用該鏡片安裝座之光學 系統之加工精度得到提高。 ®【實施方式】 下面將結合附圖及實施例對本發明之鏡片安裝座作進 一步之詳細說明。 , 請參見圖2至圖4,所示為本發明較佳實施例之鏡片安 裝座30,其用於裝載鏡片40,該鏡片40為一銅質鍍金反射 鏡。該鏡片安裝座30包括一固定座31、一支撐轴32、一彈 性件33、一底盤34、二定位銷35及複數螺釘36。 q 該固定座31大致為圓盤狀,其朝向鏡片40之端面上開 設有一用於容納鏡片40之凹槽314,遠離鏡片40之端面中 央上開設有一凹坑315。該固定座31之邊緣開設有三等間距 排佈且貫穿該固定座31二相對端之螺孔311,其側面上還開 設有二橫向貫穿該固定座31之通孔312,且該二通孔312 之延伸方向相互垂直。 該支撐轴32包括一大致為圓柱狀之螺合部321、一由該 螺合部321中部向外延伸形成之凸緣322以及一由該螺合部 321 —端沿其轴向延伸形成之半球部323。該凸緣322之截 200928484 面形狀為一類橢圓形。該半球部323與固定座31之凹坑315 配合。 該彈性件33包括一圓形基板331,該圓形基板331中央 開設有一與支撐轴32之凸緣322相配合之非圓變形孔 3311。該圓形基板331之邊緣朝向固定座31延伸有三弧形 卡位片332,該卡位片332之端部開設有一弧形凹口 3321。 該底盤34為圓盤狀,其中心開設有一供螺合部321螺 入之螺紋孔341。該底盤34底面邊緣處對應固定座31之螺 ®孔311開設有三凹槽342,其頂面對應該三凹槽342開設有 三貫穿孔343。該底盤34中央還開設複數用於將該底盤34 連接至其他設備上之固定孔344。 該定位銷35為圓柱狀,其用於插入固定座31上之通孔 312中。該螺釘36包括大致為圓柱狀之本體361及由該本體 361之一端延伸形成之圓台狀頭部362,該本體361可卡入 彈性件33之凹口 3321中,該頭部362容納於底盤34上之 ❹凹槽342中。 請參閱圖2至圖4,裝配該鏡片安裝座30時,先將支撐 軸32之螺合部321穿過彈性件33中央之非圓變形孔3311, 並螺入底盤34之螺紋孔341中,此時,支撐軸32之凸緣322 卡入彈性件33之非圓變形孔3311中。然後將三螺釘36分 別穿過底盤34上之貫穿孔343、卡位片332頂部之凹口 3321 以及固定座31上之螺孔311,從而將固定座31與底盤34 連接在一起,此時,該彈性件33之卡位片332之端部與固 定座31相抵,且該支撐軸32之半球部323部分插入固定座 200928484 31之凹坑315中。接著將該定位銷35部分插入固定座31 . 上之通孔312中,即完成對該鏡片安裝座30之組裝。將鏡 片40安裝於該鏡片安裝座30上時,只需將鏡片40置入固 定座31之凹槽314中,然後將定位銷35完全插入固定座31 上之通孔311,並使其端部與鏡片40侧面相抵,從而將鏡片 40固持於鏡片安裝座30内。 使用時,該鏡片安裝座30可藉由底盤34上之固定孔344 連接至光學設備之部件上,然後藉由擰動螺釘36以改變固 ®定座31相對底盤34之傾斜程度,即改變鏡片40相對底盤 34之傾斜程度,從而將光源發出之光束精確反射至其他光學 元件。 相較於習知之鏡片安裝座,該鏡片安裝座30之底盤34 和固定座31之間設置有一彈性件33,並藉由複數螺釘36 將底盤34和固定座31連接在一起,此時,該彈性件33之 基板331與底盤34相抵,卡位片332與固定座31相抵,從 ❹而使底盤34和固定座31之位置始終保持相對固定。藉由擰 動螺釘36即可調節底盤34和固定座31之相對位置,從而 實現對裝設於該鏡片安裝座30上之鏡片40之位置調節。而 且,該鏡片安裝座30還設有一支撐轴32,且該支撐軸32 之半球部323插入固定座31之凹坑315中,藉由調節該支 撐轴32螺入底盤34上之螺紋孔341之深度,可確定該固定 座31中心相對底盤34之基準高度。該鏡片安裝座30結構 簡單,易於操作,可使應用該鏡片安裝座30之光學系統之 精度得到較大提高。 200928484 可以理解,該鏡片安裝座3〇中之螺釘36也可設置三個 -以上,但需保證該複數螺釘36不共線設置,此時,該彈性 件33上之卡位片332相應形成三個以上,而且,該螺釘% 也可為其他連接固定座31和底盤34並且可調節固定座31 和底盤34相對位置之連接件。當應用該鏡片安裝座%之光 學系統之加工精度要求較低時,該鏡片安裝座3〇也可僅有 一個或二個連接件可調整固定座31與底盤34之相對位置, ❹而其他連接件分別與固定座31和底盤34固定連接。另,該 支撐軸32之凸緣322之截面也可為其他形狀,但需在彈性 件33之基板331上開設與之相匹配之通孔。 請參閱圖5,所示為本發明較佳實施例二之鏡片安裝座 5〇,其與較佳實施例一之鏡片安裝座3〇具有相似之結構, 其不同在於:該鏡片安裝座50採用三彈簧53取代鏡片安穿 座30中之彈性件33,且該三彈簧53分別套設於三螺釘兄 上。擰動螺釘56可改變固定座51相對底盤54之傾斜程度, 〇即改變鏡片40相對底盤54之傾斜程度,從而將光源發出"之 光束精確反射至其他光學元件。 綜上所述,本發明符合發明專利要件,爰依法提出專利 申請。惟,以上所述者僅為本發明之較佳實施例,舉凡熟悉 本案技藝之人士,在爰依本發明精神所作之等效修飾或變 化’皆應涵蓋於以下之申請專利範圍内。 【圖式簡單說明】 圖1係一種習知鏡片安裝座之立體示意圖。 圖2係本發明較佳實施例一之鏡片安裝座及安裝於該鏡 200928484 片安裝座上之鏡片之立體示意圖。 . 圖3係圖2所示鏡片安裝座及安裝於該鏡片安裝座上之 鏡片之立體分解圖。 圖4係圖2所示鏡片安裝座及安裝於該鏡片安裝座上之 鏡片之剖面示意圖。 圖5係本發明較佳實施例二之鏡片安裝座及安裝於該鏡 片安裝座上之鏡片之立體示意圖。 【主要元件符號說明】 ❹(本發明) 鏡片安裝座 30 固定座 31 螺孔 311 、 342 通孔 312 凹槽 314 凹坑 315 支撐軸 32 螺合部 321 凸緣 322 半球部 323 彈性件 33 基板 331 非圓變形孔 3311 卡位片 332 凹口 3321 底盤 34 螺紋孔 341 貫穿孔 343 固定孔 344 螺釘 36 本體 361 頭部 362 鏡片 40 (習知) 鏡片安裝座 10 本體 11 固定孔 111 固定件 12 11 200928484BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a film mount, and more particularly to a lens mount for a position. [Prior Art] Conventional optical escort equipment, such as the #射(四) domain, needs to be used to form an optical system so that the light beam emitted by the light source is transmitted in accordance with a predetermined optical path, and the plurality of lenses are generally fixed to the optical by the lens mount. On the device. Please refer to FIG. 1 , which shows a conventional lens ampule 1 〇 'straight including - disc-shaped body η and three solid parts 12 ' the body: 1. There is a groove U, the concave The slot 13 is for receiving a lens. The j' is further provided with