1376341 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種用於儲存或運載偏光片之運載盒。 5 【先前技術】 偏光片係為薄膜或玻璃,其係用於各種做為影像資訊 媒介之顯示器,例如電腦、數位電視及行動電話的螢幕, 且其亦用於各種產品,如LCD玻璃。此外,已快速發展可 達到清晰影像品質及多功能之技術。 10 據此,更為精確且優異的品質、以及可量產之設備, 對於製作偏光片來說是必要的。由於偏光片係具有高精確 度之產品,其容易因輕微的外力衝擊而導致損壞,且即使 微小的靜電力亦可能產生較劣質的產品,故其需著重於避 免衝擊造成的損壞、污染、刮擦、灰塵、及溫度與溼度的 15 改變。 因此,應將偏光片容置於儲存且運載用之特定運 (殼箱)。 ^相關領域之運載盒係為雙階結構,其具有獨立的内部 定位器,以限制堆疊其令的偏光片。 20 然而,由於相關領域中之偏光片運載盒中,雙階結構 係獨立裝設於内部定位器,故其產品之零件數及重量會增 加’組裝困難’且需特定排列來堆疊偏光片。 【發明内容】 1376341 因此’本發明的設计係用於克服上述問題,而本發明 之目的係在於提供一種偏光片之運載盒’其於底部形成一 體成型之導轨結構’以限制偏光片,使其可輕易組裝,且 偏光片無需特定的配置方式,並可減少零件數及重量。 5 本發明提供一種偏光片之運載盒,其包括:一殼體, 其内板上具有導執’導軌係為導槽狀,且其兩側具有鎖壁 於内板上;滑動元件,其配置於殼體之導軌中,以延著導 執滑動’且其係根據容置於殼體之偏光片尺寸,固定於預 1 定位置,以限制偏光片,其中,滑動元件包括:一下移動 10 部,其係嵌於導軌中,且鎖固於鎖壁;一上移動部,其係 配置於下移動部上,且兩端係與殼體之内板接觸;以及一 鉗夹組件,其鉗夾該下移動部及上移動部,且壓制固定該 上移動部於該殼體之内板,以限制偏光片於預定位置上。 本發明之偏光片運載盒係藉由一體成型於内板上之導 15軌來限制偏光片,其可減少產品之零件數及重量,容易組 裝’且偏光片無需特定之配置方式。 【實施方式】 偏光片之運載盒包括:一殼體,其内板上具有導軌, 20導軌係為導槽狀,且其兩側具有鎖壁於内板上;滑動元件, 其配置於殼體之導轨中,以延著導軌滑動,且其係根據容 置於殼體之偏光片尺寸,固定於敎位置,以限制偏光片。 滑動元件包括:_下移動部,其係嵌於導軌中,且鎖固於 鎖壁;一上移動部,其係配置於下移動部上,且兩端係盘 5 1376341 殼體之内板接觸;以及一鉗夹組件,其鉗夹該下移動部及 上移動部,且壓制固定該上移動部於該殼體之内板,以限 制偏光片於預定位置上。 设體之一側可形成有支撐槽,以支撐容置於殼體内之 5偏光片。若形成有支撐槽,則當想將容置於殼體中之偏光 片拉出殼體外時,把手插入支撐槽中,即可輕易地拉出偏 光片。 殼體之内壁可形成有強化支持部,其可具有成型結 構。若形成有強化支持部,則當堆疊或運載產品時,可避 10免内谷重量或其中物件導致殼體變形,且可固定並支持支 撐堆疊物件之基準表面。再者,由於成型結構取代了助狀 物的功能,故可輕易進行清潔動作。 於殼體外底部上構成手插入槽之肋狀物可形成於殼體 的外底4。备形成有構成手插入槽之肋狀物時,由於可將 15手插入於肋狀物所形成之手插入槽中,故工作者用手支托 忒體外底部時,可藉由支托殼體來穩固運載殼體。 再者’當堆疊殼體時,肋狀物可避免殼體分離。 形成於殼體内板上之導轨可包括具有鎖壁之第一部及 寬度大於第一部之第二部,以使滑動元件之下移動部可插 20入。备具有寬度大於第一部之第二部時,在將滑動元件接 置於轨道上時,則可透過第二部,輕易地插入滑動元件之 下移動部。 沿著導執滑動之滑動元件包括上移動部、下移動部及 钳夾組件。 1376341 上移動部之上半部可形成為狐形板狀。藉由該甜夾组 件及弧形板狀,可增加㈣於殼體底部之壓制力。、. 5 光片Ϊ移Li可具有偏光片支撐元件,當滑動元件限制偏 =片時,其係於偏光片下支樓偏光片。若形成有偏光片支 樓兀件,當滑動it件滑動時,可避免傾斜導致鎖住的情況, 且可避免偏光片下陷。 下移動部之兩端可形成有組裝導向元件,其與上移動 部引導.組裝位置。若形成有組裝導向元件’當滑動元件滑 動時’可輕易組裝上移動部與下移動部,避免上移動部盘 10 I移動部分離。再者’當形成有組裝導向元件時,可在固 定位置時,藉由增加滑動元件下移動部之壓制面積來增加 穩固度。 下移動部之兩端可形成有鎖固於導軌鎖壁之步階,且 步階上可提供有襯墊。藉由形成襯墊,可增加與導軌鎖壁 15 接觸面之阻力,來改善滑動元件之固位力》 鉗夹組件可包括:一連接軸,其連接下移動部與上移 動部,且垂直穿過下移動部及上移動部;一轉動栓,其配 置於上移動部之上半部處的連接軸端,且位於連接軸縱向 之橫向方向;以及一鉗夾桿,其樞接於轉動栓上’俾以自 20 固定偏光片之鎖固位置樞轉至卸除固定偏光片之未鎖固位 置。 據此,藉由位於未鎖固位置之鉗夾桿,滑動元件可沿 著導軌滑動’其係依據偏光片之尺寸,接近容置於殼體中 之偏光片,而將鉗夾桿柩轉至鎖固位置時,滑動元件則會 7 1376341 固定於對應位置,據此,藉由該些固定的滑動元件,偏光 片會限制於預定位置。 該鉗夾桿可包括:-桿體,其係與上移動部之上表面 接觸,且可轉動地配置於轉動栓上;以及一控制把,其係 5 與鉗夾桿接觸。 該桿體可包括:一開孔,係沿著面對上移動部上表面 之周緣形成;以及一栓嵌入孔,係與該開孔交又形成以 與該開孔接觸,且轉動栓可轉動地嵌入其中。 轉動栓之組裝導向元件的栓鎖凸出元件,可形成於栓 10嵌入孔内。當轉動栓與鉗夹桿組裝時,該栓鎖凸出元件係 用於疋義操作間隔,其可避免鬆動導致組裝困難之問題。 轉動栓可具有可轉動地嵌入於栓嵌入孔内之栓嵌入 0,5及可鎖固於接鎖凸出元件之栓頭,且形成有穿過拴嵌 入部之配置孔,配置孔中配置有連接軸(見圖10)。 15 再者,轉動栓可包括:配置於兩端之栓嵌入部,其可 轉動地嵌入於桿體之拴嵌入孔中;以及凹陷部,其係沿著 中心處周緣形成’且可形成有穿過凹陷部之配置孔,配置 孔中配置有連接轴(見圖9)。若未於轉動栓之中心處形成凹 陷部(見圖10),於形成配位孔後’則難以完全移除孔周圍之 20 毛邊’據此,於組裝/操作時,藉由桿體進行轉動可能導致 磨扣(見圖9);然而,若形成有凹陷部(見圖9),則可藉由分 離磨擦結構與接觸部,得以避免磨損。在此所述之「磨損」 係指’當兩個以上部件運轉且相互接合時,運轉部件間之 1376341 阻力導致接觸表面磨損及脫落的現象,其會造成碎片,且 可能對堆疊產品造成損害。 參考圖π ’以下將詳細解釋轉動拴轉動時之磨損狀 況。轉動時’轉動栓位置會改變,且轉動阻力會重複產生 5 於桿體内表面與轉動栓之孔洞周圍毛邊產生處間,據此, 尖銳的毛邊會削切桿體内表面(桿體係藉由射出成型技術 所形成),因而產生碎片’導致磨損狀況發生。然而,藉由 圖9所示之結構,則可避免磨損狀況。 I 、 藉由截切部份控制把,可形成抗阻礙部,據此當鉗夾 10桿柩轉至未鎖固位置時,該控制把不會撞擊上移動部之上 端。因此,位於未鎖固位置時,該控制把可顯露於上移動 部之上端上。 藉由截切部份控制把形成抗阻礙部,當控制把樞轉 時,即使控制把是長@,其仍可避免控制把撞擊上移動部 15 之上端。 於此構造中,當控制把長到顯露於上移動部之上端上 時’工作者仍可使用微小的作用力來順利操作射夹桿。當 控制把之長度如上所述時,則可改善自由度,及 時之方便性。 20 幸乂佳為控制把之長度為2〇至5〇麵,但控制把長度 不限於此’且基於方便性及滑動元件之尺寸㈣制力之考 量,控制把可設計為各種長度。 9 1376341 於鎖固位置時,由於施加強大之钳夹力,故較佳為,確保 有足夠的空間可使工作者的手指靠近甜失桿之控制把。因 此,藉由形成指插入槽,工作者可輕易地將其手指插入於 指插入槽中,以樞轉該鉗夾桿至未鎖固位置。 5 上移動部之側壁上可形成有切開部,據此當鉗夾桿值 於鎖固位置時,控制把之末端可顯露於上移動部之側壁 上。藉由形成切開部,於鎖固位置時,該控制把之末端可 顯露於切開部,而工作者則可輕易地由切開部(即上移動部 之側邊)靠近。因此,工作者可輕易地緊握控制把,以樞轉 10 該鉗夾桿至未鎖固位置。 本發明之偏光片運載盒更可包括殼蓋,以封閉殼體之 内部空間,且其具有強度強化肋狀物,以加強殼蓋之強度。 該強度強化肋狀物可具有成型結構,且其係形成於殼 蓋之外表面上,或形成於面對殼體内部空間之内表面上。 15 藉由形成強度強化肋狀物於殼蓋上,可避免内部壓力 及/或堆疊時之外部壓力導致變形。 由於強度強化肋狀物係形成於殼蓋之外表面上,且如 上所述’肋狀物係形成於殼體外底部,故其可穩固地堆叠 複數個本發明之偏光月運載盒,以避免堆疊的盒子分離。 10 參考隨附圖式,下文將詳細敘述本發明一具體實施例。 如圖1所示,本發明之偏光片運載盒包括:一殼體2〇, 一偏光片P容置於其中;以及一殼蓋10,其封閉殼體2㈣部。 具有成型結構之強度強化肋狀物12係形成於殼蓋丨〇之 外表面上。 1376341 藉由鎖合件11,25,組合該殼蓋10與該殼體20,則可封 閉該殼體20之内部。 如圖2所示,手插入槽23係藉由肋狀物24而形成於殼體 20之外底部,以穩固支撐及運載該殼體20。 5 如圖1、3及4所示,殼體20之一側形成有支撐槽21,以 便支撐該偏光片P,而具有成型結構之強化係形成 於殼體之内側壁上。再者,導執26係形成於殼體20冬内板 上,俾使導軌可引導該些滑動元件邛,其係依據偏光片P的 尺寸而限制偏光片P之位置,且滑動元件30係於殼體20之内 10 板上滑動。 導執26係形成為導槽狀,且其兩側具有鎖壁於殼體20 之内板占。 該導軌26係由具有鎖壁27之第一部26a,及大於第一部 26a之第二部26b所組成。 