201036909 六、發明說明: 【發明所屬之技術領域】 . 本發明係有關於一種當保持搬送線鋸機之主輥時、; 安裝於線鋸機之軸承單元時、及自線鋸機之輛承元2主輥 輥時所利用之升降機、以及利用升降機之主輥搬送方斥卸主 【先前技術】 $ ^ ° ο 線鑛機係將祕多$捲繞於多個线,,並使行進 下之据線壓緊半導體等工件,藉此將工件切割成既定之二 度。於組⑽_機時’需麵行將主輥安裝於軸承單-子 作業。又’於域磨損時、或者工件之切割規格改變時= 鑛機之使用者方面需要進行將域自主報之軸 张 卸,並將另外之主輥安裳於轴承單元之作業。 几 專利文獻1揭示有用於搬送主觀之移動台車⑹。 〇 所示,該移動台車163係將作為主報之加工用幸昆ιΐ5 117載置於輥座台165上之m卹以“ / 1Α 6 ' 祕力上之凹心5&進行搬送,並賴座台 165升降,而將加工用輕m 117導引至易於安_ 線鑛機101之高度位置。之後,作業員使輥座台165上^ 工用親115、116、117自輥座台165雜至下 _ 或者上側軌道62A之上,並使鱗加工賴1157 相對線鑛機ΚΠ—之軸承單元定位後,於該位置處將加工用幸昆 115、116、1Π女裳於轴承單元。 然而,當主輥較重時,將 將無法於輥座台165上或執道 099106725 3 201036909 62A、62B上進行滚動,此狀態下作業性極差。又,加工用 幸昆115、116、117對軸承單元之定位亦隨著重量增加而成為 困難之作業,導致有其作業會花費較長作業時間之作業效率 上之問題。 [先行技術文獻] [專利文獻] [專利文獻1]日本專利特開2002 —283209號公報 【發明内容】 (發明所欲解決之問題) 因此,本發明之課題在於:於線鋸機之主輥用升降機中, 當升降或搬送具有重量之主輥、或對線鋸機之軸承單元安裝 及拆卸主輥時,可容易進行主輥高度方向或橫向調整等之作 業。 (解決問題之手段) 根據上述課題,本發明係由相對台車之支柱可自由升降之 升降部及可相對升降部橫向移動之橫移部,而構成主輥用升 降機,且由安裝於橫移部之貨叉來支撐主輥,並由附屬於貨 叉之約束桿,而使主輥成為制動狀態,同時藉由升降部及橫 移部之功能,而可沿高度方向及橫向來定位主輥。 以下更進一步具體說明,本發明之主輥用升降機(1)係包 括:台車(3),具有升降導引用之支柱(2);升降部(4),由支 柱(2)支撐,且沿支柱(2)可自由升降;橫移部(5),由升降部 099106725 4 201036909 (4)支樓’可橫向移動;一對貨叉(fork)(9),安裝於橫移部(5), 且具有承載作為搬送.保持對象的線銀機之主輕(1 〇)兩端之 軸轂(boss)(ll)的輥座(8);及約束桿(12),約束一對貨又 之輥座(8)上之軸轂(21)(第1發明)。 升降部(4)具備作為升降部(4)之附屬裝置的升降驅動裝置 (π)。升降驅動裝置(17)係包括:電池(13),搭載於台車 側;升降用之馬達(14),藉由安裝於台車(3)之支柱(2)側之 Ο 電池(13)而被驅動;及傳遞手段(15、16),安裝於台車(3)之 支柱(2)側,藉由馬達(14)之旋轉而被驅動,以沿升降方向驅 動升降部(4)(第2發明)。 k移部(5)具備作為橫移部5之附屬裝置的橫移驅動裝置 (21)。橫移驅動裝置(21)係包括:橫向饋進螺桿軸(19),安 裝於升降。卩(4) ’可進行旋轉操作;及橫向饋進螺帽(〗〇),安 袭於橫移部(5)’且與橫向饋㈣桿軸⑽聯結而形成螺紋對 〇 (第3發明)。 、,仏移部(5)係由水平方向之支軸⑹而可擺動自如地支撐水 平奴正部⑺,且於水平校正部⑺安裝-對貨叉(9)(第4發 、月\水平;kiE部⑺具備作為水平校正部⑺謂屬裝置的水 料正驅動農置(26)。水平校正驅動裝置⑽係包含:水平 心正饋進螺桿軸(23),㈣於橫移部⑺,且可進行旋轉操 、尺平&正饋進螺帽(25),由水平方向之聯結軸(24)而安 尺平k正部⑺’且與水平校正饋進螺桿軸⑺)聯結而形 099106725 5 201036909 成螺紋對(第5發明)。 又,約束桿(12)係由水平方向之支點軸(27)而可轉動自由 地安裝於各貨叉(9),且使約束桿(12)可卡止並固定於各貨又 (9)(第6發明)。 更進一步’主輥搬送方法為利用主輥用升降機(1)及搬送 箱(50)來搬送主輥(1〇)之方法;將主輥(1〇)於定位狀態下收 納於上表面及前表面可打開之搬送箱(5〇)内並將主軸(1〇)與 搬送箱(50),一併進行搬送,將主輥用升降機(1)之一對貨又 (9) 插入至主輥(10)之軸轂(1丨)下,藉由使貨叉(9)上升,而將 主輥(10)自搬送箱(50)内運出,又於搬送箱(50)上藉由使— 對貨叉(9)下降而將由主輥用升降機之一對貨又所支 撐的主輥(1〇)於定位狀態下收納於搬送箱(50)内,藉由使一 對貨叉(9)後退,而將主輥(10)搬入搬送箱(5〇)内(第7發明)。 (發明效果) 根據本發明之主親用升降機(1 ),可於由一對貨又(9)承载 線鋸機之主輥(1〇)兩端之軸轂(11)之狀態下,藉由升降部(4) 及橫移部(5)而沿上下方向及橫向進行移動或位置調整。因 此,可易於進行將主輥(10)定位至線鋸機之一對軸承單元 (45、46)之作業,而可效率較佳地進行主輥(1〇)之安装或拆 卸作業。又,主輥(10)兩端之軸轂(11)於承载在一對貨又(9) 之輥座(8)上時,因受到約束桿(12)之約束,而不會出現主輥 (10) 墜落或不穩定之狀態,而可使主輥(10)之搬入、安筆 099106725 6 201036909 拆卸、及搬出作業合理化(第i發明)。 二據::於升降部(4)之升降驅動裝置⑼,藉由支柱⑺ 間之傳7段(15、16)而可將升降移動妓為較大之距 而且,、軸組I方式可為沿支注(2)以為馬達(14)進行 驅動之方式(第2發明)。 根據附屬於橫移部4生^ 4 , 1(5)^__置(21)’藉由橫移用手201036909 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a bearing when a main unit of a wire saw machine is held, a bearing unit of a wire saw machine, and a bearing from a wire saw machine The elevator used in the main roller of the element 2, and the main roller of the elevator are used to transport the detaching main body. [Prior Art] The $ ^ ° ο line mining machine winds the Mito $ on multiple lines and makes it go under The wire is pressed against a workpiece such as a semiconductor, thereby cutting the workpiece to a predetermined degree. In the group (10)_machine time, the main roller is required to be mounted on the bearing single-sub-work. In addition, when the field is worn, or when the cutting specifications of the workpiece are changed, the user of the mining machine needs to perform the operation of unloading the shaft of the domain self-reporting and attaching the other main roller to the bearing unit. Several patent documents 1 disclose a mobile trolley (6) for carrying a subject. As shown in the figure, the mobile station 163 is to be transported as a main newspaper, and the m-shirt placed on the roll stand 165 is transported as "/1Α 6 ' on the secret force 5& The table 165 is lifted and lowered, and the processing light m 117 is guided to the height position of the easy-to-wire machine 101. Thereafter, the operator causes the roll stand 165 to work with the pro 115, 116, 117 from the roll stand 165. After the subordinate to the lower _ or the upper rail 62A, and the bearing unit of the scale processing Lai 1157 relative to the line miner 定位, the processing unit will be used in the bearing unit at the position of the Yukun 115, 116, 1 Π. When the main roller is heavy, it will not be able to roll on the roller table 165 or on the road 099106725 3 201036909 62A, 62B. In this state, the workability is extremely poor. Moreover, the processing uses Yukun 115, 116, 117 The positioning of the bearing unit also becomes a difficult task with an increase in weight, resulting in a problem in the work efficiency in which the work takes a long time. [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent JP-A-2002-283209 [Summary of the Invention] (Invented by the Invention) Therefore, an object of the present invention is to easily perform main operation in a main roller elevator for a wire saw machine when lifting or transporting a main roller having a weight or attaching and detaching a main roller to a bearing unit of a wire saw machine. The work of adjusting the height of the roller or the lateral direction. (Means for Solving the Problem) According to the above problem, the present invention constitutes a main roller by a lifting portion that can freely move up and down with respect to the pillar of the trolley and a traverse portion that can move laterally with respect to the lifting