M425007 五、新型說明: 【新型所屬之技術領域】 本創作涉及-種金屬材科的扭轉裝 將金屬桿體扭轉矮直的金屬材料續直機。一及一種 【先前技術】 現有的金屬材料矯直機是 ^ .^ 疋在底座的w、後位置分别呤 !二續:機以及前橋直機’在前、後續直機以軸承座穿置 =:的轉筒,當使用時是將桿狀的金層材料穿過: 後矯直機的模具,將後側 j付问疋位後,量測合®从制 測扭曲的程度並反向糙叙1 ,屬材科則 么屈“ 則的轉筒,藉此將扭曲的桿妝 金屬材料矯直。 ”干狀 mm的金屬材㈣直機雖可達 料的效果μ旦由於缺身右▲“知 干狀备屬# 讲、有效自動篁測金屬材料扭曲程度的M425007 V. New description: [New technical field] This creation involves the twisting of metal materials. The metal material is twisted straight and straight. One and one [Prior Art] The existing metal material straightening machine is ^.^ 疋 in the w and rear position of the base respectively! Two continued: the machine and the front axle straight machine 'before and after the straight machine is placed with the bearing seat = : The drum, when used, is to pass the rod-shaped gold layer material: the mold of the rear straightening machine, after the back side j is asked for the position, the measurement is measured from the degree of distortion and reverse rough Xu 1, the genus section is the right one, so that the twisted rod metal material is straightened. "The dry mm metal material (four) straight machine can achieve the effect of the material. "Knowledge dry genus # speak, effectively and automatically speculate the degree of distortion of metal materials
0又0*f 5 因J:匕益兮会具旦,Η Ϊ A 。 測金屬材料扭轉程度或者矯直金屬絲 轉、程白不月b以精確的方式進行 以獲得更佳的矯直效果。 ^改進 【新型内容】 由於現有的金屬材料矯直機無法以精確控制角度的方 式扭轉矯直金屬材料,因 勺方 叮口此今易產生矯直效果不佳的缺 •’‘占。為此,本創作士 β 声, 作主要疋以譯碼器量測金屬材料扭曲的角 a再依據扭曲的角度逆轉金屬材料達到更佳的矯直效果。 •、丨述目的,本創作提供一種金屬材料矯直機, 包括: 厶 底座,在頂部設有一平 M425007 -前續直冑,在該平台上的前半邹結合—前轴承座, 二:軸承座以可轉動的方式沿前、後方向穿置—前轉筒, s“轉筒為管體並且前、後兩端穿出前軸承座,在前轉筒 =嵌設固定一前模具’㈣模具的中間前、後貫穿一 則套孔,在前轉筒外端的周圍套設固定—前齒〶,該前轴 承座又對應該前齒環的前、後位置在周圍結合一前譯碼 器,在前譯碼器與該前齒環之間套設—前皮帶,在該前橋 直機位於前轉筒旁的部分結合—驅動構造,該驅動構造連 結驅動前轉筒旋轉;以及 -後矯直機’在該平台上的後半部結合—後軸承座, 在後轴承座以可轉動的方式沿前、後方向穿置一後轉筒, 該後轉筒為管體並且前、後兩端穿出該後轴承座,在後轉 筒的中間嵌設固定一後模具,在後模具的中間冑、後貫穿 一後套孔,該後套孔位於該前套孔正後方的位置,在後轉 筒外端的周圍套設固定-後齒環’該後軸承座對應該後齒 環的前、後位置在周圍結合一後譯碼器,在後譯碼器與該 後齒環之間套設一後皮帶;又在後模具外端的外周面朝内 穿設一插銷孔,該後軸承座對應該插銷孔的前、後位置在 周圍結合一壓缸,在該壓缸正對該插銷孔的位置設有一伸 縮桿8 進一步,本創作在所述前轉筒端部的内周面擴大形成 一前模具鑲嵌凹部,所述前模具嵌設固定在前模具鎮嵌凹 部内;在所述後轉筒端部的内周面擴大形成一後模具鑲嵌 凹部,所述後模具ΐ欠设固定在後模具鑲嵌凹部内。 造-步,本創作所述平台為沿前、後方向延伸的矩形 Μ42^υυ/ 平置板體,在該平台前、後端的左、右 延伸的支撐柱,在該平台前半部頂面的左、右::兩Γ 對沿前、後方向延伸的f w 右兩側結合〆 谩方…’的則線性滑軌,在前 —座,又在該平台後上: 對沿前、後方向延伸的後線性右兩側結合〆 入一h ”生滑軌,在該後線性滑軌上結 :;動=座;所述前輪承座以及所述延伸板 該前 動;的:面,所述後轴承座結合在該後滑動座的頂面。 ^步’本創作所述驅動構造是在所述前 合一延伸板,該延伸板的自由妒A AL ^ 自由踹頂刘β人 "向外延伸,在該延伸板的 的=一渦輪螺桿升降機,在該渦輪螺桿升降機 的=結合-驅動馬達,且該渦輪螺桿升降機的中間螺合 二的/尚輪螺桿’在該渦輪螺桿的頂端結合-樞接件, 又2樞接㈣頂端以可擺動的形態樞接一扭轉臂,在該 ::自由端形成一扭轉套環,以該扭轉套環環套在所 述刖轉同的外端固定。 一進-步,本創作在所述前滑動座的側面以螺絲穿過結 合-別齒條,又在所述後滑動座的側面以螺絲穿過0一 後齒條4所述平台的周緣結合一朝上延伸且環繞設置的 @板’對應該前齒條的位置’在該圍板—側的前半部以可 轉動的形態橫向穿設一前轉動軸,在前轉動轴的内、外兩 端分別結合一前轉動齒輪以及—前轉把,以該前轉動齒輪 鳴合该前齒條,又在該圍板一側的後半部以可轉動的形離 橫向穿設-後轉動轴,在後轉動轴的内、外兩端分別結合 /後轉動齒輪以及-後轉把,以該後轉動齒輪唾合該後齒 條。 M425007 ”進—步’本創作在所述前滑動座鱼所诚 Θ以及所述㈣動座與 L 螺摞’ *々、A 丁 13的頂面分別絲 , 各滾珠導螺桿的端部 該平台上。 社 »*Ό 馬達 平.台的頂面之 合—組滾珠導 各馬達結合在 一乂,本創作在所述前轉筒 較前轉筒其餘部分外徑長度窄_束# =成-外徑長度 套設固定在前束套管部後側的周圍,二二所述前齒環 面沿前、後方向凹設一鍵槽, ^束套管部的外周 管部,在Α 所述扭轉套環環套在前束套 在忒扭轉套環的内周 不丟 在外鍵槽與鍵槽之間嵌設一鍵:應㈣槽凹設-外鍵槽, 前二ΓΓ承座頂面的前、後兩側各朝上延伸形成-"板,在兩前軸承板以可轉動的形 ::延:::轴桿,該前轴桿的前端朝前穿出前側:前: 加側的”承板的兩側結合—朝前延伸的前支 :Μ支木的前端結合一前設置板’所述前譯碼器姓入 ,前設置板的中間,該前譯碼器朝後伸設-前釋碼: 轴二以前譯碼器轉轴的後端同心結合在前轴桿的前端,又 端套設mm輪’所述前皮帶為棘齒皮帶 並套設在該前齒輪與前齒環之間。 進一步,本創作在所述後轉筒的後端形成一外徑長度 較後轉筒其餘部分外徑長度窄的後束套管#,所述後齒環 套設固定在該後束套管部的周圍;在所述後軸承座頂面的 前、後兩側各朝上延伸形成一後軸承板,在兩後軸承板以 可轉動的形態拖穿一沿前、後方向延伸的後軸桿,該前軸 才干的後端朝前穿出後側的後軸承板,在後側的後軸承板的 M425007 兩側結合一朝後延伸的後支架,在後支架的前端結合一後 設置板,所述後譯碼器結合在後設置板的中間,該後譯碼 器朝前伸設一後譯碼器轉軸,以後譯碼器轉軸的後端同心 結合在後軸捍的前端,又在後軸桿前端套設固定一後齒 輪’所述後皮帶為棘齒皮帶並套設在該後齒輪與後齒環之 間0 進一步,本創作所述插銷孔穿設在所述後轉筒前端部 外周面的左侧;在所述後軸承座的左側朝外延伸一插銷 座,所述壓缸結合在該插銷座,且所述後套孔以及所述前 套孔各為工字形的穿孔。 更進一步,本創作在所述平台前、後端頂面的中間結 合一支#座’在該支撑座頂部的左 '右兩側结合—對滾動 軸承,在各對支撐座之間以可轉動的形態穿設一滾動軸, 兩滾動軸分別位於所述前、後模具的正前方與正後方,且 兩衮動轴的頂緣與所述前、後套孔的底緣同高。 進步,本創作在所述前軸承座的側旁朝外延伸一裝 -板」所述驅動構造是在該裝設板的前面結合一驅動馬達 奈…固:動馬達組朝後伸出一驅動軸’在該驅動軸的後端 一二定-驅動齒輪,又在所述前轉筒後端的周圍套設固 輪的齒數…… 以及直值多於該驅動齒 數以及直徑,該從動齒輪與該驅動齒輪嚙合。 間的:::置本Γ在所述前橋直機以及所述後續直機之 平台的壓整裝置,該壓平調整裝置是在所述 台中間的方h从 在6亥立柱的頂端朝平 方向伸設,臂,在該懸吊臂的底面結合一朝 7 M425007 7延伸的L形支架,在L形支架的底部形成—托板,又在 »玄懸吊臂頂部結合-歷平调輪螺桿升降 螺桿升降機的中間螺合-賢直設置且可升降^該壓平渴輪 輪螺桿,該堅平渦輪螺桿朝 ::&平滿 一壓平塊。 〜币#亚在底端結合 當本創作使用時,需恶_链古u t 兩側扭轉為不同角度的= 屬㈣為前 '後 模具的前 '後==全:創作使用時是先將前、後 轉筒與前模具一同旋轉至前套孔擺正的位置,= 的金屬材❹前續直機㈣套 S者將梓狀 符以及接Π π 心丨套孔插入,將後矯直機的後轉 =後:具一同旋轉至後套孔適合金屬材料後端插入的 ::後,將金屬材料的後端穿入後橋直機的後套孔 後套孔相對於前套孔為旋轉離開擺正位置的狀態。 將後橋直機的後轉筒# μ β ± 傻轉R以及後杈具連同金屬材料一同旋 =後套孔擺正的位置,過程中旋轉的後轉筒會透過後皮 轉動後釋碼器,透過後譯碼器可讀取當金屬材料的後側 匕正時’金屬材料的前側相對於後側需要扭轉回正的角度 數值’接著壓缸的伸縮桿伸人後轉筒的插銷孔内固定後^ 筒令位置 < 後轉筒的位置歸零成為前續直機扭轉金屬材 料的角度基準。 接著將後#碼器讀取到的角度數值加上扭轉金屬材料 回正所需要的過度扭轉角度來得出矯直扭轉角度,令旋轉 構造帶動前轉筒旋轉’藉此扭轉前轉筒以及金屬材料的前 側過程中以則譯码器價測確認、扭轉的角度是否轉至矯直 扭轉角度’待金屬材料的前側矮直為擺正的形態時即完成 端直的作業。 本創作的功效在於,I、, . 、 』刀 >又你π 错由珂、後譯碼器的設置,可偵 、j 土屬材料刖、後兩側扭曲的角度以及施力矯直金屬材料 時需要扭轉的角度,以精確量測金層材料前、後扭曲角度 :及轭力扭轉的構造’ *金屬材料矯直的扭轉角度更為確 貫’達到更佳的橋直效杲。 【實施方式】 ,本創作提供一種金屬材料矯直機,如圖^至圖7所示 的第一較佳實施例,包括: 一底座10’如圖!、圖2以及圖5所示,設有一平台 11 ’為沿前、後方向延伸的矩來巫罢化碰 矩形千置板體,在平台11前端、 中間以及後端的左、右兩側分 〗刀別結合兩朝下延伸的支撐柱 12’在平台ή前半部頂面 左右兩側結合一對沿前、後 方向延伸的前線性滑轨13,在前線性滑轨13上結合一前滑 =14’在前滑動座14的右侧面以螺絲穿過結合-前齒條 又在平台11後半部頂面的左、右㈣結合—對沿前、 後方向延伸的後線性滑轨彳5,在 傻線陡m轨1 5上結合一後 滑動座16’在後滑動座16的右側而~λ 无 旳右側面以螺絲穿過結合一後齒 條 1 61 ; 。说 ut 在平台11前、後端緣以及左、 右鹆緣結合一朝上延伸 且環繞設置的圍板17,對應前齒條⑷的位置,在右側圍 =17前半部的中間以可轉動㈣“㈣ 18,在前轉動轴18的内、外兩端分 寻動轴 、,η η。。 D —前轉動齒輪 181 以及一刚轉把1 82,以該前轉動齒 柄1 嚙合前齒條1 41, 又在右側圍板1 7後半部的中間以 J轉動的形態橫向穿設— 後轉動軸19,在後轉 以該後轉動齒輪1 91嚙合 動軸1 9的内、外兩端分別結合-後轉 動齒輪191以及1轉把192, 後齒條1 61。 一 W矯直機2〇,如阁9 圖2、圖3以及圖6所示,在前滑 動座14頂面的中間結 伯邮-4 +啦 〜轴承座21,在前轴承座21的 周壁嵌設固定一'红則穿置孔211,在前穿置孔211的 2 ⑴承22,在前輻承22的内周面穿置固定 一刖轉同2 3,該前鏟饴 外 為官體並且前、後兩端穿出前穿 置孔21 1的前、祛; 八,、 Λ ,刖轉筒23朝前穿出前穿置孔 211的。