15 於此構造中,偏光片P之兩側係由殼體20兩内壁支撐, 而偏光片P之另兩側則由配置於殼體20中之滑動元件30限 制住。滑動元件30之個數不限於此。偏光片P係藉由殼體20 之内壁及滑動元件30而堆疊(層疊)於殼體20之内部。 當於鄰近殼體20内側處設置有額外基準板時,可利用 20 各種角度來結合兩基準板,以不同方式限制偏光片。於此 構造中,可變化該設計,俾使偏光片P與滑動元件30 (於下 描述)之上移動部41接觸的表面可改變成各種角度。 1376341 如圖1、5及6所示,該滑動元件30包括上移動部41、下 移動部51、及鉗夾組件60,該鉗夾組件60係鉗夾下移動部 5 1及上移動部41。 上移動部41係配置於下移動部51上,其限制偏光片p, 5 而兩端係與殼體20之内板接觸。 該上移動部41之上表面係形成為弧狀板形,其係藉由 鉗夹組件60’以增加施加於殼體20内板之壓制力。 ---「一 - 於上移動部41之上表面上,形成有接合孔81於中心 處,其中鉗夾組件60之連接軸80 (於下描述)係嵌入於該接 1〇 合孔81中,而用於鉗夾桿61,62之控制把62的一對指插入槽 45係形成於兩側(於下描述)。 再者,用於鉗夾桿61,62 (於下描述)之切開部46係形成 於上移動部41之兩側。 與殼體20内板接觸之壓制部42係形成於上移動部4〗之 15 兩端。 與殼體20内板F同水平處形成有一偏光片支撐元件 43,其係於面對上移動部41偏光片p之表面上,當滑動元件 30滑動時,可避免傾斜導致鎖住的情況且可避免偏光片p 下陷。 20 於上移動部41_,偏光片支撐元件43形成處表面之相 對表面形成有封閉部44,其係嵌入於導軌26中。 如圖1及5至7所示,下移動部51係透過第二部26b而輕 易地嵌入,其中導轨26之寬度大,且當鎖固於第一部26 a之 鎖壁27時,下移動部51係與上移動部41 一同滑動。 12 1376341 如圖5至7所示,下移動部51具有一接合礼54於中心處 (其中配置有鉗夾組件60之連接軸8〇 (於下描述兩端鎖固 於鎖壁27之步階55,配置於步階55上之襯塾52,以及設置 於步階55則之組裝導向元件52 ’其中,組裝導向元件52係 5 引導組裝位置與上移動部41。 如圖5及6所示,該鉗夾組件6〇鉗夹下移動部5〖及上移 動部41,且於殼體20之内板限制偏光片p之位置處壓制並固 & 定上移動部41。 甜夾組件60包括連接軸80、轉動栓68a,91、及鉗夾桿 10 61, 62 〇 連接轴80連接下移動部51與上移動部41,且垂直穿過 下移動部51及上移動部41。透過下移動部51之接合孔54、 上移動部41之接合孔、及設置於上移動部41上表面上之墊 片53 ’將該連接轴80配置於轉動栓68a,91内。 15 鉗夾桿61,62係樞接於轉動栓68a,91上,俾以自固定偏 光片P之鎖固位置(見圖1及12)樞轉至卸除固定偏光片p之 ) 未鎖固位置(見圖5及13)。如圖1及12所示,鉗夾桿61,62之 鎖固位置,係指鉗夾桿61,62位於滑動元件30不會移動且固 定之橫向。詳細地說,配置有襯墊53之下移動部51係藉由 i 2〇 鉗夾組件60 ’與上移動部41 一起強力壓制且固定殼體20之 導執26。壓制力係決定於材料強度(彈性)及重疊量。 如圖5及13所示,鉗夹桿61,62之未鎖固位置係指,鉗 夾桿61,62位於滑動元件30可沿著導軌26滑動之縱向。 13 1376341 鉗夾桿61,62包括:一桿體61,其係與上移動部41之上 表面接觸’且可轉動地配置於轉動栓68&,91上;以及一控 制把62,其係與桿體61—體成型。 再者’如圖8所示,藉由截切部份控制把62,可形成抗 5 阻礙部63,據此當鉗夾样61,68樞轉至未鎖固位置時,該控 制把62不會撞擊上移動部41之上端。因此,位於未鎖固位 置時,該控制把62可顯露於上移動部41之上端上》 該桿體61包括:一開孔64,係沿著面對上移動部41上 表面之周緣形成;以及一栓嵌入孔65,係與該開孔64交又 10 形成,以與該開孔64接觸,且轉動栓68a,91可轉動地嵌入 其中。於此構造中’該連接轴8〇係透過該開孔64而配置於 轉動栓68a,91内。 轉動栓68a,91之組裝導向元件的栓鎖凸出元件66係形 成於栓嵌入孔65内。 15 轉動栓68a,91係配置於穿過上移動部41之上半部處開 孔64的連接軸8〇—端’且位於連接轴8〇縱向之橫向方向。 如圖9所示’轉動拴68a,91具有可轉動地嵌入於桿體61 之栓嵌入孔65内之栓嵌入部68a,及形成於中心處之凹陷部 91。形成有穿過凹陷部91之配置孔69,配置孔69中配置有 20 穿過開孔64之連接軸80—端。 舉例而言’如圖1〇所示’轉動栓67, 68具有可轉動地嵌 入於栓嵌入孔65内之栓嵌入部68,及可鎖固於拴鎖凸出元 件66之拴頭67。另外’形成有穿過栓嵌入部68之配置孔69, 配置孔69中配置有穿過開孔64之連接軸80—端。 丄376341 “㈣爹亏圓1、5、12及13,下文將描述配置於本發明偏 光片運載盒中之偏光片固定方法。 偏光片Ρ之兩側與殼體20兩内壁緊密接觸,而位於未鎖 固位置(見圖5及13)之鉗夾桿61,62設置為縱向,滑動元件3〇 5 再沿著導軌26而朝向偏光片ρ滑動》 當滑動元件30與偏光片ρ接觸時,將鉗夹桿61, 62樞轉 至鎖合位置(請見圖1及12),其配置為橫向。 在此操作中,形成為上移動部41弧形板狀之上表面會 被壓制住,而兩端之壓制部42則會拉制下移動部51,且下 1〇移動部51係與殼體20之内板接觸,據此,滑動元件30係固 定於預定位置。亦即,滑動元件3〇不會滑動,而是固定於 該位置上。 如上所述,藉由滑動元件3〇,可輕易限制住具有不同 尺寸的偏光片Ρ。由於滑動元件3〇係嵌入於殼體2〇内板上之 15導軌26中,故可減少零件數及產品重量,且相較於相關領 域之運載盒,其易於組裝,且由於是藉由殼體2〇之内板及 滑動元件30來配置偏光片ρ,故偏光片無特定之配置方式。 再者,本發明滑動元件30之結構可輕易移動及提供鎖合力。 20 【圖式簡單說明】 圖1係本發明殼體及殼蓋之透視圖。 圖2係本發明殼體底部之示意圖。 圖3係本發明殼體俯視圖。 圖4係本發明殼體透視圖。 15 1376341 圖5係本發明滑動元件示意圖。 圖6係本發明滑動元件分解圖。 圖7係本發明下移動部示意圖。 圖8係本發明鉗失桿示意圖。 5圖9係本發明鉗夾桿與轉動栓間連結關係示意圖》 圖10係本發明鉗夾桿與另一具體實施例之轉動栓間連結關 係不意圖。 圖11係圖10中鉗夾桿與轉動栓間之連結關係放大圖。 圖12及13係本發明滑動元件鎖固及未鎖固之剖視圖。 0 【主要元件符號說明】 10 殼蓋 11, 25 鎖合件 12 強度強化肋狀物 20 殼體 21 支撐槽 26 導軌 26a 第一部 26b 第二部 27 鎖壁 30 滑動元件 23 手插入槽 24 肋狀物 29 強化支持部 41 上移動部 42 壓制部 43 偏光片支撐元件 44 封閉部 45 指插入槽 46 切開部 51 下移動部 52 組裝導向元件 60 鉗夾組件 61 鉗夾桿 53 墊片 62 控制把 68a, 91 轉動栓 1376341 80 連接抽 81,54 接合孔 55 步階 63 抗阻礙部 64 開孔 65 栓嵌入孔 66 栓鎖凸出元件 69 配置孔 67, 68 轉動栓1376341 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a carrier for storing or carrying a polarizer. 5 [Prior Art] Polarizers are films or glass used in various displays as image information media, such as computers, digital TVs and mobile phones, and are also used in various products such as LCD glass. In addition, technologies have been rapidly developed to achieve clear image quality and versatility. 10 According to this, more accurate and excellent quality, as well as mass production equipment, is necessary for the production of polarizers. Since the polarizer is a product with high precision, it is easily damaged by a slight external force impact, and even a small electrostatic force may produce a poor quality product, so it is necessary to focus on avoiding damage, contamination, and scratching caused by impact. Rub, dust, and temperature and humidity 15 changes. Therefore, the polarizer should be placed in a specific transport (casing) for storage and carrying. ^The carrier of the related art is a two-stage structure with independent internal locators to limit the stack of polarizers. 