M345413 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種光纖接續盤,尤指一種光纖接續 梳槽為斜向設計,具有彈性夾固功能之光纖接續盤結構改 良。 【先前技術】 光纖接續盤是一種電信用的線路接續裝置,用以提供 Φ 各光纖線路經熔接或物理連接後收容使用。由於既有電信 光纖主要埋設配置於地下、電線桿、大樓配線管路或是住 家配線管路,因而當欲分接至各用戶時,必須在地面上、 電線桿、大樓内或是住家設置具有光纖接續盤之箱體,透 過該箱體將各光纖線路接續分配至指定地點及用戶,藉此 ’施工人員只須在有光纖接續盤之箱體進行施工維修作業 即可。 習知之光纖接續盤結構,如第一、二圖所示,具有一 • 本體(10),本體(10)上設置數個光纜、跳接線或光纖束管 引入口及引出口(101),供光纜、跳接線或光纖束管引入 • 或引出用,内部設置多俩光纖接續梳槽(102),供光纖接 續後固定用,光纖接續梳槽(1〇2)上下兩側各保留一繞線 區(103),本體(1〇)上蓋合一蓋板(圖中未示),用來保護 内部元件,該光纖接續梳槽(102)係由等間距設置之複數 直線狀隔片(1021),於各相鄰隔片(1021)間之中央處分別 裝設有一概呈X形之夾固座(1022),使每一夾固座(1022) 與兩側隔片(1021)間各形成一容置區(1〇23),供熔接熱縮 5 M345413 套管(20)置放失固。 惟’該種習知光纖接續盤結構,於實際應用上存在有 以下缺失: L其光纖接續梳槽(102)係固定式,一般光纖接續盤 大都設置於震動頻繁之路旁、人行道、電線桿或地面下之 箱體内,其光纖接續之保護管尺寸不一,而無足夠之抗張 體固疋其光纖接續及維修,故施工及維修上存在著限制的 不便利性。 2·其光纖接績梳槽(1〇2)為直線設計,因而光纖接續 盤會因為光纖的最小彎曲半徑而有最小空間的限制,對於 空間設計較小之箱體,造成相當大的不便。 3·其光纖接續梳槽(1〇2)之容置區(1〇23)寬度固定, 直線狀隔片(1021)不具大幅度彈性,因而只能供特定直徑 之熔接熱縮套管(20)置放夾固,實用性及適用性不佳。 【新型内容】 本創作人有鑑於習知光纖接續盤結構,施工及維修上 存在著限制的不便利性,並且實用性及適用性不佳,是以 乃思及創作的意念,經多方探討設計與試作樣品試驗,及 多次修正改良後’終設計出本創作。 本創作提供一種光纖接續盤之結構改良,其具有一本 體,本體上設置數個光纜、跳接線或光纖束管引入口及引 出口’供光纜·、跳接線或光纖束管引入或引出用,内部設 置一個或多個光纖接續梳槽,供光纖接續後固定用,本體 於光纖接續梳槽上下兩側各保留一繞線區,光纖接續梳槽 M345413 為分離式設計,本體上蓋合一蓋板,用來保護内部元件, 該光纖接續梳槽係由一基座以鎖固、卡扣、鉚結或黏貼等 方式固定於本體上,基座上側一體成型複數等間距排列之 斜向板片,板片上設有一弧凹缺口,兩端延伸懸空之彈抵 翼,彈抵翼角度與板片不同,兩侧面上端及中段設有錯開 之擋卡凸部,而於各相鄰板片間形成一導引容置空間。 本創作之主要目的,在於光纖接續梳槽與本體係分離 Φ 式設計,施工及維修便利性佳,並且光纖接續梳槽以其斜 向條片配合兩端不同角度之彈抵翼,而可承接直徑必2 〇〜 04· 2腿,高度小於等於8画!之熔接熱縮套管及機械接續端 子,實用性及適用性提昇。 本創作之次一目的,在於其光纖接續梳槽為斜向設計 ,因而可在有限的構裝空間中達到繞線區曲率半徑『3〇咖 的要求,空間利用性提昇。 本創作之另一目的,在於其光纖接續梳槽由中間部份 • 做為導引,配合二端擋卡固定,而可方便光纖熔接熱縮套 管及光纖機械接續端子簡易置放,並令置放之熔接熱縮套 • 管或機械接續端子穩固定位。 【實施方式】 餘下,茲配合圖式將本創作較佳實施例詳細說明如后 .: 如第三圖本創作之立體分解圖、第四圖本創作之立體 組合圖、第五圖本創作之使用狀態示意圖、第六圖本創作 置放溶接熱鱗管之純*意®及S七W本創作置放溶接 7 M345413 熱縮套管之局部放大示意圖所示,本創作光纖接續盤具有 一盤狀本體(1),本體(1)上設置數個光纜、跳接線或光纖 束管引入口及引出口(11),供光繞、跳接線或光纖束管引 入或引出用,内部設置一個或多個光纖接續梳槽(2),供 光纖接續後固定用,本體(1)於光纖接續梳槽(2)上下兩側 各保留一繞線區(12),本體(1)上蓋合一蓋板(圖中未示) ,用來保護内部元件,該光纖接續梳槽(2)為分離式設計 ’係由一長片狀基座(21)兩端各設有一固定孔(211),供 鎖結元件(3)穿設螺結於本體(1)預設之鎖孔(12)上鎖固, 基座(21)上側一體成型複數等間距排列之斜向暨立板片(2 2) ’板片(22)之傾斜角度約為20度,板片(22)上設有一弧 凹缺口(221),兩端延伸懸空之直線狀彈抵翼(23),使彈 抵翼(23)本身可彈性變形,兩侧面上端及中段設有錯開排 列之擔卡凸部(231)、(232),而於各相鄰板片(22)間形成 一導引容置空間(24)。 而當熔接熱縮套管(4)接續光纖後,將熔接熱縮套管( 4)以單一或上下兩個置入相鄰板片(22)間形成之導引容置 空間(24)内,配合板片(22)兩端彈抵翼(23)彈性變形斜對 角夾固熔接熱縮套管(4),並以其擋止凸部(231)、(232) 扣合固定熔接熱縮套管(4),使熔接熱縮套管(4)以斜向角 度穩固定位在光纖接續梳槽(2)中,於減少構裝容間之狀 態下’達到光纖曲率半徑r 30丽之要求,並且藉由板片(2 2)之弧凹缺口(221)方便置放及取拿熔接熱縮套管(4)。 另,本創作光纖接續梳槽(2)除上述利用鎖結方式與 8 M345413 本體⑴固定外,亦可選擇以卡扣、_或雙面膠黏貼等 方式與本體(1)固定。 又,本創作除適用上述溶接熱縮套管(4)外,亦可如 第八圖所示適用直徑較大之機械接續端子(4,),藉板片(2 2)兩端彈抵翼(23)可彈性變形之特性,供機械接續端子(4 ’)以單一或上下兩個置入相鄰板片(22)間形成之導引容置 空間(24)内,受板片(22)兩端彈抵翼(23)斜對角夾固,及 φ 擋止凸部(231)、(232)扣合固定,使機械接續端子(4,)穩 固定位。 再者’如第九圖本創作另一實施例之立體圖及第十圖 本創作另一實施例之俯視平面圖所示,本創作光纖接續梳 槽(2)亦可與本體(1)為一體式之設計,直接於本體(1)上 成型複數等間距排列之斜向板片(22),板片(22)之傾斜角 度約為20度,板片(22)上設有一弧凹缺口(221),兩端延 伸底側未與本體(1)連接之懸空直線狀彈抵翼(23),使彈 φ 抵翼(23)本身可彈性變形,兩侧面上端及中段設有錯開排 列之擋卡凸部(231)、(232),而於各相鄰板片(22)間形成 一導引容置空間(24)。 由上述具體實施例之結構,可得知本創作具有下述之 效益: 1·其光纖接續梳槽(2)與本體(1)係分離式設計,施工 及維修便利性佳,並且光纖接續梳槽(2)斜向條片(22)配 合兩端直線狀彈抵翼(23)之設計,具有適當之彈性容許空 間’而可承接直徑0 2· 0〜0 4. 2丽,高度小於等於8mm之熔 9 M345413 接熱縮套管(4)及機械接續端子(4,),實用性及適用性提 昇。 2·其光纖接續梳槽(2)為斜向設計,因而可在有限的 構裝空間中達到光纖繞線曲率半徑r 3〇臟的要求,空間利 用性提昇。 3·其光纖接續梳槽(2)各相鄰板片(22)間形成一導引 容置空間(24),配合板片(22)兩端延伸懸空之直線狀彈抵 φ 翼(23),該彈抵翼(23)本身可彈性變形,而可方便熔接熱 縮套管(4)及機械接續端子(4,)簡易置放,並令置放之熔 接熱縮套管(4)或機械接續端子(^’)穩固定位。 综上所述,本創作確實已經達於突破性之結構,而具 有改良之創作内容,同時又能夠達到產業上利用性與進步 性’且本創作未見之於任何刊物,亦具新穎性,當符合專 利法之規定,爰依法提出新型專利申請,懇請鈞局審查 委員授予合法專利權,至為感禱。 • 唯以上所述者,僅為本創作之較佳實施例而已,當不 能以之限定本創作實施之範圍;即大凡依本創作申請專利 • ㈣所作之均等變化與修飾,皆應仍屬本創作專利涵蓋之 範圍内。 【圖式簡單說明】 第一圖:係習式之立體圖。 第二圖··係習式之使用狀態示意圖。 弟一圖·係本創作之立體分解圖。 第四圖·係本創作之立體組合圖。 M345413 第五圖:係本創作之使用狀態示意圖。 弟六圖··係本創作置放嫁接熱縮套管之俯視示意圖。 第七圖:係本創作置放熔接熱縮套管之局部放大示意 圖。 第八圖:係本創作置放機械接續端子之俯視示意圖。 