101年.03月0'2日修正誉換百 M432047 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關一種光波導組件,尤其涉及一種光波導組 件的定位結構。 【先前技術】 [0002] 於2010年11月02日公告的美國專利第US7, 542, 643B2號 揭示了一種具有固定結構的光波導組件。所述光波導組 件可向前插入插座配合,其包括若干光波導及固定光波 導的套管,所述各光波導包括基板、基層、彼此相隔一 定距離排列於基層上的波導核心及包覆於基層與波導核 心的外包層,所述套管設有一個開槽,所述開槽前後方 向貫通,所述光波導堆疊裝置於所述開槽内。然而,此 種製造方法由於係將一層層光波導依序堆疊在套管的一 個開槽内,隨著一層層的公差累積,越上層的光波導, 其沿所述開槽開口方向的正位度影響越大。 [0003] 是以,針對上述問題,有必要對前述套管進行改造。 【新型内容】 [0004] 本創作之目的在於提供一種光波導組件,其對光波導具 有1¾定位精度。 [0005] 為解決前述技術問題,本創作光波導組件可向前插入插 座配合,其包括若干光波導及固定光波導的套管,所述 各光波導包括基板、基層、彼此相隔一定距離排列於基 層上的波導核心及包覆於基層與波導核心的外包層,所 述套管設有多個開槽,各開槽前後方向貫通,所述光波 10022267产單編號 A〇101 第3頁/共12頁 1013077521-0 M432047 101年.03月日梭正替换頁 導分成多組並分別堆疊裝置於各開槽内。 [0006] 與先前技術相比,本創作光波導組件具有如下功效: [0007] 所述套管設有多個開槽,各開槽前後方向貫通,所述光 波導分成多組並分別堆疊裝置於各開槽内。這樣設計使 光波導組件在維持相同光波導層數的條件下,減少光波 導的堆疊數量,從而使累積公差縮小,提高定位精度。 [0008] 本新型的其他具體設計如下: [0009] . 其中前述多個開槽包括一個向上側開口的上開槽與一個 向下側開口的下開槽,所述光波導分別豎直方向堆疊設 置於前述上開槽與下開槽。 [0010] 其中前述上開槽與下開槽沿豎直方向對齊。 [0011] 其中前述上下開槽沿水平方向的寬度需較光波導寬度更 寬2〜4微米。 [0012] 其中前述光波導組件還包括設置於上開槽内的光波導上 側的頂蓋與設置於下開槽内的光波導下側的底蓋,用於 壓合光波導。 [0013] 其中前述套管具有設置於上開槽與下開槽之間的分隔壁 、及處於分隔壁水平兩端的定位孔,所述定位孔可與插 座導向配合。 [0014] 其中前述頂蓋與光波導之間、底蓋與光波導之間均具有 預留給固定膠的空間,頂蓋與底蓋是利用固定膠與光波 導黏合。 【實施方式】26#單编號A〇101 第4頁/共12頁 1013077521-0 M432047 1101 年03月 〇·2 [0015] 下面結合附圖來詳細說明本創作之具體實施方式。 [0016] 請參閲第一圖及第四圖所示,本創作係一種光波導組件 100,其可向前插入插座配合,所述光波導組件10()包括 若干光波導140、固定光波導140的套管110以及用於壓 合光波導140的頂蓋120與底蓋13〇,所述各光波導140包 括基板141、基層143、波導核心142及外包層144,所述 波導核心142彼此相隔一定距離排列於基層143上,所述 外包層144熔於基層143從而包覆於波導核心142 ^所述 套官110設有兩個開槽、設置於兩個開槽之間的分隔壁 111及處於分隔壁111水平兩端的定位孔112,所述定位 孔112可與插座導向配合。所述套管11〇包括一個向上侧 開口的上開槽14 6與一個向下側開口的下開槽14 7,所述 上開槽14 6與下開槽14 7沿豎直方向對齊,各開槽前後方 向貫通,所述上下開槽沿水平方向的寬度需較光波導14〇 寬度更寬2>·4微米。所述光波導14〇分別豎直方向堆疊設 置於前述上開槽146與下開槽147。所述頂蓋120設置於 上開槽146内光波導140的上側,所述底蓋13〇設置於下 開槽147内光波導140的下側’所述頂蓋12〇與底蓋130用 於壓合光波導14(^所述頂蓋120與光波導14〇之間、底 蓋130與光波導140之間均具有預留給固定膠丨45的空間, 頂蓋120與底蓋130是利用固定膠145與光波導140黏合。 [00Π] 综上所述,本創作確已符合新型專利之要件,爰依法提 出專利申請》惟,以上所述者僅係本創作之較佳實施方 式,本創作之範圍並不以上述實施方式爲限,舉凡熟習 本案技藝之人士援依本創作之精神所作之等效修飾或變 10022267产單編號 A0101 第5頁/共12頁 1013077521-0 M432047 101年03月0>日核正替換頁 化,皆應涵以下申請專利範圍内。 【圖式簡單說明】 [0018] 第一圖係符合本發明的一種光波導組件的立體圖。 [0019] 第二圖係第一圖中光波導組件的立體爆炸圖。 [0020] 第三圖係第一圖中光波導組件的前視圖。 [0021] 第四圖係第二圖中套管的立體圖。 【主要元件符號說明】 [0022] 光波導組件100 · [0023] 套管 1 1 0 [0024] 分隔壁111 [0025] 定位孔112 [0026] 頂蓋 120 [0027] 底蓋 130 [0028] 光波導 140 # [0029] 基板 141 [0030] 波導核心142 - [0031] 基層 143 [0032] 外包層144 [0033] 固定膠145 [0034] 上開槽146 10〇222^科號删1 第6頁/共12頁 1013077521-0 M432047 [0035] 下開槽147 101年.03月的日梭正替&頁101 years. March 0'2, revised reputation 100. M432047 V. New description: [New technical field] [0001] This creation relates to an optical waveguide assembly, and more particularly to a positioning structure of an optical waveguide assembly. [Prior Art] [0002] An optical waveguide assembly having a fixed structure is disclosed in U.S. Patent No. 7,542,643, issued toK. The optical waveguide assembly can be inserted into the socket assembly forwardly, and includes a plurality of optical waveguides and a sleeve for fixing the optical waveguide, the optical waveguides including a substrate, a base layer, a waveguide core arranged on the base layer at a distance from each other, and a cladding layer The outer layer of the base layer and the waveguide core, the sleeve is provided with a slot, the slot is penetrated in the front-rear direction, and the optical waveguide stacking device is disposed in the slot. However, in this manufacturing method, since a layer of optical waveguides