20 However, since the double-stage structure is separately mounted in the internal positioner in the polarizer carrier of the related art, the number and weight of the parts of the product are increased by 'assembly difficulty' and a specific arrangement is required to stack the polarizers. SUMMARY OF THE INVENTION 1376341 Therefore, the design of the present invention is for overcoming the above problems, and an object of the present invention is to provide a carrier for a polarizer that forms an integrally formed rail structure at the bottom to limit the polarizer. It makes it easy to assemble, and the polarizer does not need a specific configuration, and can reduce the number and weight of parts. 5 The present invention provides a carrier for a polarizer, comprising: a casing having a guide rail on the inner panel as a guide groove shape, and having a lock wall on the inner panel on both sides; a sliding member, the configuration thereof In the guide rail of the housing, sliding along the guide and is fixed to the pre-set position according to the size of the polarizer accommodated in the housing to limit the polarizer, wherein the sliding element comprises: 10 movements at a time , the system is embedded in the guide rail and locked to the lock wall; an upper moving portion is disposed on the lower moving portion, and both ends are in contact with the inner plate of the casing; and a clamp assembly, the clamp is clamped The lower moving portion and the upper moving portion press and fix the upper moving portion on the inner plate of the casing to restrict the polarizer from being at a predetermined position. The polarizer carrying case of the present invention restricts the polarizer by integrally forming the guide rails on the inner panel, which can reduce the number of parts and the weight of the product, and can be easily assembled, and the polarizer does not need to be specifically arranged. [Embodiment] A carrier for a polarizer includes: a casing having a guide rail on the inner panel, 20 rails having a guide groove shape, and a lock wall on the inner panel on both sides thereof; and a sliding member disposed in the casing The guide rail slides along the guide rail, and is fixed to the 敎 position according to the size of the polarizer accommodated in the housing to limit the polarizer. The sliding element comprises: a lower moving portion embedded in the guide rail and locked to the locking wall; an upper moving portion disposed on the lower moving portion, and the inner plates of the two ends of the tether 5 1376341 And a jaw assembly that clamps the lower moving portion and the upper moving portion and presses and fixes the upper moving portion to the inner panel of the housing to restrict the polarizer from being at a predetermined position. One side of the body may be formed with a support groove to support the 5 polarizer accommodated in the casing. If a support groove is formed, when the polarizer accommodated in the casing is pulled out of the casing, the handle is inserted into the support groove, and the polarizer can be easily pulled out. The inner wall of the housing may be formed with a reinforcing support which may have a shaped structure. If a reinforcing support is formed, when stacking or carrying the product, the weight of the inner trough can be avoided or the object therein can cause deformation of the casing, and the reference surface supporting the stacked article can be fixed and supported. Furthermore, since the molding structure replaces the function of the aid, the cleaning operation can be easily performed. Ribs constituting the hand insertion groove on the outer bottom of the casing may be formed on the outer sole 4 of the casing. When the rib forming the hand insertion groove is formed, since the hand can be inserted into the hand insertion groove formed by the rib, the worker can support the outer bottom of the body by hand. To stabilize the carrying case. Furthermore, the ribs avoid separation of the housing when the housing is stacked. The guide rail formed on the inner panel of the housing may include a first portion having a lock wall and a second portion having a width larger than the first portion to allow the lower moving portion of the sliding member to be inserted. When the second portion having a larger width than the first portion is provided, when the sliding member is placed on the rail, the lower portion of the sliding member can be easily inserted through the second portion. The sliding member that slides along the guide includes an upper moving portion, a lower moving portion, and a jaw assembly. 