portion. The main roller is supported by a fork mounted on the traverse portion, and the main roller is brought into a braking state by the restraining rod attached to the fork, and the function of the lifting portion and the traverse portion is The main roller is positioned in the height direction and the lateral direction. Hereinafter, the main roller elevator (1) of the present invention includes a trolley (3) having a pillar (2) for lifting and lowering guidance, and a lifting portion (4). Supported by the pillars (2) and freely movable up and down along the pillars (2); the traverse section (5) by the lifting section 099106725 4 201036909 (4) The branch can be moved laterally; a pair of forks (9) , installed in the traverse (5), and has a load In order to carry the roller holder (8) of the boss (ll) at both ends of the main light (1 〇) of the wire holding machine of the object, and the restraining rod (12), the roller seat of the pair of goods is restrained ( 8) Upper hub (21) (first invention). The lifting unit (4) includes an elevation driving device (π) as an attachment of the lifting portion (4). The lifting driving device (17) includes a battery (13). ) mounted on the trolley side; the motor (14) for lifting is driven by the battery (13) mounted on the side of the pillar (2) of the trolley (3); and the transmission means (15, 16) are attached to The side of the pillar (2) of the trolley (3) is driven by the rotation of the motor (14) to drive the lifting portion (4) in the lifting direction (second invention). The k shifting portion (5) is provided with a traverse driving device (21) as an attachment of the traverse portion 5. The traverse drive (21) includes a lateral feed screw shaft (19) that is mounted on the lift.卩(4) 'can be rotated; and the lateral feed nut (〗 〖) is mounted on the traverse portion (5)' and is coupled with the transverse feed (four) rod shaft (10) to form a thread pair (third invention) . The shifting portion (5) is slidably supported by the horizontal fulcrum (6) in the horizontal direction (7), and is mounted on the horizontal correcting portion (7) - the fork (9) (fourth, month\level) The kiE unit (7) is provided with a water material positive driving farm (26) as a horizontal correcting unit (7). The horizontal correcting driving device (10) includes a horizontal center positive feed screw shaft (23) and (4) a traverse portion (7). And can be rotated, leveled & positive feed nut (25), connected by horizontal joint shaft (24) and flat k positive (7) ' and horizontal correction feed screw shaft (7) 099106725 5 201036909 Threaded pair (5th invention). Further, the restraining rod (12) is rotatably attached to each fork (9) by a fulcrum shaft (27) in the horizontal direction, and the restraining rod (12) can be locked and fixed to each item (9) (Sixth invention). Further, the main roller transport method is a method of transporting the main roller (1 〇) by using the main roller elevator (1) and the transfer tank (50); and the main roller (1 〇) is housed on the upper surface and before the positioning state. The transfer box (5〇) with the surface openable and the main shaft (1〇) and the transfer box (50) are transported together, and the main roll lifter (1) is inserted into the main roll again (9). (10) Under the hub (1丨), the main roller (10) is carried out from the transfer box (50) by raising the fork (9), and by the transfer box (50) — When the fork (9) is lowered, the main roller (1〇) supported by one of the main roller elevators is stored in the transport box (50) in a positioned state, by making a pair of forks (9) After the retreat, the main roller (10) is carried into the transfer box (5 〇) (the seventh invention). (Effect of the Invention) According to the present invention, the main-use elevator (1) can be borrowed from a state in which the hub (11) at both ends of the main roller (1〇) of the wire sawing machine is carried by a pair of goods (9). The lifting portion (4) and the traverse portion (5) are moved or adjusted in the vertical direction and the lateral direction. Therefore, the operation of positioning the main roller (10) to one of the pair of wire sawing machines (45, 46) can be easily performed, and the mounting or detaching operation of the main roller (1 〇) can be performed efficiently. Moreover, when the hub (11) at both ends of the main roller (10) is carried on the roller seat (8) of a pair of goods (9), it is restrained by the restraining rod (12), and the main roller does not appear. (10) In the state of falling or unstable, it is possible to rationalize the removal of the main roller (10) and the removal of the pen 099106725 6 201036909 (the i-th invention). According to the following data: The lifting and lowering device (9) of the lifting section (4) can move the lifting movement to a larger distance by the 7th section (15, 16) between the pillars (7), and the shaft group I mode can be The method of driving the motor (14) along the branch (2) (second invention). According to the traverse portion 4, the ^4, 1(5)^__set (21)' is traversed by hand
