TW590873B - Mold clamping system - Google Patents
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- TW590873B TW590873B TW92103380A TW92103380A TW590873B TW 590873 B TW590873 B TW 590873B TW 92103380 A TW92103380 A TW 92103380A TW 92103380 A TW92103380 A TW 92103380A TW 590873 B TW590873 B TW 590873B
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590873590873
【發明所屬之技術領域】 本發明係有關一種鎖模系統,尤指一種可精確控制鎖 模力、及控制鎖模前、中、後板三者平行度之系統設計, 以有效改善射出成品產生收縮、翹曲以及排氣不佳等缺失 【先前技術】 隨著科技的進步,相對的對於橡塑膠產品的要求也日 益提升,不論在產品的量與質都需要有更高··,更嚴格的要[Technical field to which the invention belongs] The present invention relates to a mold clamping system, in particular to a system design that can precisely control the clamping force and control the parallelism of the front, middle and rear plates of the mold clamping to effectively improve the production of injection finished products. Lack of shrinkage, warpage, and poor exhaust [Previous technology] With the advancement of technology, the relative requirements for rubber and plastic products have also increased, regardless of the quantity and quality of the products. Essential
求;故生產設備也同時進入高精度、低故障率,低能源損 耗與低污染的時代。於是,取代舊有傳統以油壓為動力之 射出成形機之全電式(all electric)射出成形機於是應運 而生。 射出鎖模系統(clamping system)的穩定性與精度是 影響塑膠射出成型品質良劣的一個非常重要的技術指標, 個不穩疋的鎖模糸統將直接影響設出週期(c y c 1 e t Μ e ) 不穩’也會造成鎖模力不均並導致生產時間不易估計、以 及良率/不良率比率的浮動、增加生產成本。而鎖模精度 不佳’將導致射出成品產生收縮、翹曲以及排氣不佳等重 大不良缺陷。 . 本創作人係舉出傳統式射出成形機之鎖模系統結構; 如下所述:Therefore, production equipment also entered the era of high precision, low failure rate, low energy consumption and low pollution. As a result, the all-electric injection molding machine that replaced the traditional hydraulic injection molding machine was born. The stability and accuracy of the injection clamping system is a very important technical index that affects the quality of plastic injection molding. An unstable clamping system will directly affect the set-up cycle (cyc 1 et Μ e 'Unstable' will also cause uneven clamping force and cause difficult to estimate production time, as well as fluctuations in the yield / defective ratio, and increase production costs. Poor clamping accuracy will cause major defects such as shrinkage, warpage, and poor venting of the finished product. . The author lists the structure of the clamping system of the traditional injection molding machine; as follows:
【習知一 J 如第一圖所示,tiebarless直壓式鎖模系統,其重點[Knowledge 1 J As shown in the first picture, the tiebarless direct pressure clamping system
第5頁Page 5
9210^ρπ 五、發明說明(2) ΐΓ貞為垂直於基座ia上之線性滑軌…做平移 角产轉動ml為鎖料該内基座4a預計變形時所需之 盘ίί &下方於内基座4a連接點設有水平 平1變二、位槽8a,對應限制鎖模後板13a只能水 中板14/t f ;、f位旋轉產生,以為持油壓缸21a與鎖模 ^二3 對位置;當鎖模力產生時,内基座乜向 ^ ° 、凹口變形,此時鎖模前、後板9a、1 3a以鎖 為承靠基準,分別朝逆、正時針韓動,以平衡 土 i a艾形產生之角度誤差,以維持鎖模前、中、後板 之平行。 · 【習知二】 二/圖所示,以鎖模中板22b為基準,在鎖模前板 “ ”鎖权後板21b下方兩側對應與連接板4〇b樞設;而鎖 杈中+=22b則於連接板4〇b上之線性滑軌45b水平移動;而 鎖模前板20b所設之長槽4ib、接點42b,及鎖模前板2〇b與 ^座i〇b間係設有彈性體60b、62b ,藉此,於鎖模力產/生 時,機座i〇b外張凹口會變形,而線性滑軌45b仍可維持水 平因忒彈性體6 〇 b、6 2 b可對應將基座外張凹口變形後與 鎖杈前板2Ob之差異量吸收;·而鎖模後板21b於鎖模力產生 之同時,基座產生外張凹口變形,鎖模後板21b會順著轉 軸50b轉動,以補正基座因外張凹口變形之垂直誤差·,又 ,由彈性體52b之設置,以提供鎖模後板21b於開模時,鎖 拉油壓缸32b可維持永遠垂直對正鎖模中板22b,避免油壓9210 ^ ρπ 5. Description of the invention (2) ΐΓ 贞 is a linear slide rail perpendicular to the base ia ... do translation angle production rotation ml is used to lock the material required when the inner base 4a is expected to deform ί & The connection point of the inner base 4a is provided with a horizontal flat 1-change 2 and a bit groove 8a, corresponding to the restriction of the mold-locking plate 13a, which can only be a water plate 14 / tf; the f-position rotation is generated to hold the hydraulic cylinder 21a and the mold lock ^ 2 3 pairs of positions; when the clamping force is generated, the inner base 乜 direction ^ °, the notch deforms. At this time, the front and rear plates 9a, 1 3a of the mold are locked with the lock as the reference, and they move counterclockwise and clockwise. The angle error generated by the balance soil ia shape to maintain the parallelism of the front, middle and rear plates of the