1376341 The upper half of the upper moving portion can be formed into a fox-shaped plate shape. By the sweet clip assembly and the curved plate shape, the pressing force at the bottom of the housing can be increased (4). , 5 light sheet migration Li may have a polarizer support element, when the sliding element limits the bias = sheet, it is attached to the polarizer under the polarizer. If the polarizer support member is formed, when the sliding member slides, the tilting can be prevented from being locked, and the polarizer can be prevented from sinking. Both ends of the lower moving portion may be formed with an assembly guide member that guides the assembly position with the upper moving portion. If the assembly guide member 'is formed when the sliding member slides', the upper moving portion and the lower moving portion can be easily assembled to prevent the moving portion of the upper moving portion disk 10 from being separated. Further, when the assembly guide member is formed, the degree of stability can be increased by increasing the pressing area of the moving portion under the sliding member when the position is fixed. Both ends of the lower moving portion may be formed with a step locked to the lock wall of the rail, and a step may be provided on the step. By forming the gasket, the resistance of the contact surface with the rail lock wall 15 can be increased to improve the retention force of the sliding member. The jaw assembly can include: a connecting shaft that connects the lower moving portion and the upper moving portion and vertically wears a moving portion and an upper moving portion; a rotating bolt disposed at a connecting shaft end at an upper half of the upper moving portion and located in a lateral direction of the longitudinal direction of the connecting shaft; and a clamping lever pivotally connected to the rotating bolt The upper 'pivot is pivoted from the locked position of the 20 fixed polarizer to the unlatched position where the fixed polarizer is removed. According to this, the sliding member can slide along the guide rail by the clamp rod in the unlocked position, which is close to the polarizer that is accommodated in the housing according to the size of the polarizer, and the clamp lever is turned to When the position is locked, the sliding member 7 7376341 is fixed at the corresponding position, whereby the polarizer is restricted to the predetermined position by the fixed sliding members. The jaw bar may include: a rod body that is in contact with the upper surface of the upper moving portion and rotatably disposed on the rotating bolt; and a control handle that is in contact with the jaw rod. The rod body may include: an opening formed along a circumference of the upper surface facing the upper moving portion; and a plug insertion hole formed to be in contact with the opening to be in contact with the opening, and the rotating bolt is rotatable Embedded in it. The latching projection member of the assembly guide member of the rotary pin can be formed in the insertion hole of the plug 10. When the rotating bolt is assembled with the caliper rod, the latching projection element is used for the ambiguous operation interval, which avoids the problem of loose assembly and difficulty in assembly. The rotating bolt can have a bolt embedded in the plug insertion hole, and a bolt that can be locked to the latching protruding member, and is formed with a through hole through the weir insertion portion. Connect the shaft (see Figure 