Ρ为形成一外經長产 ^ ^ ^ 長又k引轉筒23其餘部分外徑長度 乍的刖束套管部231,在前爽备〜 在引束套管部231的外周面沿前、 後方向凹設一鍵槽2 3 2,艾Λ 乂 & 又在則轉筒23後端的内周面擴大 形成一刖模具鎮嵌凹部2 3 3 ; 在月)束套g 231後側的周圍套設固定—前齒環 234’又在前模具鑲嵌凹部233内嵌設結合一前模具24, 在前模具24的中間前、後貫穿-前套孔241,該前套孔241 配合襟直金屬材料的斷面而為工字形的穿孔,在前軸承座 21頂面的前、後兩側各朝上延伸形成一前軸承板212,在 兩前軸承板212以可轉動的形態枢穿一沿前、後方向延伸 的前軸桿21 3,該前軸桿21 3的前端朝前穿出前側的前軸 承板21 2 ’在前側的則轴承板21 2的兩側結合一朝前延伸 的前支架214’在前支架214的前端結合一前設置板215; 在前設置板21 5的中間結合一前譯碼器2 5,該前譯媽 器25朝後伸設一前譯碼器轉軸251,以前譯碼器轉軸25, 的後端同心結合在前軸桿213的前端,又在前軸桿21 3前 端位於前齒環234正上方 在前齒輪252與前齒環叫邛刀套設固定-前齒輪252, 該前皮帶253為棘齒皮帶; < 間套設結合-前皮帶253, 又在前滑動座14的前入 位於前轉筒23 大。—延伸板⑷,該延伸板 伸板142的… 並且自由端朝左延伸,在延 狎板142的自由端頂部結 、 輪螺桿升降機26的„〜雜螺桿升降機26,在該渴 桿升降機26的Φ門,°。驅動馬達261,且該渦輪螺 r 26 B螺合一豎直設置且可升降動作的渦輪蟫 杯262,在渦輪螺桿如的 士入 ㈣不 接件263的頂端以可 、,°。&接件⑹,又在枢 # 97 , _ 動的形態樞接一扭轉臂27,該杻轉 =朝前轉…前端延伸並且在自由端形成一扭轉: 邱” "I扭轉套% 271環套在前轉筒23前端的前束套管 一口疋在扭轉套裱271的内周面對應鍵槽232凹設 97^ 隹外鍵槽272與鍵槽232之間嵌設—鍵塊 前述滿輪螺桿升降機26、驅動馬達261、極接件263、 轉# 27以及扭轉套環271等構造組成可連結驅動前轉筒 23旋轉的旋轉構造。 後續直機30’如圖2至圖4以及圖6、® 7所示, 在後滑動座16頂面的中間結合—後轴承座31,在後轴承座 的頂則、後貫穿形成一後穿置孔31 1,在後穿置孔31 1 的周壁嵌設固定一後軸承32,在後軸承32的内周面穿置固 定一後轉筒33,該後轉筒33為管體並且前、後兩端穿出後 穿置孔311的前、後兩端,在後轉筒33朝後穿出後穿置孔 311的部分形成一外徑長度較後轉筒33其餘部分外徑長度 窄的後束套管部331,在後轉筒33前端部外周面的左側朝 M425007 内穿設一插銷礼332 ’又在後轉筒33前端的内周面擴大形 成一後模具鑲嵌凹部333 ; 在後束套管部331的周圍套設固定—後齒環334,又 在後模具鑲嵌凹部333内嵌設結合一後模具34,在後模具 34的中間前 '後貫穿一後套孔341,該後套孔mi配合橋 直金屬材料的斷面而為工字形的穿孔,並且後模具34的位 置刚、後正對於前橋直機2 〇的前模具2 4,在後轴承座31 頂面的前、後兩側各朝上延伸形成一後軸承板31 2,在兩後 軸承板31 2以可轉動的形態樞穿一沿前、後方向延伸的後 軸桿31 3,該後軸桿31 3的後端朝後穿出後側的後軸承板 31 2在後側的後軸承板31 2的兩側結合一朝後延伸的後支 木31 4,在後支架314的前端結合一後設置板3^ 在後設置板31 5的中間結合一後譯碼器35,該後譯碼 器^朝前伸設_後譯碼器轉軸351,以後譯碼器轉轴如 的月J端同。結合在後轴桿3,3的後端,又在後轴桿3,3後 鈿位於後齒環334正上方的部分套設固定一後齒輪扣, 在後齒輪352與後齒環、334之間套設結合-後皮帶353 , ㈣皮帶353為棘齒皮帶;在後軸承座31的左側朝外延伸 插銷座316 ’在插銷座316結合一壓紅36,該塵缸36 正對該插銷孔332的位置設有—伸縮桿加。 ,,兩材料導引構造4〇,如圖,、圖6以及圓7所示是 4在二11!:、後端頂面的中間結合-支樓座41,在支樓座 4 ;的左、右兩側結合一對滚動軸承42,在各對支樓座 別位二分 、” 24、34的正前方與正後方,且兩滾動軸 12 M425007 43的頂緣與前、後套孔241、341的底緣同高。 …本創作藉由轉動前、後轉把182、192的操作,可轉動 别、、後轉動齒輪181、191驅動前、後齒條141、161與前、 後滑動座 1 4、1 5 奇 ΧΖ. .u ,. , 、 。1 '後線性h軌13、1 5前、後進退移 接以前、後齒條⑷、151與前、後轉動齒輪181、191 構造的配合,在圍板17的右側與前、後滑動座14、15 之間分別形成一種手動調整構造。 本創作除前述第—較佳實施例,是在前、後滑動座Μ、 ,、圍板17的右側之間分別設有手動調整構造以外,亦可 2、後滑動座14、15與平台頂面之間各結合-組滚 珠導螺桿,並在各料㈣桿端部聯結—馬達’各馬達結 =台”上’並以馬達驅動各滚珠導螺桿帶動前、後滑 動座14、15前、後進退移動的方式,達到電動調整前、後 滑動座14、15位置的功效。 本創作第-較佳實施例除了將调輪螺桿升降機%以及 扭轉臂27等構造設於前滑動座14的左側以外,亦可將延 伸板142設為朝右延伸的構造,並將渦輪螺桿升降機冗與 扭轉臂27等構造改設在前滑動座14的右側,此外,所述 插銷孔332以及壓紅36除了設置在後轉筒33與後轴承座 31的左側以外,亦可將插銷孔332以及⑸%改設在後 轉筒33以及後轴承座31的右側,使壓_的伸縮桿361 仍可配合插入後轉筒33的插銷孔332,將後轉筒Μ的位 置固定不旋轉。 當本創作第—較佳實施例使用時,如圖1、圖5以及圖 8所不’Μ桿狀的金屬材Μ的前、後長度調整前續直機 20以及後矯直機30的位置,當調整時前矯直機2〇、後矯 直機3〇的前、後位置時,是轉動前轉把1 82與後轉把彳92, 以前轉動齒輪181以及後轉動齒輪191的旋轉帶動前 '後 齒條141、161與前、後滑動座14、16沿著前、後線性滑 執13、15移動,藉此改變前矯直機2〇與後矯直機3〇的前、 後距離來適合金屬材料A的長度。 進行金屬材料A的矯直作業時,如圖1所示,插入金 屬材料A的過程中能以前、後兩端材料導引構造4〇的滾動 軸43撐托金屬材料A,使插入金屬材料A的操作能順利進 仃又如圖8至圖1 〇所示,插入金屬材料A過程中,先將 剛轉同23與前模具24 —同旋轉至前套孔241擺正的位 置將金屬材料A由前矯直機20的前套孔241插入,接著 再將後矯直機3 0的後轉筒3 3以及後模具3 4 一同旋轉至後 套孔:41適合金屬材料A後端插入的位置,由於金屬材料 A的引後兩側為杻曲的狀態,因此當金屬材料A的後端 插入後矯直機30的後套孔341時’後套孔341相對於前: 孔241為旋轉離開擺正位置的狀態。 接著將後矯直機30的後轉筒33以及後模具34連同金 屬材料A _同旋轉至後套孔341擺正的位置,旋轉金屬材 料A的過程中後矯直機3〇的後轉筒33以及前矯直機扣 的前轉筒23都會轉動,如圖4所示,此時旋轉的後轉筒33 可透過後皮帶353轉動後譯碼器35的後譯碼器轉軸⑹, 透過後譯碼器35可讀取當金屬材料A的後側擺正時,金屬 材料A的前側相對於後側需要扭轉回正的角度數值,㈣ 壓紅%的伸縮桿361件入後轉筒心插銷孔332内固定 W25007 後轉筒33的位置,使後轉筒的位 扭轉金屬材料A的角度基準。 “為剧緒直機20 接著將後譯碼器35讀取到的角度 料A回正所f # 1 又數值加上扭轉金屬材 驅動,这2轉角度來得出續直㈣專角度,令 動馬達261驅動伸縮桿361垂 361頂端的扭㈣4 — 動作,使樞接在伸縮桿 側,過程中m 轉筒23以及金屬材料A的前 扭轉的角二?器25㈣確認後轉筒33與金㈣^ 側位置=1:扭轉角度,當將金屬材…前 的作業。 卩將金屬材抖A朝前抽出完成續直 驅動= ㈣述較佳實施例’是以渦輪螺桿升降機-、 # 接件263、杻轉f 27以及㈣套環271 鼻:組成可連結驅動前轉筒23旋轉的旋轉構造以外,亦 ”他的構造組合作為驅動前轉筒23旋轉的旋轉構造, 如圖14、圖15所示的本創作第二較佳實施例。 本創作第二較佳實施例的旋轉構造是在前轴承座。的 2朝外延伸一裝設板50’在裝設板5〇的前面結合一驅動 馬達組51,該驅動馬達組51朝後伸出—驅動軸52,咳驅 動幸由52向後穿出裝設板50’在驅動轴以的後端套設固定 -驅動齒輪53’又在前轉筒23後端的周圍套設固定一從動 齒輪54,該從動齒輪54的齒數以及直徑多於驅動齒輪μ 的齒數以及直徑’該從動齒輪54與該驅動齒輪&齒合, 使得驅動馬達組51可透過驅動齒輪53以及從動齒輪Μ帶 動前轉筒23旋轉;由於本創作第二較佳實施例其餘構造以 及使用方式與前述第-較佳實施例相同,故本創作在此不 15 M425007 加以限制。 士圖14至圖16所不’本創作可在所述前橋直機扣以 及所述後端直機30之間的位置設置一壓平調整裝置6〇,該 壓平凋整裝置60是在所述u平厶 ^ 、1十台的左側結合一朝上延伸 ,立柱61,在立柱61的頂端朝右伸設—懸吊臂a,又在 懸吊臂62底面結合一朝下延伸的L形支架63,在L形支 架63的底部形成一托板631,以托板631可樓托所述金屬 =A中間的部分,又在懸吊f ^頂部結合—塵平满輪螺 于升降機64,在I平渦輪螺桿升降機Μ的中間螺合-豎直 ^且可升降動作的料渦輪螺桿641,該壓平渴輪螺桿 朝下穿過懸吊臂62並且在底端結合一壓平塊65。 當本創作用於矮直較長的金屬材料A時,可將金層材 '的中間部分揮托在塵平調整裝置6〇的托板631上,並 驅動歷平渦輪螺桿升降機64的壓平渦輪螺桿下降,以 :::65配合托板631緊夾金屬材料a中間部分的方式協 助别矯直機20進行矯直作業。 【圖式簡單說明】 圓1是本創作第-較佳實施例的立體圖。 圖2是本創作第—較佳實施例的立體圖。 圖3是本創作苐一較佳實施例前矯直機的分解圖。 :4,本創作第一較佳實施例後矯直機的分解圓。 5疋本創作第一較佳實施例的部分剖面圖。 2 6,本創作第一較佳實施例前矯直機的剖面圖。 7,本創作苐一較佳實施例後矯直機的剖面圖。 8疋本創作第一較佳實施例插入金屬材料的實施示 M425007 意圖。 圖9是本創作第一 剖面示意圖。 較佳實施例前模具插入金屬材料 的 圖1 〇是本創作第— 剖面示意圖。 較佳實施例後模具插 入金屬材料 的 圖11是本創作第-較佳實施例扭轉矯直金屬 施不意圖0 材料的實0 and 0*f 5 Because J: 匕益兮 will have a dan, Η Ϊ A. Measure the degree of twist of the metal material or straighten the wire, and the process is performed in a precise manner to obtain a better straightening effect. ^Improvement [New content] Since the existing metal material straightening machine cannot reverse the straightening of the metal material by precisely controlling the angle, the scooping mouth is now prone to the lack of straightening effect. To this end, the creator β sound, the main 疋 to measure the angle of distortion of the metal material by the decoder a and then reverse the metal material according to the angle of distortion to achieve better straightening effect. • For the purpose of narration, this creation provides a metal material straightening machine, including: 厶 base, with a flat M425007 on the top - front straight 胄, the first half of the platform on the platform - front bearing, two: bearing Rotating in the front and rear directions in a rotatable manner - the front drum, s "the drum is the tube body and the front and rear ends are threaded out of the front bearing seat, in the front drum = embedded to fix a front mold' (four) mold The middle of the front and the rear of the front sleeve is sleeved around the outer end of the