are sequentially stacked in one slot of the sleeve, as the tolerance of one layer is accumulated, the upper layer of the optical waveguide has a positive position along the direction of the slot opening. The greater the degree of influence. [0003] Therefore, in view of the above problems, it is necessary to modify the aforementioned bushing. [New Content] [0004] The purpose of the present invention is to provide an optical waveguide assembly having a positioning accuracy of 13⁄4 for an optical waveguide. [0005] In order to solve the foregoing technical problem, the present optical waveguide assembly can be inserted into a socket mating forward, and includes a plurality of optical waveguides and a sleeve for fixing the optical waveguide, the optical waveguides including the substrate and the base layer are arranged at a distance from each other. a waveguide core on the base layer and an outer cladding layer covering the base layer and the waveguide core, the sleeve is provided with a plurality of slots, and each slot is penetrated in a front-rear direction, and the light wave is 10022267. The single number A〇101 page 3/total 12 pages 1013077521-0 M432047 101.03. The Japanese shuttle replacement page guide is divided into multiple groups and stacked separately in each slot. [0006] Compared with the prior art, the present optical waveguide assembly has the following effects: [0007] The sleeve is provided with a plurality of slots, each slot is penetrated in a front-rear direction, and the optical waveguide is divided into multiple groups and stacked separately. In each slot. This design allows the optical waveguide assembly to reduce the number of stacks of optical waveguides while maintaining the same number of optical waveguide layers, thereby reducing the cumulative tolerance and improving the positioning accuracy. [0008] Other specific designs of the present invention are as follows: [0009] wherein the plurality of slots include an upper slot open to the upper side and a lower slot open to the lower side, the optical waveguides are stacked vertically It is disposed on the foregoing upper slot and the lower slot. [0010] wherein the foregoing upper slot and the lower slot are aligned in a vertical direction. [0011] wherein the width of the upper and lower slots in the horizontal direction needs to be 2 to 4 micrometers wider than the width of the optical waveguide. [0012] wherein the optical waveguide assembly further includes a top cover disposed on the upper side of the optical waveguide in the upper slot and a bottom cover disposed on the lower side of the optical waveguide in the lower slot for pressing the optical waveguide. [0013] wherein the sleeve has a partition wall disposed between the upper slot and the lower slot, and a positioning hole at the horizontal ends of the partition, the positioning hole being engageable with the socket. [0014] wherein the top cover and the optical waveguide, and between the bottom cover and the optical waveguide have a space reserved for the fixed glue, and the top cover and the bottom cover are bonded to the optical waveguide by using a fixing glue. [Embodiment] 26#单单A〇101 Page 4 of 12 1013077521-0 M432047 1101 March 〇 2 [0015] Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings. [0016] Referring to the first and fourth figures, the present invention is an optical waveguide assembly 100 that can