10). Further, the rotating bolt may include: a plug embedding portion disposed at both ends, rotatably embedded in the weir insertion hole of the rod body; and a recess portion formed along the circumference of the center to be formed and worn Through the arrangement hole of the recessed portion, a connecting shaft is arranged in the arrangement hole (see Fig. 9). If a recess is not formed at the center of the rotating bolt (see Fig. 10), it is difficult to completely remove the 20 burrs around the hole after forming the matching hole. Accordingly, the rod body is rotated during assembly/operation. It may result in a wear buckle (see Figure 9); however, if a recess is formed (see Figure 9), wear can be avoided by separating the friction structure from the contact. As used herein, "wearing" means that when two or more components are operated and joined to each other, the 1376341 resistance between the running components causes the contact surface to wear and fall off, which may cause debris and may cause damage to the stacked product. The wear condition when the rotary cymbal is rotated will be explained in detail below with reference to Fig. π'. When turning, the position of the rotating bolt will change, and the rotational resistance will be repeatedly generated between the inner surface of the rod and the burr around the hole of the rotating bolt. According to this, the sharp burr will cut the inner surface of the rod (the rod system is used by The formation of injection molding technology, and thus the generation of debris' causes wear conditions to occur. However, with the structure shown in Fig. 9, the wear condition can be avoided. I. By cutting a part of the control handle, an anti-blocking portion can be formed, whereby the control handle does not hit the upper end of the upper moving portion when the jaw 10 is turned to the unlocked position. Therefore, when in the unlocked position, the control handle can be exposed on the upper end of the upper moving portion. By forming the anti-blocking portion by the cutting portion control, when the control handle is pivoted, even if the control lever is long @, it can be prevented from hitting the upper end of the moving portion 15. In this configuration, when the control is extended to the upper end of the upper moving portion, the worker can still use a small force to smoothly operate the shooting rod. When the length of the control is as described above, the degree of freedom and convenience are improved. 20 Fortunately, the length of the control is 2〇 to 5〇, but the length of the control is not limited to this and the control can be designed to various lengths based on the convenience and the size of the sliding element (4). 9 1376341 In the locked position, it is preferable to apply a strong clamping force to ensure that there is enough space for the worker's finger to approach the control lever of the sweet lever. Therefore, by forming the finger insertion groove, the worker can easily insert his finger into the finger insertion groove to pivot the jaw lever to the unlocked position. 5 A cutting portion may be formed on the side wall of the upper moving portion, whereby the end of the control handle may be exposed on the side wall of the upper moving portion when the clamping lever is at the locking position. By forming the incision, the end of the control can be exposed to the incision when the position is locked, and the worker can easily approach the incision (i.e., the side of the upper moving portion). Therefore, the worker can easily grip the control handle to pivot 10 the clamp lever to the unlocked position. The polarizer carrier of the present invention may further include a cover to close the inner space of the casing and have strength reinforcing ribs to reinforce the strength of the cover. The strength reinforcing ribs may have a formed structure and are formed on the outer surface of the cover or on the inner surface facing the inner space of the housing. 