)之&㈣作’而使橫移部(5)相對升降部⑷橫向移 因此可!於進仃純⑽横向之位置驢,可簡單且效 率較佳地將^⑽料定位錢耗之—對軸承單元 46)(第3發明)。再者,因橫向饋進螺桿轴(η)與棒向 饋進螺帽⑽之螺旋作用(抑止與操作時之反向力作用广、而 於橫移後橫移部(5)不會沿橫向竄動(第3發明)。 橫移部⑺係由水平方向之支軸(6)而可擺動自由地支撐水 平校正部⑺’絲將—對貨又⑼安裝於水平校正部⑺,則 易於進仃域(1G)之傾斜校正或水平校正作業(第*發明)。 根據附屬於水平校正部⑺之水平校正驅動裝置⑽,當 杈正部⑺傾斜時,藉由使安裝於橫移部⑺之水平校正調整 用手柄(雖轉’財平校正饋進螺祕(23)與水平校正於 進螺帽⑼之觀對,峋水平校正部⑺進行水平校正貝 此主輕(10)亦達到水平,而可效率較佳地將主輥⑽組裝於 線錯機、或自線鑛機中拆卸主姉〇)之作業(第5發明)。又, 在水平;k正後’水平校正部⑺因水平校正饋進螺捍轴⑵)The & (4) is used to make the traverse portion (5) move laterally relative to the lifting portion (4). In the position of Yu Jinshun (10) in the lateral direction, it is simple and efficient to position the material of the (10) material to the bearing unit 46) (third invention). Furthermore, due to the transverse feeding of the screw shaft (η) and the rod feeding screw (10) spiral action (suppressing the reverse force with the operation, the traverse portion (5) does not follow the lateral direction after the traverse (3rd invention) The traverse portion (7) is slidably supported by the support shaft (6) in the horizontal direction, and the horizontal correction portion (7) is attached to the horizontal correction portion (7). Tilt correction or horizontal correction operation (* invention) of the 仃 field (1G). According to the horizontal correction driving device (10) attached to the horizontal correction unit (7), when the 杈 portion (7) is inclined, it is attached to the traverse portion (7) The horizontal correction adjustment handle (although turning the 'Fei Ping correction feed screw (23) and the horizontal correction to the nut (9), the horizontal correction unit (7) performs horizontal correction, and the main light (10) also reaches the level. Further, it is possible to efficiently assemble the main roller (10) to the wire-disconnecting machine or to disassemble the main boring machine from the wire miner (the fifth invention). Also, at the level; k after the 'horizontal correction unit (7) due to the level Correction feed screw shaft (2)
099106725 201036909 與水平校正饋進螺帽(25)之螺旋作用、亦即抑止與操作時之 反向力作用,而不會因受到主輥(1〇)之載重而傾斜(第5發 明)。 於約束桿(12)之放開時及約束桿(12)對主輥(1〇)之約束 日^,由於約束桿(12)卡止於一對貨又(9),而玎預防當約束桿 (12)放開時約束桿(12)突然閉合,又,可預防當約束桿(12) 對主輥(10)約束時,因約束桿(12)意外放開而造成主輥(1〇) 墜落事故等於未然,對於安全性亦較為有利(第6發明)。 更進一步,根據採用主輥用升降機(1)及搬送箱(50)之主輥 搬送方法,由於主輥(1〇)係收納於搬送箱(5〇)内,故可確實 防止搬送過程中主輥(1〇)之損傷,又,搬送箱(5〇)之上表面 及韵表面可打開,且主輥(10)於定位狀態下收納於搬送箱(5〇) 之内部,因此,於自搬送箱(5〇)運出主輥(1〇)、及將主輥(1〇) 運入搬送箱(50)時,可不受阻礙地進行主輥用升降機(丨)之一 對貨叉(9)之插入、進退及升降動作,而可效率較佳地以主 輥用升降機(1)來搬送主輥(1〇)(第7發明)。 【實施方式】 圖1至圖3係表示本發明主輥用升降機1之整體構成,圖 4至圖9係表示各部分之構造。如圖丨至圖3所示,主輥用 升降機1具備有台車3、升降部4、橫移部5、水平校正部7、 一對貨叉9及約束桿12,以承載作為搬送.保持對象的線鋸 機之主輥10。 099106725 8 201036909 台車3係牽引或手推式構成者其包含於前方左右位置上 方向固定之車輪31、於後方左右位置-邊之腳輪車32、及 邊之附帶手柄3〇可變換方向之萬向車33,而於略後方 之位置具有左右-料降導㈣支柱2。手柄%被拉伸彈 發69賦予始終直立之勢能。再者,於支柱2之背面側附設 有手推用手柄61。 於台車3之前方中央位置處,視需要而沿前進方向設置有 〇左右對向之多個定位導輕66。該等定位導輕66於么車3前 進時,如下述圖14所例示,將被導引至底板等上所形成之 .定位導件65。再者,亦可#由於腳輪車%、萬向車μ兩者 或任—者中附設馬達,而使台車3構成為自行式。 如圖4所示’升降部4位於例如c型鋼之—對支柱2之 間噶由左右上下之導幸昆34而被設為可沿支柱2自由升降, 亚猎由附屬於升降部4之升降驅動裝置口而 〇 進行驅動。 如圖1至圖5所示,升降驅動裝置π包括有 搭餅台車3;升降用之馬達14,安裝於奸結 板35月面;鏈輪16,安裝於一 無端狀—捲繞於該等鏈輪16 :間 =二支柱2之間之"而成為聯結部,且藉由該聯结 f之附件60而聯結於升降部4。 馬達14為附帶減速器之馬達,由電池13之電力所驅動, 099106725 201036909 且使此時之輸出旋轉減速後,使上側之鏈輪16旋轉,藉此 沿任一方向驅動鏈條Μ,而使與鏈條15之附件6〇聯結之 升降部4沿支柱2上升或者下降。馬達14中所内置之減速 器除自身之減速功能外’且亦具有所謂之自動制動作用(停 止功能)’即便受到因施加於升降部4之載重所引起之反向 驅動而亦不會使鏈條15或鏈輪16旋轉,而可將升降部4 維持在既定之高度。 上述鏈輪16或鏈條15構成受馬達14驅動且可沿升降方 向驅動升降部4之傳遞手段,但該傳遞手段除鏈條·鏈輪 外,亦可採用正時皮帶與正時滑輪、齒條與小齒輪、及饋進 螺桿與饋進嫘帽等。又,上述停止功能亦可不依賴馬達14 中所内置減速器之自動制動作用,而是將馬達14作為附設 制動手段者,藉由制動手段而確保馬達14之停機位置。 除圖1至圖3以外,亦如圖6及圖7所示,橫移部5位於 升降部4之前表面,且於可藉由上下左右之輥36沿升降部 4前表面所箏行安裝之C型鋼製上下一對導執37於各支柱 2前行之方向、即沿橫向而進行移動的狀態下,支撐於升降 部4,並受到附屬於橫移部5之橫移驅動裝置21的橫向驅 動。 如圖7所示,橫移驅動裝置21係包括由升降部4支撐而 可以橫移用爭柄18進行操作之橫向饋進螺桿軸19、安裝於 橫移部5且與橫向饋進螺桿軸19聯結而形成螺紋對之橫向 099106725 10 201036909 饋m,20。於該例中,横移用之手柄18自背面觀看下係 貝•’且在朝向背面之狀態下可旋轉自由地安裝於齒輪 才目38 ’以使作業者容易在背面位置進行操作。手柄之旋 轉精由齒輪箱38内部之—對斜齒輪39、4〇而傳遞至與手柄 18軸呈直角方向之橫向饋進螺桿軸19 ’而使橫向饋進螺帽 2〇沿橫向饋進螺桿軸19之方向橫移。再者,橫向饋進螺桿 ο 軸19之旋轉操作亦可取代手柄18,㈣專用之馬達施行。 又,除圖1至圖3以外,亦如圖8及圖9所示,水平校正 部7設置目的在於將—對貨又9可擺動自由地安裝於橫移部 5 ’其位於橫移部5之前表面,由±往下觀看下呈〕字狀, 於相對橫移部5為中央之上側位置處由水平之前後方向支 軸6支撐。藉由支軸6之切結構,水平校正部7於前面觀 看下相對橫移部5如擺錘_動,且可藉由附屬於水平校正 〇 部7之水平校正義裝置26之操作而沿水平校正方向進行 傾斜調整。 再者’支軸6係固定於横移部5之前表面,可相對水平校 正部7之例如滑動形式之轴承部%而自由旋轉,但其亦可 反過來,固定於水平校正部7之背面,相對橫移部5之軸承 部7〇而自由旋轉。又’於水平校正部7與橫移部5之間插 入有多個承她73。承載輥73固定於水平校正部7之背面 或橫移部5之前表面以料轉校”7之觸並承载該水 平校正部7之下部,該等承載輕73之轴線與支轴6之中心 099106725 201036909 線呈相交叉之位置關係。 如圖8及圖9所示,水平校正驅動 校正饋進螺桿軸23,可由横移部5所\ 26包括有:水平 用之手柄22進行操作;及水平校 j之水平权正调整 貝進螺帽25,藉由水平 方向24崎裝於水平校正部7。水平校正饋進螺 帽25可沿水平校正部7之聯結轴以之水平抽線方向而自由 婦,且與水平校正饋進螺桿軸23聯結而形成螺紋對。再 二來進行水平校正饋進 螺才干釉23之旋轉操作。 =敎巾,柯校正娜狀手柄22㈣面 =易I:於低於手柄18之位置處而朝向背面,以使作 f^位置進行操作,其並安I於齒輪箱41中。 音二正㈣用手柄22之旋轉係經由齒輪箱 斜齒輪42、43而傳遞至相對手柄 二十 校正饋進螺桿軸23 ,.、、角方向之水平 . 史尺千枚正饋進螺帽25移動。再者, 心…7讀於水平校正部 橫移部5的刻度板68之刻度。 之心針“女裝於 而且、水平杈正部7於前表面側具有—對貨叉$ 為搬送.保持對象之線鑛機之主輥I對 平校正部8錢敎料安褒於水 10之軸〜η,且由: — ”工右聯結而用於補強。 12 201036909 約束桿12為用以約束由親座8所承载之軸轂u者,A位 於各貨又9之外側位置,且於中間位置由水平方向之支點 27而可轉動自由地安裝於貨叉9’其1具有純座k圓 弧狀承載墊片64相對應之圓弧狀壓墊 . ^ 丹乃一知具有公 度柱塞28。分度柱塞28藉由内嵌彈簧之賦勢力而嵌入至各 貨叉9側面所形成之i個或者2個以上之卡止孔29 約束桿12成為止轉狀態。