第九圖:係本創作另一實施例之立體圖。 第十圖:係本創作另一實施例之俯視平面圖。 【主要元件符號說明】 〔習知〕 10 本體 102 光纖接續梳槽 1022 夾固座 103 繞線區 〔本創作〕 1 本體 12 繞線區 21 基座 22 板片 23 彈抵翼 232 播卡凸部 3 鎖結元件 4’ 機械接續端子 101引入口、引出口 1021隔片 1023容置區 20 溶接熱縮套管 11 引入口、引出口 2 光纖接續梳槽 211固定孔 221弧凹缺口 231擋卡凸部 24 導引容置空間 4 熔接熱縮套管 11M345413 VIII. New Description: [New Technology Field] This creation is about a fiber optic splice tray, especially a fiber optic splice comb with oblique design, and the fiber optic splice tray with elastic clamping function is improved. [Prior Art] The optical fiber connection disk is a line connection device for telecommunication, which is used to provide Φ. The optical fiber lines are spliced or physically connected for use. Since the existing telecommunication fiber is mainly buried in the underground, the electric pole, the building wiring line or the home wiring line, when it is intended to be tapped to each user, it must be set on the ground, the pole, the building or the home. The box of the optical fiber connection tray transmits the optical fiber lines to the designated place and the user through the box, so that the construction worker only needs to carry out construction and maintenance work on the box with the optical fiber connection disk. The conventional fiber optic splice tray structure, as shown in the first and second figures, has a body (10), and the body (10) is provided with a plurality of optical cables, jumper wires or fiber bundle tube introduction ports and outlets (101) for The cable, the jumper cable or the fiber bundle tube is introduced or taken out, and a plurality of optical fiber connecting comb grooves (102) are arranged inside for fixing the optical fiber after the connection, and the optical fiber connecting comb groove (1〇2) retains a winding on each of the upper and lower sides. The area (103), the main body (1〇) is covered with a cover plate (not shown) for protecting the internal components, and the optical fiber continuous combing groove (102) is a plurality of linear spacers (1021) arranged at equal intervals. An X-shaped clamping seat (1022) is respectively disposed at a center between each adjacent spacer (1021), so that each clamping seat (1022) and the two side spacers (1021) are formed. A receiving area (1〇23) for welding heat shrinking 5 M345413 casing (20) placed and lost. However, the conventional fiber-optic splice tray structure has the following shortcomings in practical applications: L. The fiber optic splice tray (102) is fixed, and the general fiber optic splice tray is mostly placed on the side of the road with frequent vibration, sidewalks, utility poles. Or the cabinet under the ground, the size of the protection tube of the optical fiber connection is different, and there is not enough anti-tension body to fix its optical fiber connection and maintenance, so there is limited inconvenience in construction and maintenance. 2. The fiber-optic comb chamber (1〇2) is a straight line design. Therefore, the fiber-optic splice plate has a minimum space limitation due to the minimum bending radius of the fiber, which causes considerable inconvenience to a cabinet with a small space design. 