15 By forming strength-reinforced ribs on the cover, internal pressure and/or external pressure during stacking can be prevented from causing deformation. Since the strength reinforcing ribs are formed on the outer surface of the cover, and the ribs are formed on the outer bottom of the casing as described above, the plurality of polarizing moon carriers of the present invention can be stably stacked to avoid stacking. The box is separated. 10 Referring to the drawings, a specific embodiment of the present invention will be described in detail below. As shown in FIG. 1, the polarizer carrier of the present invention comprises: a casing 2, a polarizer P is accommodated therein; and a casing cover 10 which closes the casing 2 (four). A strength reinforcing rib 12 having a molded structure is formed on the outer surface of the casing cover. 1376341 By combining the cover 10 and the housing 20 by the closure members 11, 25, the interior of the housing 20 can be closed. As shown in Fig. 2, the hand insertion groove 23 is formed at the outer bottom of the casing 20 by the rib 24 to stably support and carry the casing 20. As shown in Figs. 1, 3 and 4, a support groove 21 is formed on one side of the casing 20 to support the polarizer P, and a reinforcing structure having a molded structure is formed on the inner side wall of the casing. Furthermore, the guide 26 is formed on the winter inner panel of the casing 20 so that the guide rail can guide the sliding members 邛, which limits the position of the polarizer P according to the size of the polarizer P, and the sliding member 30 is tied to The inner panel 10 slides within the housing 20. The guide 26 is formed in a guide groove shape, and has a lock wall on both sides of the outer casing of the casing 20. The guide rail 26 is composed of a first portion 26a having a lock wall 27 and a second portion 26b having a larger portion than the first portion 26a. In this configuration, both sides of the polarizer P are supported by the inner walls of the casing 20, and the other sides of the polarizer P are restricted by the sliding members 30 disposed in the casing 20. The number of the sliding members 30 is not limited to this. The polarizer P is stacked (stacked) inside the casing 20 by the inner wall of the casing 20 and the sliding member 30. When an additional reference plate is placed adjacent the inside of the housing 20, the various reference angles can be utilized to combine the two reference plates to limit the polarizers in different ways. In this configuration, the design can be changed so that the surface of the polarizer P in contact with the moving portion 41 above the sliding member 30 (described below) can be changed to various angles. 1376341 As shown in FIGS. 1, 5 and 6, the sliding member 30 includes an upper moving portion 41, a lower moving portion 51, and a jaw assembly 60. The jaw assembly 60 is a jaw lower moving portion 51 and an upper moving portion 41. . The upper moving portion 41 is disposed on the lower moving portion 51, and restricts the polarizing plates p, 5 while the both ends are in contact with the inner plate of the casing 20. The upper surface of the upper moving portion 41 is formed in an arcuate plate shape by the jaw assembly 60' to increase the pressing force applied to the inner panel of the casing 20. --- "One - on the upper surface of the upper moving portion 41, an engaging hole 81 is formed at the center, wherein the connecting shaft 80 of the jaw assembly 60 (described below) is embedded in the connecting hole 81 And the pair of finger insertion grooves 45 for the control levers 62, 62 are formed on both sides (described below). Further, the cutting levers 61, 62 (described below) are cut. The portion 46 is formed on both sides of the upper moving portion 41. The pressing portion 42 that is in contact with the inner panel of the casing 20 is formed at both ends of the upper moving portion 4. At the same level as the inner panel F of the casing 20, a polarized light is formed. The sheet supporting member 43 is attached to the surface of the polarizing plate p facing the upper moving portion 41. When the sliding member 30 slides, the tilting causes the locking to be prevented and the polarizing plate p can be prevented from sinking. 