099106725 201036909 The spiral action of the horizontal correction feed nut (25), that is, the suppression of the reverse force during operation, is not inclined by the load of the main roller (1〇) (5th invention). When the restraining rod (12) is released and the restraining rod (12) is restrained on the main roller (1〇), the restraining rod (12) is locked in a pair of goods (9), and the restraint is restrained. When the rod (12) is released, the restraining rod (12) is suddenly closed, and further, when the restraining rod (12) is restrained by the main roller (10), the main roller (1〇) is caused by the accidental release of the restraining rod (12). The fall accident is equal to the prior, and it is also advantageous for safety (the sixth invention). Further, according to the main roller conveying method using the main roller elevator (1) and the conveying box (50), since the main roller (1〇) is housed in the transfer box (5〇), it is possible to surely prevent the main conveyance process. The damage of the roller (1〇), and the upper surface and the rhythm surface of the transfer box (5〇) can be opened, and the main roller (10) is housed inside the transfer box (5〇) in the positioned state, therefore, When the transport box (5〇) transports the main roller (1〇) and the main roller (1〇) into the transport box (50), the fork of the main roller lift (丨) can be unimpeded ( 9) Insertion, advancement and retreat, and lifting operation, and it is possible to efficiently carry the main roller (1) by the main roller elevator (1) (the seventh invention). [Embodiment] Figs. 1 to 3 show the overall configuration of a main roller elevator 1 of the present invention, and Figs. 4 to 9 show the construction of each portion. As shown in FIG. 3, the main roller elevator 1 includes a carriage 3, a lifting unit 4, a traverse unit 5, a level correcting unit 7, a pair of forks 9, and a restraining rod 12, and is carried as a transporting and holding object. The main roller 10 of the wire saw machine. 099106725 8 201036909 The trolley 3 series traction or hand push type consists of a wheel 31 fixed in the direction of the front left and right position, a rear wheel left and right position - the side wheel bicycle 32, and the side handle 3 〇 can change the direction of the universal direction The car 33 has a left and right material guide (four) pillar 2 at a position slightly behind. The handle % is stretched by the spring 69 to impart an erect potential energy. Further, a hand grip 61 is attached to the back side of the pillar 2. At a central position in front of the trolley 3, a plurality of positioning guides 66 are disposed in the forward direction as needed in the forward direction. The positioning guides 66 are guided to the positioning guide 65 formed on the bottom plate or the like as illustrated in Fig. 14 below. Furthermore, the trolley 3 may be configured to be self-propelled because either the caster % or the universal car μ is attached to the motor. As shown in FIG. 4, the 'lifting portion 4 is located, for example, between the c-shaped steels and the pair of the pillars 2, and is guided by the left and right guides, and is arranged to be freely movable up and down along the pillars 2, and the sub-hunting is carried out by the lifting and lowering of the lifting portion 4. The drive unit is driven by the port. As shown in FIG. 1 to FIG. 5, the lifting drive device π includes a cake trolley 3; the motor 14 for lifting and lowering is mounted on the smuggling plate 35; the sprocket 16 is mounted on an endless shape-wound thereon. The sprocket 16 is between the two pillars 2 and becomes a joint portion, and is coupled to the lift portion 4 by the attachment 60 of the joint f. The motor 14 is a motor with a speed reducer, and is driven by the electric power of the battery 13, 099106725 201036909, and after decelerating the output rotation at this time, the upper sprocket 16 is rotated, thereby driving the chain 沿 in either direction, and The attachment 6 of the chain 15 is connected or lowered along the support 2 to rise or fall. The speed reducer built in the motor 14 has a so-called automatic braking action (stop function) in addition to its own deceleration function, and does not cause the chain to be driven even by the reverse driving caused by the load applied to the lifting portion 4. 15 or the sprocket 16 rotates to maintain the lift 4 at a predetermined height. The sprocket 16 or the chain 15 constitutes a transmission means driven by the motor 14 and can drive the lifting portion 4 in the lifting direction. However, in addition to the chain sprocket, the transmission means can also use a timing belt and a timing pulley and a rack. Pinion gears, and feed screws and feed caps. Further, the above-described stopping function may ensure the stop position of the motor 14 by the braking means without depending on the automatic braking action of the speed reducer built in the motor 14, and the motor 14 as the brake means. In addition to FIG. 1 to FIG. 3, as shown in FIG. 6 and FIG. 7, the traverse portion 5 is located on the front surface of the lifting portion 4, and can be mounted on the front surface of the lifting portion 4 by the upper and lower left and right rollers 36. The C-steel upper and lower guides 37 are supported by the lifting portion 4 in a direction in which the respective pillars 2 are advanced, that is, in a state of being moved in the lateral direction, and are subjected to the traverse driving device 21 attached to the traverse portion 5. Lateral drive. As shown in Fig. 7, the traverse drive unit 21 includes a lateral feed screw shaft 19 supported by the lift unit 4 and traversable with the handle 18, mounted to the traverse portion 5 and fed laterally to the screw shaft 19 The joint is formed to form a thread pair of the horizontal 099106725 10 201036909 feed m, 20. In this example, the handle 18 for traverse is rotatably attached to the gear head 38' from the rear side and is rotatably attached