3. The width of the accommodating area (1〇23) of the fiber splicing comb (1〇2) is fixed, and the linear spacer (1021) does not have large elasticity, so it can only be used for the fusion heat shrinkable sleeve of a certain diameter (20 ) It is placed and clamped, and its practicability and applicability are not good. [New content] The creator has the limitations of the inconvenience of construction and maintenance in view of the structure of the optical fiber connection disk, and the practicability and applicability are not good. After the test with the test sample, and after many corrections and improvements, the design was finalized. The present invention provides a structural improvement of a fiber optic splice tray, which has a body with a plurality of optical cables, jumper wires or fiber bundle tube inlets and outlets for the introduction or extraction of optical cables, jumpers or fiber bundle tubes. One or more optical fiber connecting comb grooves are arranged inside for fixing the optical fiber after being connected, and the main body retains a winding area on the upper and lower sides of the optical fiber connecting comb groove, and the optical fiber connecting comb groove M345413 is a separate design, and the main body is covered with a cover plate. For protecting the internal components, the optical fiber continuous combing groove is fixed to the body by a base by locking, snapping, riveting or pasting, and the upper side of the base is integrally formed with a plurality of obliquely arranged obliquely arranged plates. The plate is provided with an arc-shaped recessed notch, and the two ends are extended by the hanging elastic to the wing. The angle of the elastic-impeding wing is different from that of the plate. The upper end and the middle section of the two sides are provided with staggered card protrusions, and a space is formed between the adjacent plates. Guide the accommodation space. The main purpose of this creation is to separate the Φ-type design of the fiber-optic splicing comb and the system, and the construction and maintenance convenience is good, and the optical fiber splicing comb groove can be engaged with the oblique strips at different angles of the two ends. The diameter must be 2 〇~ 04· 2 legs, the height is less than or equal to 8 paintings! The welded heat shrinkable sleeve and the mechanical connection terminal are improved in practicability and applicability. The second purpose of this creation is that the fiber-optic continuous combing groove is designed obliquely, so that the radius of curvature of the winding area can be achieved in a limited configuration space, and the space utilization is improved. Another purpose of the creation is that the fiber-optic connecting comb is guided by the middle portion as a guide, and is fixed with the two-end stop card, and the optical fiber fusion heat-shrinkable sleeve and the optical fiber mechanical connection terminal can be easily placed and arranged. Place the welded heat shrink sleeve • The tube or mechanical connection terminal is firmly fixed. [Embodiment] In the following, the preferred embodiment of the present invention will be described in detail with reference to the following figures: as shown in the third figure, the three-dimensional exploded view of the present creation, the fourth three-dimensional combination of the creation, and the fifth figure. The state of the use of the state diagram, the sixth diagram of the creation of the fusion of the hot tube of the pure * Italian® and S seven W. The creation of the fusion of the 7 M345413 heat shrinkable sleeve part of the enlarged schematic diagram, the creation of the fiber optic splice tray has a plate a body (1), the body (1) is provided with a plurality of optical cables, jumper wires or fiber bundle tube introduction ports and outlets (11) for light winding, jumper wiring or fiber bundle tube introduction or extraction, and an internal setting or A plurality of optical fiber continuous combing grooves (2) are used for fixing the optical fiber after the connection, and the main body (1) retains a