a fixing hole u edge q core Ui arranged at three equal intervals, the two fixing members 18 are passed through the three fixing holes 111, and the body u is fixed to the optical knife multiple lens by a plurality After the lens mounts are placed on the components in the device 4, the optical system can be formed with the light source. However, due to the processing error of the components in the optical processing equipment itself = error, etc., it usually causes the lens to deviate from the pre-positioned mounting seat and cannot be placed on the position of the lens mounted thereon. Reduced accuracy. ~'曰 causes the light [Invention content] In the above content, there is a mirror moon installation seat. The lens mount can be adjusted for the position of the lens, and includes a fixed seat, a small chassis: a connector and at least one elastic member, the elastic sequel between the squat and the chassis , 200928484 The at least three connecting members are respectively connected to the fixing base and the chassis and are not arranged in line, wherein at least one connecting member adjusts the relative position of the fixing seat and the chassis. An elastic member is abutted between the chassis and the fixed seat of the lens mount, and the chassis and the fixed seat are connected by a plurality of connecting members, and at least one of the connecting members can adjust the relative position of the fixed seat and the chassis, so The relative position of the fixing seat and the chassis can be changed by adjusting the connecting member, thereby realizing the position adjustment of the lens mounted on the fixing seat, so that the processing precision of the optical system to which the lens mounting seat is applied is improved. ® [Embodiment] The lens mount of the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. Referring to Figures 2 through 4, there is shown a lens mount 30 for loading a lens 40 of a preferred embodiment of the present invention, the lens 40 being a copper plated mirror. The lens mount 30 includes a mounting base 31, a support shaft 32, an elastic member 33, a chassis 34, two positioning pins 35, and a plurality of screws 36. q The fixing base 31 is substantially disk-shaped, and has a recess 314 for receiving the lens 40 toward the end surface of the lens 40, and a recess 315 is defined in the center of the end surface away from the lens 40. The edge of the fixing base 31 is provided with three holes 311 which are arranged at three opposite ends and penetrate the opposite ends of the fixing base 31, and two through holes 312 extending transversely through the fixing base 31 are also formed on the side surface thereof. The extension directions are perpendicular to each other. The support shaft 32 includes a substantially cylindrical screw portion 321 , a flange 322 extending outward from a central portion of the screw portion 321 , and a hemisphere extending from the end of the screw portion 321 along the axial direction thereof. Part 323. The shape of the flange 322 is a type of ellipse. The hemispherical portion 323 is engaged with the recess 315 of the fixed seat 31. The elastic member 33 includes a circular base plate 331, and a circular deformation hole 3311 is formed in the center of the circular base plate 331 to cooperate with the flange 322 of the support shaft 32. The edge of the circular substrate 331 extends