front rotating sleeve, and the front bearing sleeve is combined with a front decoder at the front and rear positions of the front toothed ring. a front belt is disposed between the front decoder and the front toothed ring, and a part of the front bridge straight machine is located at a side of the front drum, and the driving structure is coupled to drive the front drum to rotate; and - the rear straightening machine 'The rear half of the platform is combined with the rear bearing housing. The rear bearing housing is rotatably rotatably disposed in the front and rear directions. The rear drum is the tube body and the front and rear ends are pierced. The rear bearing seat is embedded in the middle of the rear drum to fix a rear mold. The middle sill of the rear mold and the rear part penetrate through a rear sleeve hole, and the rear sleeve hole is located at a position directly behind the front sleeve hole, and a fixed-rear ring gear is disposed around the outer end of the rear rotator; the rear bearing seat corresponds to the rear tooth The front and rear positions of the ring are combined with a rear decoder, and a rear belt is disposed between the rear decoder and the rear tooth ring; and a pin hole is formed in the outer peripheral surface of the outer end of the rear mold. The rear bearing seat is coupled with a pressure cylinder around the front and rear positions of the pin hole, and a telescopic rod 8 is disposed at a position of the cylinder at the pin hole. Further, the inner circumference of the front end of the front drum is created. Forming a front mold inlay recess, the front mold is embedded and fixed in the front mold inlay recess; the inner peripheral surface of the rear drum end is enlarged to form a rear mold inlay recess, and the rear mold is inflated It is fixed in the rear mold inlay recess. In the creation, the platform is a rectangular Μ42^υυ/flat plate extending in the front and rear directions, and the left and right extension support columns at the front and rear ends of the platform. On the top left and right sides of the front half of the platform:: two Γ The direction of the extended fw is combined with the right side of the square... 'the linear slide, the front-seat, and the rear of the platform: the rear right linear side extending in the front and rear directions is combined with a h" a sliding rail on the rear linear rail: a movable seat; the front wheel bearing and the extension plate; the front surface; the rear bearing seat is coupled to the top surface of the rear sliding seat . ^Step' The driving structure of the present invention is in the front integrated extension plate, the free 妒A AL ^ free dome of the extension plate is extended outward, and the turbine screw of the extension plate An elevator, in the turbine-screw elevator, a combined-drive motor, and a middle-screwed/spin-wheel screw of the turbine-screw elevator is coupled to the pivoting member at the top end of the turbine screw, and 2 pivotally connected to the top end of the turbine screw The oscillating shape is pivotally connected to a torsion arm, and a torsion collar is formed at the free end of the :: the torsion collar is fixed at the outer end of the same. In a step-by-step manner, the present invention is screwed through the joint-to-strip on the side of the front sliding seat, and the side of the platform is joined by screws on the side of the rear sliding seat through the 0-rear rack 4 An up-and-down and surrounding wrap-around @plate 'corresponds to the position of the front rack' in the front half of the panel-side is rotatably disposed in a rotatable manner, and the front and rear shafts are rotated in the front and rear The front end is combined with a front rotating gear and a front turning handle, and the front rotating gear is combined with the front toothed rack, and the second half of the side of the side wall is rotatably shaped to pass through the rear-rotating shaft. The inner and outer ends of the rear rotating shaft respectively engage/rearly rotate the gear and the rear turn, and the rear rotating gear spits the rear rack. M425007 "Step-by-step" is created in the front sliding seat of the fish and the (four) moving seat and the top surface of the L-threaded '*々, A D13 respectively, the end of each ball lead screw platform Above. Society»*Ό Motor flat. The top surface of the table is combined—the group of ball guides are combined with each motor. The creation of the front drum is narrower than the outer diameter of the rest of the front drum. _ Bunch#=成- The outer diameter is sleeved and fixed around the rear side of the front bundle sleeve portion, and the front tooth ring surface is recessed in the front and rear directions with a key groove, and the outer peripheral tube portion of the bundle sleeve portion is at the twist The collar ring is sleeved in the inner circumference of the torsion collar and is not dropped between the outer keyway and the keyway: a (four) slot recessed-outer keyway, the front and the back of the top two seats The sides extend upward to form a -"plate, in the front of the two bearing plates in a rotatable shape:: extension::: shaft, the front end of the front shaft is forwardly forwardly forward: front: side of the side plate The two sides are combined - the front branch extending forward: the front end of the branch is combined with a front set plate. The front decoder is inserted, the front of the front plate is set, and the front decoder is extended rearward. -Pre-release code: The rear