winding area (12) on the upper and lower sides of the optical fiber connecting comb groove (2), and the main body (1) is covered with a cover A plate (not shown) for protecting the internal components, the fiber connecting comb (2) is of a separate design, and a fixing hole (211) is provided at each end of a long piece-shaped base (21) for The locking component (3) is threaded and locked on the predetermined locking hole (12) of the body (1), and the base is locked. (21) The upper side is integrally formed with an equal number of equally spaced oblique slabs and slabs (2 2) 'the slab (22) has an inclination angle of about 20 degrees, and the slab (22) is provided with an arc recessed notch (221). The linearly-shaped elastic-shaped abutting wings (23) are extended at both ends, so that the elastic-impeding wing (23) itself can be elastically deformed, and the opposite ends of the upper and middle sections are provided with staggered convex portions (231) and (232). A guiding accommodating space (24) is formed between each adjacent plate (22). When the heat-shrinkable sleeve (4) is spliced to the fiber, the heat-shrinkable sleeve (4) is placed into the guiding accommodating space (24) formed between the adjacent sheets (22) by a single or upper and lower two. The two ends of the plate piece (22) are elastically deformed obliquely diagonally to the heat-shrinkable sleeve (4), and the heat-shrinkable sleeve (231) and (232) are fastened to fix the heat of fusion. The shrinkage sleeve (4) is such that the welded heat shrinkable sleeve (4) is stably fixed at an oblique angle in the fiber-connecting comb groove (2), and the fiber radius of curvature is reached at a reduced capacity of the fiber. It is required, and the heat shrinkable sleeve (4) is conveniently placed and taken by the arc recess (221) of the plate (2 2). In addition, the optical fiber connecting comb groove (2) of the present invention can be fixed to the main body (1) by means of a snap, _ or double-sided adhesive bonding, in addition to the above-mentioned locking and fixing manner with the 8 M345413 main body (1). In addition, in addition to the above-mentioned fusion heat shrinkable sleeve (4), the present invention can also be applied to the mechanically connected terminal (4,) having a larger diameter as shown in the eighth figure, by means of the two ends of the plate (2 2). (23) The elastically deformable characteristic is provided for the mechanical connection terminal (4') to be inserted into the guiding accommodating space (24) formed between the adjacent plates (22) by a single or upper and lower two, and the plate is received (22). The two ends of the spring-loaded wing (23) are diagonally clamped, and the φ-stop convex portions (231) and (232) are fastened and fixed, so that the mechanical connection terminal (4,) is stably fixed. Furthermore, as shown in the top view of another embodiment of the ninth embodiment of the present invention, the optical fiber connecting comb groove (2) can also be integrated with the body (1). The design is to form a plurality of diagonally arranged oblique plates (22) directly on the body (1). The inclined angle of the plate (22) is about 20 degrees, and the plate (22) is provided with an arc concave notch (221). ), the two ends of the extended bottom side are not connected to the main body (1), and the suspended linear elastic springs (23), so that the elastic φ abutting wing (23) itself can be elastically deformed, and the two sides of the upper end and the middle section are provided with staggeredly arranged blocking cards. The convex portions (231) and (232) form a guiding accommodation space (24) between the adjacent plates (22). According to the structure of the above specific embodiment, it can be known that the creation has the following benefits: 1. The optical fiber continuous combing groove (2) and the body (1) are separated, the construction and maintenance are convenient, and the fiber is combed. The groove (2) diagonal strip (22) is matched with the linear elastic-shaped wing (23) at both ends, and has a suitable elastic tolerance space' and can take a diameter of 0 2·0~0 4. 