toward the fixing base 31 with a three-arc shaped locking piece 332. The end of the locking piece 332 defines an arcuate recess 3321. The chassis 34 has a disk shape, and a threaded hole 341 into which the screwing portion 321 is screwed is formed in the center. A screw hole 311 corresponding to the fixing base 31 of the bottom surface of the chassis 34 is provided with three recesses 342, and three through holes 343 are defined in the top surface of the chassis. A plurality of fixing holes 344 for connecting the chassis 34 to other devices are also provided in the center of the chassis 34. The positioning pin 35 has a cylindrical shape for insertion into the through hole 312 in the fixing base 31. The screw 36 includes a substantially cylindrical body 361 and a truncated head portion 362 extending from one end of the body 361. The body 361 can be snapped into the recess 3321 of the elastic member 33. The head 362 is received in the chassis. 34 is in the groove 342. Referring to FIG. 2 to FIG. 4 , when the lens mount 30 is assembled, the screwing portion 321 of the support shaft 32 is first passed through the non-circular deformation hole 3311 in the center of the elastic member 33 , and screwed into the threaded hole 341 of the chassis 34 . At this time, the flange 322 of the support shaft 32 is caught in the non-circular deformation hole 3311 of the elastic member 33. Then, the three screws 36 are respectively passed through the through hole 343 on the bottom plate 34, the notch 3321 at the top of the locking piece 332, and the screw hole 311 on the fixing base 31, thereby connecting the fixing base 31 and the chassis 34. The end portion of the latching piece 332 of the elastic member 33 abuts against the fixing base 31, and the hemispherical portion 323 of the supporting shaft 32 is partially inserted into the recess 315 of the fixing seat 200928484 31. Then, the positioning pin 35 is partially inserted into the through hole 312 of the fixing base 31, and the assembly of the lens mounting seat 30 is completed. When the lens 40 is mounted on the lens mount 30, the lens 40 only needs to be placed in the recess 314 of the mount 31, and then the positioning pin 35 is fully inserted into the through hole 311 of the mount 31, and the end portion thereof is made. The lens 40 is placed against the side of the lens 40 to retain the lens 40 within the lens mount 30. In use, the lens mount 30 can be attached to the components of the optical device by the fixing holes 344 in the chassis 34, and then the screw 36 can be screwed to change the inclination of the solid seat 31 relative to the chassis 34, that is, to change the lens. 40 is inclined relative to the chassis 34 to accurately reflect the light beam from the source to other optical components. Compared with the conventional lens mount, an elastic member 33 is disposed between the chassis 34 of the lens mount 30 and the fixing base 31, and the chassis 34 and the fixing base 31 are connected by a plurality of screws 36. The substrate 331 of the elastic member 33 abuts against the chassis 34, and the locking piece 332 abuts against the fixing base 31, so that the positions of the chassis 34 and the fixing base 31 are always relatively fixed. The relative position of the chassis 34 and the holder 31 can be adjusted by screwing the screw 36, thereby achieving positional adjustment of the lens 40 mounted