mold. · [Knowledge 2] As shown in the second / figure, the middle plate 22b of the mold clamping is used as the reference, and the two sides below the right locking plate 21b of the mold clamping front plate are pivotally connected to the connecting plate 40b. + = 22b moves horizontally on the linear slide 45b on the connecting plate 4b; and the long groove 4ib, the contact 42b, and the clamping front plate 20b and the bracket i〇b are provided on the mold clamping front plate 20b. Elastic bodies 60b and 62b are provided between the frames, so that when the clamping force is produced / generated, the outer notch of the frame i0b will be deformed, and the linear slide rail 45b can still maintain the level due to the elastic body 60b. , 6 2 b can absorb the difference between the deformation of the base notch and the front plate 2Ob of the lock; while the mold-locking plate 21b generates the deformation of the base while the clamping force is generated, After the mold clamping plate 21b is rotated along the rotating shaft 50b to correct the vertical error of the base due to the deformation of the opening notch, and the elastic body 52b is provided to provide the mold clamping plate 21b to be pulled when the mold is opened. The hydraulic cylinder 32b can always align the mold clamping plate 22b vertically to avoid oil pressure
第6頁 590873Page 6 590873
桿3 2 b產生側向力之—折 【習知三】 與.鎖模力不均的情況。 如第三圖所示’鎖模中板13 ™5c ^ ^ ;tc 模^、應以外、内c型板i7c、i9c連結,於鎖 2νίΐ二:與外、内C型板17C'19c之連結點18c Z u c 係έ又有轉軸,而销爐於4 q 取代轉軸;當鎖模時,广有小油壓虹來The lateral force of the rod 3 2 b-break [Knowledge 3] and the situation of uneven clamping force. As shown in the third picture, 'Molding plate 13 ™ 5c ^ ^; tc mold ^, should be outside, inner c-shaped plate i7c, i9c connected to the lock 2νίΐ2: and the outer and inner C-shaped plate 17C'19c connection Point 18c Z uc has a rotating shaft, and the pin furnace replaces the rotating shaft at 4 q; when the mold is locked, there is a small oil pressure rainbow.
T ^ , C 9c , ^ ^ ^ ^ ^5C 将神祝5又,而上端受外C型板1 7。ϋ』 =及小油壓缸固設;故鎖模前板3c將 ;r二:cr:rc將產生外凹口變形,使鎖:二 、:!針,Ϊ 時,鎖模前板3e之*油壓缸23即會作動、 並將鎖模前板3c轉動之值孩| 问d 偏移做一補正,使鎖模前板3c被推 並可平仃於鎖模中板13c ;而鎖模後板5c上、下端係 :乂外、内c型板17c、19c與鎖模前板3c連結,故當鎖模前 板3c於進灯偏移補正時,該鎖模後板5c 達成保持鎖模前、中、後板之平行。 军動而 【習知四】 如第四圖所示,鎖模前:後板3(1、5d係以外、内l型 固定板19d、17d對應連結,鎖模前、後板%、“之上端係 與外、内L型固定板1 9d、〗7d之上端對應柩設;而鎖模前 、後板3d、5d之下端則同時與外、内L型固定板〗“、i7d 之下端對應柩設,該外、内L型固定板19(1、17(1於組設後 呈交錯狀態’·當受鎖模力時,鎖模中板〗3d以鎖模辛板導 590873 修正T ^, C 9c, ^ ^ ^ ^ ^ ^ 5C will be 5 to God, and the upper end is received by the outer C-shaped plate 17. ϋ 』= and the small hydraulic cylinder are fixed; therefore, the mold clamping front plate 3c will be; r2: cr: rc will cause deformation of the outer notch, so that the lock: II ::! pin, Ϊ, the mold clamping front plate 3e * Hydraulic cylinder 23 will operate and rotate the clamping plate 3c | Q d offset to make a correction so that the clamping plate 3c can be pushed and flat against the clamping plate 13c; The upper and lower ends of the back plate 5c: outer and inner c-shaped plates 17c and 19c are connected to the front plate 3c of the mold clamping, so when the front plate 3c of the mold clamping is compensated for the offset of the lamp, the rear plate 5c of the mold is maintained. The front, middle and rear plates of the mold are parallel. Military movement [Knowledge 4] As shown in the fourth figure, before the mold clamping: the rear plate 3 (1, 5d, other than the inner l-shaped fixed plates 19d, 17d are correspondingly connected, the mold clamping front and rear plates%, "of The upper end corresponds to the upper ends of the outer and inner L-shaped fixed plates 190d and 7d; the lower ends of the front and rear clamping plates 3d and 5d correspond to the lower ends of the outer and inner L-shaped fixed plates》 "and i7d. It is assumed that the outer and inner L-shaped fixing plates 19 (1, 17 (1 are staggered after being assembled '. When the clamping force is received, the clamping plate 〖3873) is corrected by the clamping clamping plate 590873.