end of the shaft of the former decoder is concentrically combined with the front end of the front shaft, and the end of the shaft is set with a mm wheel. The front belt is a ratchet belt and is sleeved on the front gear and the front tooth. Between the rings. Further, the present invention forms a rear bundle sleeve # having a smaller outer diameter than the rest of the rear portion of the rear drum at the rear end of the rear drum, and the rear ring gear is sleeved and fixed to the rear bundle sleeve portion. a rear bearing plate extending upwardly on the front and rear sides of the top surface of the rear bearing housing, and the rear bearing plates extending in the front and rear directions in a rotatable manner on the two rear bearing plates The front end of the front axle passes forwardly out of the rear bearing plate on the rear side, and the rear side of the rear bearing plate of the M425007 on the rear side is combined with a rear bracket extending rearward, and a rear plate is coupled to the front end of the rear bracket. The rear decoder is coupled in the middle of the rear setting plate, and the rear decoder extends forwardly to a rear decoder shaft. Later, the rear end of the decoder shaft is concentrically coupled to the front end of the rear axle, and then The front end of the shaft sleeve is fixed with a rear gear. The rear belt is a ratchet belt and is sleeved between the rear gear and the rear tooth ring. Further, the pin hole of the present invention is disposed at the front end of the rear drum. a left side of the outer peripheral surface; a latch seat extending outwardly on the left side of the rear bearing housing, the pressure Incorporated in the pin holder, and the rear cover and the front bore holes of the perforated sleeve -shaped. Furthermore, the present invention combines a #座' in the middle of the front and rear top surfaces of the platform to join the left and right sides of the top of the support--the rolling bearing, which is rotatable between the pairs of support seats. The form is disposed with a rolling axis, and the two rolling axes are respectively located directly in front of and behind the front and rear molds, and the top edges of the two tilting shafts are at the same height as the bottom edges of the front and rear sleeve holes. Progressively, the present invention extends a mounting plate to the side of the front bearing housing. The driving structure is coupled to a driving motor in front of the mounting plate. The solid motor group protrudes rearward and drives. The shaft 'is fixed at the rear end of the drive shaft-drive gear, and the number of teeth of the fixed wheel is set around the rear end of the front drum... and the straight value is more than the number of the drive teeth and the diameter, the driven gear and The drive gear meshes. Between::: the pressing device of the platform of the front bridge and the platform of the subsequent straight machine, the flattening adjustment device is in the middle of the table h from the top of the 6-column column toward the square To the extension, the arm, on the bottom surface of the suspension arm, an L-shaped bracket extending toward 7 M425007 7 is formed, and a pallet is formed at the bottom of the L-shaped bracket, and is coupled to the top of the "Xuan hanging boom" The middle screw of the screw lifting screw elevator is set up and can be raised and lowered. The flattening wheel screw is flattened, and the flat turbine screw is flattened toward::& ~ Coin #亚 at the bottom end combined with the use of this creation, the need for evil _ chain ancient ut sides twisted to different angles = genus (four) for the front 'after the mold's front' == full: the use of the creation is the first , the rear drum rotates together with the front mold to the position where the front sleeve hole is squared, the metal material of the front sleeve is straightened (4), the sleeve is inserted, and the π 丨 丨 丨 sleeve hole is inserted, and the rear straightening machine is inserted. After the rotation = after: rotate together to the rear sleeve hole for the back end of the metal material::, the back end of the metal material is inserted into the rear sleeve hole of the rear axle straight machine, the sleeve hole is rotated relative to the front sleeve hole The state of leaving the position of the position. The rear drum of the rear axle straight machine # μ β ± silly R and the rear cooker together with the metal material = the position of the rear sleeve is squared, and the rotating drum in the process will rotate through the back skin and release the coder. After passing through the decoder, the front side of the metal material can be read. 'The front side of the metal material needs to be twisted back to the front side with respect to the rear side. The value of the angle of the front side of the cylinder is then extended. After fixing, the position of the tube is set to < The position of the rear drum is zeroed to become the angle reference of the metal material of the front straightening machine. Then, the angle value read by the back code is added to the excessive torsion angle required for the torsion metal material to return to the straightening torsion angle, so that the rotating structure drives the front drum to rotate 'by twisting the front drum and the metal material In the front side process, it is confirmed by the decoder price measurement whether the angle of the torsion is turned to the straightening torsion angle 'the straight side of the front side