2 Li, the height is less than or equal to 8mm melting 9 M345413 is connected with heat shrinkable sleeve (4) and mechanical connection terminal (4,), which improves the applicability and applicability. 2. The fiber-optic continuous combing groove (2) is designed in an oblique direction, so that the radius of curvature radius r 3 of the fiber winding can be achieved in a limited configuration space, and the space utilization is improved. 3. The fiber splicing comb groove (2) forms a guiding accommodating space (24) between each adjacent plate piece (22), and the linear piece of the gusset (23) is extended and suspended at both ends of the plate piece (22). The spring-resistant wing (23) itself can be elastically deformed, and the heat-shrinkable sleeve (4) and the mechanical connection terminal (4,) can be easily placed and placed, and the welded heat-shrinkable sleeve (4) or The mechanical connection terminal (^') is stable and fixed. In summary, this creation has indeed reached a breakthrough structure, and has improved content of creation, while at the same time being able to achieve industrial use and progress' and this creation has not been seen in any publication, but also novelty. When complying with the provisions of the Patent Law, 提出 file a new type of patent application according to law, and ask the census board member to grant legal patent rights, to pray. • The above is only the preferred embodiment of this creation, and it is not possible to limit the scope of the creation of this creation; that is, the application for patents in accordance with this creation • (4) The equivalent changes and modifications should still be The scope of the creation of the patent is covered. [Simple description of the diagram] The first picture: a perspective view of the system. Figure 2 is a schematic diagram of the state of use of the system. The younger brother is a three-dimensional exploded view of the creation. The fourth picture is a three-dimensional combination of the creation. M345413 Figure 5: Schematic diagram of the state of use of this creation. The sixth figure is a top view of the grafted heat shrinkable sleeve. Figure 7: This is a partially enlarged schematic view of the fusion heat shrinkable sleeve placed in this creation. Figure 8: A schematic view of the top of the mechanical connection terminal. Ninth Diagram: A perspective view of another embodiment of the present creation. Tenth Figure: A top plan view of another embodiment of the present creation. [Main component symbol description] [Authentic] 10 Body 102 Optical fiber continuous combing groove 1022 Clamping seat 103 Winding area [This creation] 1 Body 12 Winding area 21 Base 22 Plate 23 Spring-to-wing 232 Broadcast card convex 3 Locking element 4' Mechanical connection terminal 101 introduction port, outlet port 1021 spacer 1023 accommodating area 20 splicing heat shrinkable sleeve 11 introduction port, outlet port 2 fiber splicing comb groove 211 fixing hole 221 arc concave notch 231 block card convex Portion 24 guiding accommodating space 4 welding heat shrinkable sleeve 11