to the gear head 38' to allow the operator to easily operate at the back position. The rotation of the handle is transmitted from the inside of the gearbox 38 to the helical gears 39, 4〇 to the transversely fed screw shaft 19' at a right angle to the axis of the handle 18, and the transverse feed nut 2〇 is fed into the screw in the transverse direction. The direction of the shaft 19 is traversed. Furthermore, the lateral feed screw ο the rotation of the shaft 19 can also be substituted for the handle 18, and (4) a dedicated motor. Further, in addition to FIG. 1 to FIG. 3, as shown in FIGS. 8 and 9, the horizontal correcting unit 7 is provided in such a manner that the pair of goods 9 is swingably and freely attached to the traverse portion 5' which is located at the traverse portion 5 The front surface is in the shape of a U-shaped downward view, and is supported by the horizontal front and rear fulcrums 6 at a position above the center of the traverse portion 5. By the cutting structure of the fulcrum 6, the horizontal correcting portion 7 is tilted and moved relative to the traverse portion 5 as viewed from the front, and can be horizontally operated by the operation of the horizontal correction device 26 attached to the horizontal correction dam portion 7. Adjust the direction to adjust the tilt. Further, the 'support shaft 6 is fixed to the front surface of the traverse portion 5, and is rotatable relative to the bearing portion % of the horizontal correction portion 7, for example, in a sliding manner, but it may be reversely fixed to the back surface of the horizontal correction portion 7, The bearing portion 7 is rotatably rotated relative to the traverse portion 5. Further, a plurality of female members 73 are inserted between the horizontal correcting portion 7 and the traverse portion 5. The carrying roller 73 is fixed to the back surface of the horizontal correcting portion 7 or the front surface of the traverse portion 5 to contact the lower portion of the horizontal correcting portion 7 at the front surface of the traverse portion 7 and the center of the load bearing light 73 and the center of the fulcrum 6 099106725 201036909 The line is in a positional relationship of intersection. As shown in Figures 8 and 9, the horizontal correction drive correction feed screw shaft 23 can be operated by the traverse portion 5 including: the horizontal handle 22; The horizontal weight of the school j is adjusted by the compass nut 25, and is mounted on the horizontal correction portion 7 by the horizontal direction 24. The horizontal correction feed nut 25 can be freely drawn along the coupling axis of the horizontal correction portion 7 in the horizontal direction. And the horizontal correction feeds into the screw shaft 23 to form a thread pair. Secondly, the horizontal correction feeds the screw glaze 23 to rotate. = 敎, Ke correction Na-shaped handle 22 (four) surface = easy I: low At the position of the handle 18, facing the back side, the operation is performed at the position of the handle, and it is placed in the gear box 41. The rotation of the handle 2 is transmitted to the gearbox helical gears 42, 43 via the gearbox helical gears 42, 43 Correcting the feed screw shaft 23, ., angle with respect to the handle twenty To the level. The history of a thousand pieces is feeding into the nut 25 to move. Furthermore, the heart...7 is read on the scale of the scale plate 68 of the horizontal correction unit traverse portion 5. The heart of the needle is "women's clothing, horizontal and horizontal The portion 7 has a pair of forks on the front surface side for transporting. The main roller I of the line miner holding the object is calibrated to the axis of the water 10 to η, and is: - "Work right Bonding is used for reinforcement. 12 201036909 The restraining rod 12 is for restraining the hub u carried by the seat 8, A is located at the outer side of each cargo and 9 and is rotatable by the fulcrum 27 in the horizontal direction at the intermediate position. Freely mounted on the fork 9', 1 has a circular arc-shaped pressure pad corresponding to the pure seat k-arc bearing pad 64. ^ Dan Nai knows that there is a commissure plunger 28. The indexing plunger 28 is used internally. The one or two or more locking holes 29 formed by the springs are embedded in the side faces of the forks 9 to restrain the rod 12 from being in the rotation-stopping state.
而且’圖10至圖13係表示主輕Π)之搬送箱5G。搬送箱 50包括箱本體51、嵌人式前板52、及開關蓋μ等。箱本 體W於前表面及上表面打開,且於左右之内侧面具有下側 之輥座板54。X,開關蓋53.由⑽55而於可開關自由且 可拆卸之狀態下安裝於箱本體52之背面側,*構成 相本體52之上開啟面之平板狀’且於與輥座板%上;相對 應之位置處具有上側之輥約束板56。 輥座板54或輥約束板56係合致主輥1〇之軸轂u外周形 狀而形成半圓弧狀或者v字狀之凹陷。於輥座板54與左= 側面板62之内面之間存在隔件74,該隔件%係抵接轴轂 11之端面而限制主親10之軸線方向之動作。再者,搬送箱 50與普通之貨載用托板相同’於底部之支腳部57之間形成 有又式升降機(fork lifter)之貨叉插入空間,以可由搬送用又 式升降機進行舉起及搬送。 又’前板52可裝卸自由地安裝於左右側面板62之導引样 099106725 13 201036909 201036909 之狀 而成為止 63 ’而為例如嵌入式之一侧。於前板52嵌入導引槽 態(安裝狀態)下’前板52上端被開關蓋53壓住, 脫狀態。 線鋸機之主輥10於定位狀態下收納於搬送箱之内立 並與搬送箱50 —併被搬送。於主輥10之收納狀能 10之軸轂11載置於下方左右之輥座板54’前後左右方向成 為制動狀態,且亦由隔件74限制軸線方向之移動。此處 當作業者關閉開關蓋53後,則軸轂11受到上方左右之觀、、 束板56約束。之後,作業者視需要於搬送箱5〇捆紮包梦用 之打包帶’於關閉狀態下固定開關蓋53。 於搬送箱50之搬送時,作業者駕駛叉式升降機,將又式 升降機之貨叉插入搬送箱50下,將搬送箱5〇與主輥1〇 — 併舉起而搬送至目標之位置。於目標之位置亦以相同之搬送 方式,將搬送箱50卸下至主輥用升降機】附近之位置處。 之後,作業者打開開關蓋53,拉出前板52,將其自搬送箱 50取出,使搬送箱50之上表面及前表面打開,形成可自搬 送相50之中取出主輥1〇之狀態後,使主輥用升降機丨移動 至搬运箱50之附件為止,使主輥用升降機丨自正面與搬送 箱50相向。 