be inserted into a socket forward. The optical waveguide assembly 10 includes a plurality of optical waveguides 140 and fixed optical waveguides. a sleeve 110 of 140 and a top cover 120 and a bottom cover 13 for pressing the optical waveguide 140, the optical waveguide 140 including a substrate 141, a base layer 143, a waveguide core 142, and an outer cladding 144, the waveguide cores 142 being mutually Arranged on the base layer 143 at a distance, the outer cladding 144 is fused to the base layer 143 to be coated on the waveguide core 142. The sleeve 110 is provided with two slots, and the partition wall 111 disposed between the two slots. And a positioning hole 112 at the horizontal ends of the partition wall 111, the positioning hole 112 can be in guiding engagement with the socket. The sleeve 11A includes an upper slit 14 6 open to the upper side and a lower slit 14 7 open to the lower side, and the upper slit 14 6 and the lower slit 14 7 are aligned in the vertical direction, respectively. The groove is penetrated in the front-rear direction, and the width of the upper and lower grooves in the horizontal direction needs to be wider than the width of the optical waveguide 14 2 2··4 μm. The optical waveguides 14 are stacked in the vertical direction and disposed in the upper and lower slots 146, 147, respectively. The top cover 120 is disposed on the upper side of the optical waveguide 140 in the upper slot 146, and the bottom cover 13 is disposed on the lower side of the optical waveguide 140 in the lower slot 147. The top cover 12 and the bottom cover 130 are used for The laminated optical waveguide 14 (the top cover 120 and the optical waveguide 14 、 between the bottom cover 130 and the optical waveguide 140 have a space reserved for the fixed capsule 45, and the top cover 120 and the bottom cover 130 are utilized. The fixing glue 145 is bonded to the optical waveguide 140. [00Π] In summary, the creation has indeed met the requirements of the new patent, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention. The scope of creation is not limited to the above-mentioned implementation methods. Those who are familiar with the skill of the case will be given the equivalent modification or change according to the spirit of this creation. 10022267 Production Order No. A0101 Page 5 / Total 12 Page 1013077521-0 M432047 101 Year 03 The monthly 0> nucleus is replacing the page, which should be within the scope of the following patent application. [Simplified illustration] [0018] The first figure is a perspective view of an optical waveguide assembly in accordance with the present invention. [0019] A perspective exploded view of the optical waveguide assembly in the first figure. [0020] A front view of the optical waveguide assembly in the first figure. [0021] The fourth figure is a perspective view of the bushing in the second figure. [Main Element Symbol Description] [0022] Optical Waveguide Assembly 100 [0023] Casing 1 1 0 [ 0024] partition wall 111 [0025] locating hole 112 [0026] top cover 120 [0027] bottom cover 130 [0028] optical waveguide 140 # [0029] substrate 141 [0030] waveguide core 142 - [0031] base layer 143 [0032] Outer layer 144 [0033] Fixing glue 145 [0034] Upper slot 146 10〇222^科号 deletion 1 Page 6/Total 12 page 1013077521-0 M432047 [0035] Lower slot 147 101.03. Positive & page
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