of the metal material is straight and straight. The effect of this creation is that I, , . , 』刀> and your π 珂 珂, post-decoder settings, detectable, j soil material 刖, the angle of the rear sides twisted and the straightening metal The material needs to be twisted at an angle to accurately measure the front and back twist angle of the gold layer material: and the yoke force torsion structure' * The torsion angle of the metal material straightening is more accurate' to achieve better bridge direct effect. [Embodiment] The present invention provides a metal material straightening machine, as shown in the first preferred embodiment shown in FIG. 7 to FIG. 7, comprising: a base 10' as shown in the figure! As shown in Fig. 2 and Fig. 5, a platform 11' is provided for the moments extending in the front and rear directions to strike the rectangular body, and the left and right sides of the front end, the middle and the rear end of the platform 11 are divided. The knives are combined with the two support columns 12' extending downwards to join a pair of front linear slide rails 13 extending in the front and rear directions on the left and right sides of the top surface of the front half of the platform rafter, and a front slide on the front linear slide rails= 14' on the right side of the front slide seat 14 with screws through the joint-front rack and the left and right (four) joints on the top surface of the rear half of the platform 11 - the rear linear slide rails 5 extending in the front and rear directions, On the stupid line steep track l 5 is combined with a rear sliding seat 16' on the right side of the rear sliding seat 16 and the ~λ innocent right side surface is screwed through a rear rack 1 61; Said ut in front of the platform 11, the rear edge and the left and right rims combined with an upwardly extending and circumferentially disposed panel 17, corresponding to the position of the front rack (4), in the middle of the right half = 17 front half can be rotated (four) "(4) 18, the inner and outer ends of the front rotating shaft 18 are divided into the seek shaft, η η. D - the front turning gear 181 and a just turning lever 1 82, with the front rotating tooth shank 1 engaging the front rack 1 41, and in the middle of the rear half of the right side panel 1 7 is transversely disposed in the form of J rotation - the rear rotation shaft 19, and after the rotation, the rear rotation gear 1 91 meshes with the inner and outer ends of the movable shaft 1 9 respectively Combining-rear turning gear 191 and 1 turning lever 192, rear rack 1 61. One W straightening machine 2〇, as shown in Fig. 2, Fig. 3 and Fig. 6, the middle knot on the top surface of front sliding seat 14伯邮-4 + 啦~bearing seat 21, a 'red" through hole 211 is embedded in the peripheral wall of the front bearing housing 21, and 2 (1) bearing 22 in the front through hole 211 is in the inner circumference of the front spoke 22 The front surface is fixed and the same as 2 3, the front shovel is outside the official body and the front and rear ends are pierced out of the front and the front hole 21 1; 八, Λ, 刖 turn 23 is worn forward Before wearing The 211 Ρ Ρ Ρ Ρ Ρ 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 211 The surface is recessed in the front and rear directions with a key groove 2 3 2, and the inner peripheral surface of the rear end of the rotating drum 23 is enlarged to form a boring mold fitting concave portion 2 3 3; after the month sleeve g 231 The front side of the sleeve is fixedly fixed—the front toothed ring 234' is further embedded with a front mold 24 embedded in the front mold indentation recess 233, and the front sleeve hole 241 is inserted in front of and behind the front mold 24, and the front sleeve hole 241 is matched. The cross section of the straight metal material is an I-shaped perforation, and a front bearing plate 212 is formed to extend upward on the front and rear sides of the top surface of the front bearing housing 21, and the front bearing plates 212 are pivoted in a rotatable manner. Wearing a front axle 21 3 extending in the front and rear directions, the front end of the front axle 21 3 is forwardly forwardly forwards the front bearing plate 21 2 ' on the front side of the bearing plate 21 2 on the front side The front bracket 214' is coupled to a front mounting plate 215 at the front end of the front bracket 214; a front decoder 25 is coupled in the middle of the front mounting plate 215. The front end of the front shaft 213 is concentrically coupled to the front end of the front shaft 213, and the front end of the front shaft 21 3 is located directly above the front toothed ring 234. The front gear 252 and the front tooth ring are called squeegee sleeve-fixed-front gear 252, and the front belt 253 is a ratchet belt; < the sleeve is combined with the front belt 253, and the front slide seat 14 is located in front of the front slide seat 14 The drum 23 is large. The extension plate (4), the extension plate extends 142... and the free end extends to the left, at the free end of the extension plate 142, and the screw elevator 26 of the wheel screw lift 26 is in the The Φ gate of the thirteen lifter 26, °. The motor 261 is driven, and the turbine screw 26B is screwed into a vertically disposed and vertically movable turbine cup 262 at a top end of the turbine screw, such as the (4) disconnecting member 263. The & connector (6) is pivotally connected to the torsion arm 27 in the form of the pivot, and the torsion is forwarded to the front end and forms a twist at the free end: Qiu "I torsion sleeve % 271 The front sleeve of the front end of the front drum 23 is looped on the inner circumferential surface of the torsion sleeve 271 corresponding to the key groove 232. The outer keyway 272 is embedded between the keyway 272 and the keyway 232. 