之後,作業者於將約束桿12抬起,保持輥座8成為打開 狀態,啟動附帶減速器之馬達14,將左右之貨叉9設定在 適當高度之後’透過台車3前行,而將—對貨叉9插入直主 099106725 14 201036909 輥10之軸轂11下,並使貨叉9上升,於輥座8之承載墊片 64位置處取出軸轂11,接著使其後退後,放下約束桿12, 於輥座8之承載墊片64與約束桿12之壓墊44之間夾著軸 轂11,而自搬送箱50内運出主輥10。於該狀態下,如上所 述,因附帶減速器之馬達14之自動制動作用,升降部4即 使受到主輥10之載重,升降部4亦不會因此時之載重而下 降。 0 其次,作業者使主輥用升降機1之台車3移動至需要安裝 主輥10之線鋸機附近之作業位置處,藉由驅動附帶減速器 之馬達14,而將升降部4調節為線鋸機之左右一對軸承單 元45、46之高度。 圖14係表示將主輥10組裝於線鋸機之轴承單元45、46 之間時之順序。如圖14所例示,在主輥用升降機1之台車 3前進時,若底板或線鋸機之機械空間等形成有定位導件 ❹ 65,則多個定位導輥66將藉由定位導件65而一面被限制位 置一面沿前進方向受到導引,因此,台車3被導引至相對一 對轴承單元45、46而易於作業之合適位置處。再者,定位 導件65與定位導輥66之設置位置亦可更換。 此處,作業者首先如箭頭a所示,調節台車3之前後移動, 而將保持狀態下之主輥10導引至軸承單元45、46之間,使 該等之軸心大致呈一致。 此時,若因洩水斜角(weathered slope)之設定等而於底板 099106725 15 201036909 上存^傾斜度,财又9上之主輥K)亦存在相對水平—對 •^單7G 45、46之t心軸呈傾斜之情形。若認為貨又9上 ^㈣相對水平之-對軸承單以5、46之中心軸傾斜超 過可权正之範圍時,則作業者使水平校正用之手柄^ 進螺桿轴23沿既定之方向旋轉,使水平校正饋進 、、〜左右之方向移動,使水平校正部7以支軸6 心擺動》而使貨叉9上$ 击9 1 λ 丄 * ❹又9上之主輥10之中心線與水平之 承早兀45之h線大致呈一致,由此進行水平校正。 此時之調整量係可視性讀取自指示器6 7與刻度 平狀態被…因丄=:=45係準〜 易水準儀所構成。⑽為67及刻度板68可由市售之簡 =該水平校正作業’而可效率較佳地進行將主轆… 裝至線鑛機或自線鑛機拆卸主親10之作業。再者、'且 校正後,因水平校正饋進螺桿軸23與水平校 水平 Γ走作曝與操料㈣力㈣,轉Γ=25 會因受到主輥10之栽重而傾斜。 m不 2後’作業者沿既定之方向轉浦移狀 “ ㈣饋進螺桿軸19與橫向饋進螺帽2G之螺旋作用8’错由 移部5橫向(水平方& 而使橫 沿中•方二ΓΓ如箭頭b所示’藉〜 八(水平移動),而使軸轂u 一、集 孔47喪入至相對 邊之推拔 軸承早兀45之斜軸48中。 099106725 Λ 狀怒 16 201036909 下,由於橫向饋進螺桿軸19與橫向饋進螺帽2〇之螺旋作用 (抑止與操作時之反向力作用)’因此橫移後横移部$不會横 向竄動。 然後,作業者使套軸狀軸承單元46沿夹隔主親10 向、即箭頭C方向移動’使轴承單元46之斜輪49喪入 山=:1之推拔孔47中。错此,主輥1G藉由推拔部分之 肷σ夾持於一對軸承單元45、46之間 Ο 此,藉由附屬於橫移部5的横移驅動穿 b狀態。轉 作,可簡單且效率較佳地使主輕1〇;;置橫向移動操 元45、46。 位至一對軸承單 最後,作S者如箭㈣所示將固定螺拾 軸承單⑽之中,孔58中,並將其外螺W 轴狀 Μ之㈣紋72,使純1()_於承轴承單 〇 之間。如此-來,主㈣安裝於2個軸承單元^45、46 且其於可與該等軸承單元45、46— 6之間’ 線鋸機中。 得之狀態下組裝於 如上所述,於由一對貨又9承載主輥 之狀態下,藉由升降部4、横移部5及兩端之轴轂η 下方向、横向及傾斜校正方向進行移動或^正部7而沿上 此,易於進行將主⑴〇㈣線錯機之1者位置調整,因 定位或水平校正之作業,而可效率較佳祕承單元45、46 裝或拆卸作業。 地進行主輥10之安 099106725 17 201036909 當自線鋸機中拆卸主輥ίο時,可以與以上動作相反之動 作、亦即藉由一對貨叉9來支撐主輥10,於搬送箱50上經 由一對貨叉9之下降而使該主輥10於定位狀態下收納於搬 送箱50内,並經由一對貨叉9之後退,而將主輥10運入搬 送箱50之内部。 (產業上之可利用性) 本發明係不僅可用於線鋸機之主輥10,而且亦可用於其 他類似報之搬送及組裝。 【圖式簡單說明】 圖1係本發明線鋸機用升降機之俯視圖。 圖2係本發明線鋸機用升降機之側視圖。 圖3係本發明線鋸機用升降機之後視圖。 圖4係本發明線鋸機用升降機中支柱對升降部之支撐結 構之放大水平剖視圖。 圖5係本發明線鋸機用升降機中對於升降部之升降驅動 裝置之放大前視圖。 圖6係本發明線鋸機用升降機中升降部對橫移部之支撐 結構之放大垂直剖視圖。 圖7係本發明線鋸機用升降機中對於橫移部之橫移驅動 裝置之放大水平剖視圖。 圖8係本發明線鋸機用升降機中橫移部對水平校正部之 支撐構造放大前視圖。 099106725 18 201036909 圖9係本發明線鋸機用升降機中對於水平校正部之水平 校正驅動裝置之放大水平剖視圖。 圖10係主親用搬送箱之前視圖。 圖11係主輥用搬送箱於前視下之水平剖視圖。 ' 圖12係主輥用搬送箱之水平剖視圖。 圖13係主輥用搬送箱於側視下之垂直剖視圖。 圖14係當將主輥安裝於線鋸機之一對軸承單元時之水平 ❹ 剖視圖。 圖15係利用習知移動台車而將主輥安裝於線鋸機之一對 軸承單元時之側視圖。 【主要元件符號說明】 1 主輥用升降機 2 支柱 3 台車 4 升降部 5 橫移部 6 支軸 T 水平校正部 8 輥座 9 貨叉 10 主輥 11 軸轂 099106725 19 201036909 12 約束桿 13 電池 14 馬達 15 鏈條 16 鏈輪 17 升降驅動裝置 18 手柄 19 橫向饋進螺桿軸 20 橫向饋進螺帽 21 橫移驅動裝置 22 手柄 23 水平校正饋進螺桿軸 24 聯結軸 25 水平校正饋進螺帽 26 水平校正驅動裝置 27 支點軸 28 分度柱塞 29 卡止孑L 30 手柄 31 車輪 32 腳輪車 33 萬向車 099106725 20 201036909Further, 'Fig. 10 to Fig. 13 show the transfer case 5G of the main tap. The transport box 50 includes a box body 51, an embedded front panel 52, a switch cover μ, and the like. The case body W is opened on the front surface and the upper surface, and has a lower side seat plate 54 on the left and right inner side faces. X, the switch cover 53 is mounted on the back side of the box body 52 by the (10) 55 in a switchable and detachable state, * forming a flat shape of the opening surface above the phase body 52 and on the roller seat plate %; At the corresponding position, there is an upper roller restraining plate 56. The roller seat plate 54 or the roller restraining plate 56 is coupled to the outer peripheral shape of the hub u of the main roller 1 to form a semi-arc or v-shaped depression. Between the roll seat plate 54 and the inner surface of the left side plate 62, there is a spacer 74 which abuts against the end face of the boss 11 to restrict the movement of the main body 10 in the axial direction. Further, the transfer box 50 is formed in the same manner as the ordinary load carrier plate. A fork insertion space of a fork lifter is formed between the leg portions 57 at the bottom so as to be liftable by the transfer lift. And transfer. Further, the front plate 52 is detachably attached to the guide piece 099106725 13 201036909 201036909 of the left and right side panels 62, and is, for example, one side of the embedded side. When the front plate 52 is fitted into the guide groove state (installed state), the upper end of the front plate 52 is pressed by the switch cover 53 to be disengaged. The main roller 10 of the wire saw machine is housed in the transfer box in the positioned state and transported to the transfer case 50. The hub 11 of the storage roll 10 of the main roll 10 is placed in the front, rear, left and right direction of the lower left and right roll seat plates 54' to be in a braking state, and the spacers 74 are also restricted in the axial direction. Here, when the operator closes the switch cover 53, the hub 11 is restrained by the upper and lower sides and the beam plate 56. Thereafter, the operator secures the switch cover 53 in the closed state as needed in the transport box 5 〇 strapping package. When the transfer box 50 is transported, the operator drives the fork lift, inserts the fork of the re-hoist lift into the transfer box 50, and lifts the transfer box 5〇 and the main roll 1 to the target position. At the position of the target, the transfer box 50 is also removed to the position near the main roller lifter by the same transfer method. After that, the operator opens the switch cover 53, pulls out the front plate 