20 The upper moving portion 41_ The opposite surface of the surface on which the polarizer support member 43 is formed is formed with a closing portion 44 which is embedded in the guide rail 26. As shown in Figs. 1 and 5 to 7, the lower moving portion 51 is easily inserted through the second portion 26b. Wherein the width of the guide rail 26 is large, and when locked to the lock wall 27 of the first portion 26a, the lower moving portion 51 is coupled to the upper moving portion 41 12 1376341 As shown in FIGS. 5 to 7, the lower moving portion 51 has a joint 54 at the center (the connecting shaft 8 of the jaw assembly 60 is disposed therein (the two ends are locked to the lock wall 27 below). The step 55, the lining 52 disposed on the step 55, and the assembly guide member 52' disposed at the step 55, wherein the assembly guide member 52 is used to guide the assembly position and the upper moving portion 41. As shown in Fig. 6, the jaw assembly 6 clamps the lower moving portion 5 and the upper moving portion 41, and presses and fixes the moving portion 41 at the position where the inner plate of the casing 20 restricts the polarizer p. The clip assembly 60 includes a connecting shaft 80, a rotating bolt 68a, 91, and a clamping lever 10 61, 62. The connecting shaft 80 connects the lower moving portion 51 and the upper moving portion 41, and vertically passes through the lower moving portion 51 and the upper moving portion 41. The connecting shaft 80 is disposed in the rotating bolts 68a, 91 through the engaging hole 54 of the lower moving portion 51, the engaging hole of the upper moving portion 41, and the spacer 53' provided on the upper surface of the upper moving portion 41. 15 Pliers The clamping levers 61, 62 are pivotally connected to the rotating bolts 68a, 91, and are pivoted from the locking position of the fixed polarizer P (see Figures 1 and 12). Remove the unfixed position of the fixed polarizer p (see Figures 5 and 13). As shown in Figures 1 and 12, the locking position of the jaws 61, 62 means that the jaws 61, 62 are located in the sliding member. 30 does not move and fix the lateral direction. In detail, the moving portion 51 disposed under the cushion 53 is strongly pressed by the i 2 〇 jaw assembly 60 ′ together with the upper moving portion 41 and fixes the guide of the housing 20 26. The pressing force is determined by the strength (elasticity) and the amount of overlap of the material. As shown in Figures 5 and 13, the unlatched position of the jaws 61, 62 means that the jaws 61, 62 are located along the sliding member 30. The longitudinal direction in which the guide rail 26 slides. 13 1376341 Clamping levers 61, 62 include: a rod body 61 that is in contact with the upper surface of the upper moving portion 41 and rotatably disposed on the rotating bolts 68 &91; and a control lever 62 The rod body 61 is formed in a body. Further, as shown in Fig. 8, by cutting the partial control lever 62, an anti-5 obstruction portion 63 can be formed, whereby when the clamp-like specimens 61, 68 are pivoted to the unlocked position, the control handle 62 is not It will hit the upper end of the upper moving portion 41. Therefore, when in the unlocked position, the control handle 62 can be exposed on the upper end of the upper moving portion 41. The rod body 61 includes: an opening 64 formed along a circumference of the upper surface facing the upper moving portion 41; And a plug-in insertion hole 65 is formed in contact with the opening 64 to be in contact with the opening 64, and the rotary bolts 68a, 91 are rotatably embedded therein. In this configuration, the connecting shaft 8 is disposed in the rotating bolts 68a, 91 through the opening 64. The latching projection members 66 of the assembly guide members of the rotary pins 68a, 91 are formed in the plug insertion holes 65. The rotary bolts 68a, 91 are disposed in the lateral direction of the longitudinal direction of the connecting shaft 8〇 through the connecting shaft 8〇-end' passing through the opening 64 at the upper half of the upper moving portion 41. As shown in