26. The driving motor 261, the pole piece 263, the turning #27, and the torsion collar 271 are configured to be coupled to a rotating structure that drives the rotation of the front drum 23. The subsequent straight machine 30' is as shown in Figs. 2 to 4 and Fig. 6, As shown in Fig. 7, in the middle of the top surface of the rear sliding seat 16, the rear bearing housing 31 is formed, and a rear through hole 311 is formed in the top and rear of the rear bearing housing, and the peripheral wall of the rear through hole 31 1 is embedded. A rear bearing 32 is fixed, and a rear drum 33 is bored on the inner circumferential surface of the rear bearing 32. The rear drum 33 is a pipe body and the front and rear ends of the front and rear ends are pierced through the front and rear ends of the hole 311. The portion of the rear hole 311 that passes through the back hole 311 is formed to form a rear sleeve having an outer diameter that is shorter than the outer diameter of the remaining portion of the rear drum 33. a portion 331 is provided with a latch 332' on the left side of the outer peripheral surface of the front end portion of the rear drum 33 toward the M425007. The inner peripheral surface of the front end of the rear drum 33 is enlarged to form a rear mold indentation recess 333. A fixing-rear tooth ring 334 is sleeved around the 331, and a rear mold 34 is embedded in the rear mold indentation recess 333, and a rear sleeve hole 341 is inserted through the front front portion of the rear mold 34. The cross section of the straight metal material is an I-shaped perforation, and the position of the rear mold 34 is just after the front mold 2 of the front bridge straight machine 2, and the front and rear sides of the top surface of the rear bearing housing 31 are respectively A rear bearing plate 31 2 is formed to extend upwardly, and a rear axle 31 3 extending in the front and rear directions is pivotally inserted in the two rear bearing plates 31 2 , and the rear end of the rear axle 31 3 is rearward The rear bearing plate 31 2 passing through the rear side is combined with a rearward extending rear branch 31/4 on both sides of the rear rear bearing plate 31 2, and a rear setting plate 3 is attached to the front end of the rear bracket 314. The middle of the board 31 5 is coupled to a rear decoder 35, and the rear decoder is extended toward the front _ rear decoder shaft 351, and then the decoder is turned The shaft is the same as the end of the month J. It is combined with the rear end of the rear axles 3, 3, and after the rear axles 3, 3, the rear portion of the rear axle ring 334 is fixed with a rear gear buckle, and the rear gear 352 and the rear ring gear, 334 between the sleeve-rear belt 353, (4) the belt 353 is a ratchet belt; the left side of the rear bearing housing 31 extends outwardly to the latch seat 316 'in the latch seat 316 combined with a pressure red 36, the The dust cylinder 36 is provided with a telescopic rod for the position of the pin hole 332. The two material guiding structures 4 are shown in Fig. 6, Fig. 6, and circle 7 as 4 at 2::, rear end The middle joint-support block 41 of the surface is combined with a pair of rolling bearings 42 on the left and right sides of the branch base 4; two points in each pair of branch seats, "front and rear of 24, 34" And the top edges of the two rolling shafts 12 M425007 43 are the same as the bottom edges of the front and rear sleeve holes 241, 341. ...This creation can be rotated by rotating the front and rear turns 182, 192, and can rotate the front and rear gears 141, 191 to drive the front and rear racks 141, 161 and the front and rear slide seats 1 4, 1 5 .u ,. , , . 1 ' Rear linear h-rail 13, 15 front and rear forward and backward transfer front and rear racks (4), 151 and front and rear rotating gears 181, 191 structure, on the right side of the fascia 17 and front and rear sliding seats 14 A manual adjustment structure is formed between 15 and 15 respectively. In addition to the foregoing first preferred embodiment, the present invention is provided with a manual adjustment structure between the front and rear sliding seats, and the right side of the enclosure 17 respectively, and the rear sliding seats 14, 15 and the platform top. Each of the faces is combined with a set of ball guide screws, and at the end of each material (four) rods are connected - the motor 'motor joint = table" and the motor drives each ball lead screw to drive the front and rear sliding seats 14, 15 The manner of moving forward and backward moves to achieve the effect of electrically adjusting the positions of the front and rear sliding seats 14, 15. The first preferred embodiment of the present invention is provided on the left side of the front sliding seat 14 except that the adjusting screw lifter % and the torsion arm 27 are configured. In addition, the extension plate 142 may be configured to extend to the right, and the turbine screw elevator redundancy and the torsion arm 27 and the like may be modified to the right side of the front sliding seat 14. Further, the pin hole 332 and the pressure red 36 are In addition to the left side of the rear drum 33 and the rear bearing housing 31, the pin holes 