52, and takes it out of the transfer box 50, and opens the upper surface and the front surface of the transfer box 50 to form a state in which the main roll 1 can be taken out from the transport phase 50. The main roller lifter is moved to the attachment of the tote 50, and the main roller elevator is opposed to the transfer case 50 from the front. After that, the operator raises the restraining rod 12, keeps the roller seat 8 in an open state, activates the motor 14 with the speed reducer, sets the left and right forks 9 at an appropriate height, and then passes through the trolley 3, and will The fork 9 is inserted into the straight main 099106725 14 201036909 The hub 11 of the roller 10 is lowered, and the fork 9 is raised, the hub 11 is taken out at the position of the bearing pad 64 of the roller seat 8, and then the retracting rod 12 is lowered, and then the restraining rod 12 is lowered. The hub 11 is sandwiched between the carrier pad 64 of the roller holder 8 and the pressure pad 44 of the restraining rod 12, and the main roller 10 is carried out from the conveyor 50. In this state, as described above, the lift portion 4 is subjected to the load of the main roller 10 by the automatic braking action of the motor 14 with the reducer, and the lift portion 4 is not lowered by the load. 0 Next, the operator moves the cart 3 of the main roller elevator 1 to the work position near the jigsaw machine to which the main roller 10 is to be mounted, and the lift unit 4 is adjusted to the wire saw by driving the motor 14 with the reducer The height of a pair of bearing units 45, 46 on the left and right sides of the machine. Fig. 14 shows the sequence when the main roller 10 is assembled between the bearing units 45, 46 of the wire saw. As illustrated in Fig. 14, when the carriage 3 of the main roller elevator 1 is advanced, if the mechanical space of the bottom plate or the wire saw is formed with the positioning guide 65, the plurality of positioning guides 66 will be guided by the positioning guide 65. While the one side is guided in the advancing direction, the carriage 3 is guided to a position where it is easy to work with respect to the pair of bearing units 45, 46. Further, the position where the positioning guide 65 and the positioning guide roller 66 are disposed can also be replaced. Here, the operator first adjusts the front and rear movement of the carriage 3 as indicated by an arrow a, and guides the main roller 10 in the held state between the bearing units 45, 46 so that the axes are substantially uniform. At this time, if the inclination is set on the bottom plate 099106725 15 201036909 due to the setting of the weathered slope, etc., the main roller K) on the 9th is also relatively horizontal-to-the-single 7G 45, 46 The t-axis is tilted. If it is considered that the goods are on the same level as the above-mentioned (four) relative level - when the center axis of the bearing unit is inclined by more than the positive range, the operator rotates the handle for the horizontal correction into the screw shaft 23 in the predetermined direction. The horizontal correction feed is moved, and the horizontal correction unit 7 is swung in the direction of the left and right sides, so that the center line of the main roller 10 on the fork 9 is hit by 9 1 λ 丄 * ❹ 9 The horizontal line of the early 45 is roughly the same, thereby performing horizontal correction. At this time, the adjustment amount is read from the indicator 67 and the scale is in the state of ... because 丄 =: = 45 is the standard ~ easy level. (10) 67 and the scale plate 68 can be efficiently performed by the commercially available simplification = the level correction operation ‘, and the main 辘... is loaded to the line miner or the line miner removes the master 10. Furthermore, 'and after the correction, the horizontal correction feeds the screw shaft 23 and the horizontal level to the exposure and the material (4) force (4), and the transition = 25 is tilted due to the weight of the main roller 10. After m is not 2, the operator moves in a predetermined direction. (4) The screwing effect of the feeding screw shaft 19 and the lateral feeding nut 2G 8' is wrong by the moving portion 5 (horizontal square & • As shown by the arrow b, 'borrowed ~ eight (horizontal movement), and the hub u, the collector hole 47 is lost to the opposite side of the push-pull bearing 45 in the oblique axis 48. 099106725 Λ 怒16 201036909, due to the spiral action of the transverse feed screw shaft 19 and the lateral feed nut 2 (suppressing the reverse force with the operation), so the traverse portion $ will not laterally move after the traverse. Then, The operator moves the sleeve-shaped bearing unit 46 in the direction of the main parent 10, that is, in the direction of the arrow C, so that the inclined wheel 49 of the bearing unit 46 is lost in the push-out hole 47 of the mountain=: 1. In this case, the main roller 1G borrows The 肷σ of the push-out portion is sandwiched between the pair of bearing units 45 and 46, and the traverse direction attached to the traverse portion 5 drives the b-spinning state. By switching, the main body can be easily and efficiently Light 1 〇;; lateral movement of the operating elements 45, 46. Position to a pair of bearing singles last, for S as shown in the arrow (four) will