on the lens mount 30. Moreover, the lens mount 30 is further provided with a support shaft 32, and the hemispherical portion 323 of the support shaft 32 is inserted into the recess 315 of the mount 31 by adjusting the threaded hole 341 of the support shaft 32 screwed into the chassis 34. Depth, the reference height of the center of the mount 31 relative to the chassis 34 can be determined. The lens mount 30 is simple in structure and easy to operate, and the accuracy of the optical system to which the lens mount 30 is applied is greatly improved. 200928484 It can be understood that the screw 36 in the lens mount 3 can also be set to three or more, but it is necessary to ensure that the plurality of screws 36 are not arranged in a collinear manner. At this time, the latching piece 332 on the elastic member 33 is correspondingly formed into three. More than this, the screw % can also be other connecting members that connect the fixing base 31 and the chassis 34 and can adjust the relative positions of the fixing base 31 and the chassis 34. When the processing precision of the optical system using the lens mount % is low, the lens mount 3 can also have only one or two connecting members to adjust the relative positions of the fixed seat 31 and the chassis 34, and other connections. The pieces are fixedly coupled to the fixed seat 31 and the chassis 34, respectively. In addition, the flange 322 of the support shaft 32 may have other shapes, but a through hole matching the base member 331 of the elastic member 33 is required. Referring to FIG. 5, a lens mount 5A according to a second embodiment of the present invention has a similar structure to the lens mount 3A of the first embodiment, except that the lens mount 50 is used. The three springs 53 replace the elastic members 33 in the lens holder 30, and the three springs 53 are respectively sleeved on the three screw brothers. Twisting the screw 56 changes the inclination of the mount 51 relative to the chassis 54, i.e., changes the tilt of the lens 40 relative to the chassis 54, thereby accurately reflecting the beam from the source to other optical components. In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. It is to be understood that the above-mentioned preferred embodiments of the present invention are intended to be included within the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a conventional lens mount. 2 is a perspective view of a lens mount of the preferred embodiment of the present invention and a lens mounted on the mirror mount of the 200928484. Figure 3 is an exploded perspective view of the lens mount of Figure 2 and the lens mounted to the lens mount. Figure 4 is a cross-sectional view showing the lens mount of Figure 2 and the lens mounted on the lens mount. Figure 5 is a perspective view of a lens mount of the preferred embodiment 2 of the present invention and a lens mounted on the lens mount. [Main component symbol description] ❹ (Invention) Lens mount 30 Fixing seat 31 Screw hole 311, 342 Through hole 312 Groove 314 Ditch 315 Support shaft 32 Screw portion 321 Flange 322 Hemispherical portion 323 Elastic member 33 Substrate 331 Non-circular deformation hole 3311 Clamping piece 332 Notch 3321 Chassis 34 Threaded hole 341 Through hole 343 Fixing hole 344 Screw 36 Body 361 Head 362 Lens 40 (General) Lens mount 10 Body 11 Fixing hole 111 Fixing piece 12 11 200928484