332 and (5)% may be modified on the right side of the rear drum 33 and the rear bearing housing 31, so that the telescopic rod 361 of the pressure_ can still be inserted. The pin hole 332 of the rear drum 33 will position the rear drum When the first preferred embodiment of the present invention is used, the front and rear lengths of the metal Μ of the Μ-shaped rod are not adjusted as shown in Figs. 1, 5, and 8, and the straightening machine 20 and the rear straightening are adjusted. The position of the machine 30, when adjusting the front and rear positions of the front straightening machine 2〇 and the rear straightening machine 3〇, is the turning front turning lever 1 82 and the rear turning handle 92, the front turning gear 181 and the rear turning gear The rotation of 191 drives the front 'rear racks 141, 161 and the front and rear slide seats 14, 16 to move along the front and rear linear slides 13, 15 thereby changing the front straightener 2 〇 and the rear straightener 3 〇 The front and rear distances are suitable for the length of the metal material A. When the metal material A is straightened, as shown in Fig. 1, during the process of inserting the metal material A, the material guiding structure of the front and rear ends can be rolled. The shaft 43 supports the metal material A, so that the operation of inserting the metal material A can smoothly advance, and as shown in FIG. 8 to FIG. 1 , in the process of inserting the metal material A, the first turn 23 and the front mold 24 are rotated together. The position where the front sleeve hole 241 is squared is to insert the metal material A from the front sleeve hole 241 of the front straightener 20, and then the rear straightener 3 The rear drum 3 3 of the 0 and the rear mold 3 4 are rotated together to the rear sleeve hole: 41 is suitable for the position where the rear end of the metal material A is inserted, and since the back sides of the metal material A are in a distorted state, the metal material A is When the rear end is inserted into the rear sleeve hole 341 of the rear straightener 30, the rear sleeve hole 341 is opposite to the front: the hole 241 is in a state of being rotated away from the swing position. Next, the rear drum 33 and the rear mold of the rear straightener 30 are used. 34 together with the metal material A _ is rotated to the position where the rear sleeve hole 341 is squared, and the rear drum 33 of the rear straightening machine 3 and the front drum 23 of the front straightening machine buckle are rotated during the rotation of the metal material A, As shown in FIG. 4, the rotating rear drum 33 can be rotated through the rear belt 353 and then the rear decoder shaft (6) of the decoder 35 can be read through the rear decoder 35 to read the rear side of the metal material A. Timing, the front side of the metal material A needs to be reversed to the positive angle value with respect to the rear side, and (4) the reddened % telescopic rod 361 is inserted into the rear drum pin hole 332 to fix the position of the drum 33 after the W25007 is turned, so that the rear turn The position of the tube is reversed to the angle reference of the metal material A. "For the script straight machine 20, then the angle material A read by the rear decoder 35 is returned to the correct f # 1 and the value is added by the twisted metal material drive, and the two angles are used to obtain the continuous (four) special angle, The motor 261 drives the twisting (four) 4 - action of the top end of the telescopic rod 361 361 to be pivotally connected to the side of the telescopic rod. In the process, the m rotor 23 and the front twisting angle of the metal material A are 25 (4), and the drum 33 and the gold (4) are confirmed. ^ Side position = 1: Torsion angle, when the metal material is in front of the work. 卩 The metal material is shaken A toward the front to complete the straightening drive = (4) The preferred embodiment is a turbine screw lift -, #接件263 , 杻 f f 27 and (4) collar 271 nose: constitutes a rotating structure that can be coupled to drive the rotation of the front drum 23, and also "the combination of his structure as a rotating structure for driving the front drum 23 to rotate, as shown in Figs. 14 and 15 A second preferred embodiment of the present invention is shown. The rotating configuration of the second preferred embodiment of the present invention is in the front bearing housing. 2, extending outwardly, a mounting plate 50' is coupled to a driving motor unit 51 at the front of the mounting plate 5'', and the driving motor group 51 is extended rearwardly-drive shaft 52, and the coughing drive is forged backwards by 52. The plate 50' is sleeved with a fixed-drive gear 53' at the rear end of the drive shaft, and a driven gear 54 is fixed around the rear end of the front drum 23. The driven gear 54 has more teeth and diameter than the drive gear μ. The number of teeth and the diameter 'the driven gear 54 is engaged with the driving gear & the driving motor group 51 can drive the front rotating drum 23 to rotate through the driving gear 53 and the driven gear ;; The rest of the configuration and the manner of use are the same as those of the aforementioned first preferred embodiment, so this creation is not limited here by 15 M425007. In the present invention, a flattening adjustment device 6 is disposed at a position between the front bridge straight button and the rear end straight machine 30. The flattening device 60 is in the office. The left side of the ten