be fixed to pick up the bearing single (10) In the hole 58, and the outer screw W is axially twisted (four) pattern 72, so that pure 1 () _ between the bearing bearing unit. So - the main (four) is installed in the two bearing units ^ 45, 46 And it can be assembled with the bearing units 45, 46-6 in the wire sawing machine. As shown above, in the state of being carried by a pair of goods and 9 carrying the main roller, by the lifting part 4. The traverse portion 5 and the hub η at both ends and the downward direction, the lateral direction, and the tilt correction direction are moved or the positive portion 7 is moved upward, and the position of the main (1) 〇 (four) line fault is easily adjusted. Positioning or level-correcting work, but the efficiency of the secret holding unit 45, 46 can be installed or disassembled. Grounding of the main roller 10 is 099106725 17 201036909 When the main roller ίο is removed from the wire saw, it can be opposite to the above The main roller 10 is supported by a pair of forks 9 , and the main roller 10 is stored in the transport box 50 in a state of being positioned in the transport box 50 via a pair of forks 9 and is passed through the transfer box 50 . The pair of forks 9 are retracted, and the main roller 10 is carried into the inside of the transfer box 50. (Industrial Applicability) The present invention is not only usable The main roller 10 of the wire saw machine can also be used for other similar reports of transport and assembly. [Schematic description of the drawings] Fig. 1 is a plan view of the elevator for the wire saw machine of the present invention. Fig. 2 is a lift for the wire saw machine of the present invention. Figure 3 is a rear elevational view of the elevator for the wire saw machine of the present invention. Figure 4 is an enlarged horizontal cross-sectional view of the support structure of the strut-lifting portion of the elevator for the wire saw machine of the present invention. Figure 5 is a lift for the wire saw machine of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 6 is an enlarged vertical cross-sectional view showing a supporting structure of a lifting portion to a traverse portion of a lift for a wire saw machine according to the present invention. Fig. 7 is an enlarged horizontal cross-sectional view showing a traverse driving device for a traverse portion in the elevator for a wire saw machine of the present invention. Fig. 8 is an enlarged front elevational view showing a support structure of a traverse portion to a horizontal correcting portion in the elevator for a wire saw machine of the present invention. 099106725 18 201036909 Fig. 9 is an enlarged horizontal cross-sectional view showing a horizontal correction driving device for a level correcting portion in the elevator for a wire saw machine of the present invention. Figure 10 is a front view of the main parent transport case. Figure 11 is a horizontal cross-sectional view of the transfer box for the main roll in a front view. Fig. 12 is a horizontal sectional view of the transfer box for the main roller. Figure 13 is a vertical sectional view of the transfer box for the main roller in a side view. Figure 14 is a horizontal cross-sectional view showing the main roller when it is mounted on one of the pair of wire saws. Fig. 15 is a side view showing a state in which a main roller is attached to a pair of bearing units of a wire saw using a conventional mobile trolley. [Description of main component symbols] 1 Main roller elevator 2 Pillar 3 Pallet 4 Lifting section 5 Traverse section 6 Supporting axis T Horizontal correcting section 8 Roller 9 Fork 10 Main roller 11 Hub 099106725 19 201036909 12 Constraining lever 13 Battery 14 Motor 15 Chain 16 Sprocket 17 Lifting drive 18 Handle 19 Transverse feed screw shaft 20 Transverse feed nut 21 Traverse drive 22 Handle 23 Horizontal correction feed screw shaft 24 Coupling shaft 25 Horizontal correction feed nut 26 Horizontal Correction drive 27 fulcrum shaft 28 indexing plunger 29 locking 30L 30 handle 31 wheel 32 caster 33 universal car 099106725 20 201036909
34 導輥 35 聯結板 36 輥 37 導執 38 齒輪箱 39 斜齒輪 40 斜齒輪 41 齒輪箱 42 斜齒輪 43 斜齒輪 44 壓墊 45 軸承單元 46 軸承單元 47 推拔孔 48 斜軸 49 斜軸 50 搬送箱 51 箱本體 52 前板 53 開關蓋 54 輥座板 55 鉸鏈 099106725 21 201036909 56 輥約束板 57 支腳部 58 軸孔 59 固定螺栓 60 附件 61 手推手柄 62 側面板 63 導引槽 64 承載墊片 65 定位導件 66 定位導輥 67 指示器 68 刻度板 69 拉伸彈簧 70 軸承部 71 桿 72 内螺紋 73 承載輥 74 隔件 101 線鋸機 62A、62B 軌道 65a 凹部 099106725 22 201036909 115、116、117 163 165 加工用輥 移動台車 輥座台34 Guide roller 35 Coupling plate 36 Roller 37 Guide 38 Gearbox 39 Helical gear 40 Helical gear 41 Gearbox 42 Helical gear 43 Helical gear 44 Pressure pad 45 Bearing unit 46 Bearing unit 47 Push-out hole 48 Oblique axis 49 Oblique axis 50 Transport Box 51 Box body 52 Front plate 53 Switch cover 54 Roller seat plate 55 Hinge 099106725 21 201036909 56 Roller restraint plate 57 Legs 58 Shaft hole 59 Fixing bolt 60 Attachment 61 Push handle 62 Side panel 63 Guide groove 64 Carrying washer 65 Positioning guide 66 Positioning guide roller 67 Indicator 68 Scale plate 69 Tension spring 70 Bearing part 71 Rod 72 Internal thread 73 Carrying roller 74 Spacer 101 Wire saw 62A, 62B Track 65a Recess 099106725 22 201036909 115, 116, 117 163 165 processing roller moving trolley roller table
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