Fig. 9, the 'rotating turns 68a', 91 have a plug fitting portion 68a rotatably fitted in the plug insertion hole 65 of the rod body 61, and a recessed portion 91 formed at the center. A arranging hole 69 is formed through the recessed portion 91, and the arranging hole 69 is provided with a connecting shaft 80-end through which the opening 64 passes. For example, as shown in Fig. 1A, the rotary pins 67, 68 have a plug insertion portion 68 rotatably fitted in the plug insertion hole 65, and a mortise 67 which is lockable to the yoke projection member 66. Further, an arrangement hole 69 is formed through the plug insertion portion 68, and a connection shaft 80-end passing through the opening 64 is disposed in the arrangement hole 69.丄 376341 "(d) 爹 圆 1、 1, 5, 12 and 13, hereinafter, a method of fixing a polarizer disposed in the polarizer carrier of the present invention will be described. The two sides of the polarizer are in close contact with the inner walls of the casing 20, and are located at The jaws 61, 62 of the unlatched position (see Figs. 5 and 13) are disposed in the longitudinal direction, and the sliding member 3〇5 slides along the guide rail 26 toward the polarizer ρ. When the sliding member 30 comes into contact with the polarizer p, The jaws 61, 62 are pivoted to the locked position (see Figures 1 and 12), which are configured to be lateral. In this operation, the upper surface of the curved portion formed by the upper moving portion 41 is pressed, The pressing portion 42 at both ends pulls the lower moving portion 51, and the lower moving portion 51 is in contact with the inner panel of the casing 20, whereby the sliding member 30 is fixed at a predetermined position. That is, the sliding member 3〇 does not slide, but is fixed at this position. As described above, the polarizer 具有 having different sizes can be easily restrained by the sliding member 3〇. Since the sliding member 3 is embedded in the housing 2〇 In the 15 rails 26 on the board, the number of parts and the weight of the product can be reduced, compared with related fields. The carrier is easy to assemble, and since the polarizer ρ is disposed by the inner plate of the casing 2 and the sliding member 30, the polarizer has no specific arrangement. Further, the structure of the sliding member 30 of the present invention can be easily Figure 1 is a perspective view of the casing and the cover of the present invention. Figure 2 is a schematic view of the bottom of the casing of the present invention. Figure 3 is a plan view of the casing of the present invention. Fig. 5 is a schematic view of a sliding member of the present invention. Fig. 6 is an exploded view of the sliding member of the present invention. Fig. 7 is a schematic view of the lower moving portion of the present invention. Fig. 8 is a schematic view of the clamp lever of the present invention. 9 is a schematic view showing the connection relationship between the clamp lever and the rotary bolt of the present invention. Fig. 10 is a schematic view showing the connection relationship between the clamp lever of the present invention and the rotary bolt of another embodiment. Fig. 11 is a clamp lever and a rotary bolt of Fig. 10. Fig. 12 and Fig. 13 are cross-sectional views showing the locking and unlocking of the sliding member of the present invention. 0 [Description of main components] 10 Housing cover 11, 25 Locking member 12 Strength reinforcing rib 20 Housing 21 support groove 26 guide 26a first portion 26b second portion 27 lock wall 30 sliding member 23 hand insertion groove 24 rib 29 reinforcing support portion 41 upper moving portion 42 pressing portion 43 polarizer supporting member 44 closing portion 45 finger insertion groove 46 under cutting portion 51 Moving part 52 Assembling guide element 60 Clamping unit 61 Clamping rod 53 Shim 62 Control 68a, 91 Rotating bolt 1374341 80 Connection pumping 81, 54 Engagement hole 55 Step 63 Anti-obstruction part 64 Opening 65 Bolt insertion hole 66 Bolt Lock projection element 69 configuration hole 67, 68 rotation bolt
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