sets of the ten sets are extended upwards, the uprights 61, the suspension arm a is extended to the right at the top end of the upright 61, and the L-shaped extension is extended on the bottom surface of the suspension arm 62. The bracket 63 defines a bracket 631 at the bottom of the L-shaped bracket 63. The bracket 631 can support the middle portion of the metal=A, and at the top of the suspension f^, the dust-filled wheel snail is attached to the lift 64. In the middle of the I-flat turbine screw lift Μ, a vertical-and-lifting feed turbine screw 641 is passed through which the screw-down wheel passes downwardly through the suspension arm 62 and incorporates a flattening block 65 at the bottom end. When the present invention is used for a short straight metal material A, the middle portion of the gold layer 'swing can be swung on the pallet 631 of the dust level adjusting device 6〇, and the flattening of the turbine screw jack 64 is driven. The turbine screw is lowered, and the straightening machine 20 is assisted in the straightening operation in such a manner that the :63 is fitted with the intermediate portion of the metal material a in the manner of the supporting plate 631. BRIEF DESCRIPTION OF THE DRAWINGS A circle 1 is a perspective view of a first preferred embodiment of the present invention. Figure 2 is a perspective view of a preferred embodiment of the present invention. Figure 3 is an exploded view of the front straightener of the preferred embodiment of the present invention. : 4, the decomposition circle of the rear straightening machine of the first preferred embodiment of the present invention. 5 is a partial cross-sectional view of the first preferred embodiment of the present invention. 2, a cross-sectional view of the front straightener of the first preferred embodiment of the present invention. 7. A cross-sectional view of a rear straightener in accordance with a preferred embodiment of the present invention. 8. The implementation of the first preferred embodiment of the present invention for inserting a metal material is shown in the description of M425007. Figure 9 is a first cross-sectional view of the creation. In the preferred embodiment, the mold is inserted into the metal material. Figure 1 is a cross-sectional view of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Figure 11 is a metal material inserted into the mold. The first preferred embodiment of the present invention is a twisted straightening metal.
圖12是本創作第一較佳實施例前模具扭轉金屬 實施示意圖。 材料的 圖13是本創作卜較佳實施例後模具;t位歸零的實施 示意圖》 圖14疋本創作第二較佳實施例的立體圖。 圖1 5疋本創作第二較佳實施例的立體圖。 圖1 6疋本創作第二較佳實施例壓平調整裝置的側視圖Figure 12 is a schematic view showing the implementation of the torsion metal of the front mold of the first preferred embodiment of the present invention. Figure 13 is a schematic view of the preferred embodiment of the present invention; the implementation of the t-bit return to zero. Figure 14 is a perspective view of the second preferred embodiment of the present invention. Figure 15 is a perspective view of a second preferred embodiment of the present invention. Figure 1 is a side view of a second preferred embodiment of the flattening adjustment device
1 1平台 1 3前線性滑執 1 41前齒條 1 5後線性滑轨 1 61後齒條 1 8前轉動軸 1 8 2前轉把 1 91後轉動齒輪 2 0前矯直機 【主要元件符號說明】 1 〇底座 1 2支撐柱 1 4前滑動座 142延伸板 1 6後滑動座 17圍板 181前轉動齒輪 1 9後轉動軸 192後轉把 17 M425007 21前軸承座 21 2前軸承板 214前支架 22前抽承 231前束套管部 233前模具鑲嵌凹部 24前模具 25前譯碼器 252前齒輪 26渦輪螺桿升降機 262渦輪螺桿 27扭轉臂 272外鍵槽 30後矯直機 31 1後穿置孔 31 3後軸桿 31 5後設置板 32後軸承 331後束套管部 333後模具鑲嵌凹部 34後模具 35後譯碼器 352後齒輪 36壓缸 40材料導引構造 2 1 1前穿置孔 21 3前軸桿 2 1 5前設置板 23前轉筒 232鍵槽 234前齒環 241前套孔 251前譯碼器轉軸 253前皮帶 2 61驅動馬達 263枢接件 271扭轉套環 2 7 3鍵塊 31後軸承座 31 2後轴承板 31 4後支架 316插銷座 33後轉筒 332插銷孔 334後齒環 341後套孔 351後譯碼器轉軸 353後皮帶 361伸縮桿 41支撐座 M425007 42滾動軸承 43滾動軸 A金屬材料 50裝設板 51驅動馬達組 52驅動軸 53驅動齒輪 54從動齒輪 60壓平調整裝置 61立柱 62懸吊臂 63 L形支架 6 31托板 64壓平渦輪螺桿升降機 641壓平渦輪螺桿 65壓平塊 191 1 platform 1 3 front linear slider 1 41 front rack 1 5 rear linear rail 1 61 rear rack 1 8 front rotating shaft 1 8 2 front turning handle 1 91 rear rotating gear 2 0 front straightening machine [main components DESCRIPTION OF SYMBOLS 1 〇 Base 1 2 Support column 1 4 Front slide seat 142 Extension plate 1 6 Rear slide seat 17 Coaming plate 181 Front rotation gear 1 9 Rear rotation shaft 192 Rear turn lever 17 M425007 21 Front bearing seat 21 2 Front bearing plate 214 front bracket 22 front drawer 231 front bundle sleeve portion 233 front mold inlay recess 24 front mold 25 front decoder 252 front gear 26 turbine screw lift 262 turbine screw 27 torsion arm 272 outer key slot 30 rear straightening machine 31 1 after Through hole 31 3 rear shaft 31 5 rear plate 32 rear bearing 331 rear beam sleeve portion 333 rear mold inlay recess 34 rear mold 35 rear decoder 352 rear gear 36 cylinder 40 material guiding structure 2 1 1 front Through hole 21 3 front shaft 2 1 5 front setting plate 23 front drum 232 key groove 234 front tooth ring 241 front sleeve hole 251 front decoder shaft 253 front belt 2 61 drive motor 263 pivot member 271 torsion collar 2 7 3 key block 31 rear bearing seat 31 2 rear bearing plate 31 4 rear bracket 316 latch seat 33 rear drum 332 pin hole 334 rear ring 341 Socket 351 rear decoder shaft 353 rear belt 361 telescopic rod 41 support seat M425007 42 rolling bearing 43 rolling shaft A metal material 50 mounting plate 51 drive motor group 52 drive shaft 53 drive gear 54 driven gear 60 flattening adjustment device 61 Column 62 Suspension Arm 63 L-shaped bracket 6 31 pallet 64 flattening turbine screw lift 641 flattening turbine screw 65 flattening block 19