ί3鎖7ά//Λ模柱祝做水平直線位移直到鎖模位; 田鎖模力產生時,外、内L型固定板19(1、i7d Μ號 92ifmsn 五、發明說明(4) 下前、後板3d,分別以上端之轉:21d、2 的L型固定板17d的水平位移槽29d做逆時鐘轉ί3Lock 7ά // ΛThe mold column wishes to perform horizontal linear displacement until the mold clamping position; When the mold clamping force is generated, the outer and inner L-shaped fixing plates 19 (1, i7d Μ 92ifmsn) V. Description of the invention (4) Front and back Plate 3d, respectively, the upper end of the rotation: 21d, 2 L-shaped fixed plate 17d horizontal displacement groove 29d for counterclockwise rotation
7 +移,使鎖模前、後板3d、5d與鎖模中板Ud 【習知五】 J 如第五圖所示,鎖模中板7e置於U型基座 直線運動;鎖模前、後板2e、3e^型基座 ::疋面,以彈性體5e、6e當連接介質;當鎖.·模力施加其 中板呈凹口外開㈣’鎖模前板2e會以鎖模 與中柄7 ίί 而藉彈性體5e導正,使前板2e得以 i菩Φ / '仃,而後板36亦是相同原理,該油壓缸4e將會 呈垂直ί態而藉彈性體66導正㈣,使油壓缸46與中板7e 美庙Ϊ ΐ!*上述傳統式射出成形機之鎖模系統結構中,不管 ί、、兄2或1型,鎖模力產生時,"發生外開變形的 設有鳇:的方式不外乎於所模前、後板或機座連接處 _以ϋ a ^或以相互作用之連桿、滑塊、甚至彈性體等, ^、 正、補償因鎖模力所產生之變形,及鎖模前、 、後板二者所喪失的平行度。 处槿ίΪ!!此’本創作係因傳統式射出成形機之鎖模系統 谷易造成種種之使用上缺失及難盡完美之處,經 高精户:2:究改良後係創本案’期能確實擁有高射速、 精度之射出成型機,以符合廣大使用者之需求。7 + shift to make the front and rear plates 3d, 5d of the mold clamping and the plate Ud of the clamping mold [Knowledge 5] J As shown in the fifth figure, the plate 7e of the mold clamping is placed on the U-shaped base to move linearly; , 2e, 3e ^ type base :: 疋 face, with elastomers 5e, 6e as the connection medium; when the lock is applied. · Mold force is applied in which the plate is notched outside the opening. 'Clamping front plate 2e will be clamped with The middle handle 7 ί and the elastic body 5e is used to guide the front plate 2e, and the rear plate 36 is the same principle. The hydraulic cylinder 4e will be in a vertical state and align with the elastic body 66. ㈣, make the hydraulic cylinder 46 and the middle plate 7e beautiful temple ΐ! * In the above-mentioned conventional injection molding machine's mold clamping system structure, regardless of the type of 、, 2 2 or 1, when the clamping force is generated, Deformation is provided with 鳇: the method is nothing more than the front, back plate or base joint of the mold _ ϋ a ^ or interactive links, sliders, and even elastomers, etc., ^, positive, compensation Deformation due to clamping force, and loss of parallelism of the front, rear, and rear plates of the mold. At the same time, this 'this creation is due to the lack and perfection of various uses caused by Gu Yi, the clamping system of the traditional injection molding machine, and it ’s difficult to perfect it. The high-precision households: 2: Investigate the improvement and create the case' period Can really have high injection speed and precision injection molding machine to meet the needs of the majority of users.
第8頁 jyvQ/jPage 8 jyvQ / j
内容】 是,本創 創作頂出 精確的控 為目的, 縮、趣曲 創作係有 模後板; ’該鎖模 模中板後 裝置對應 鎖模後板 、補償因 維持平行 維持垂直 效果者。 要目的即 鎖模裝置 力、及鎖 改善因鎖 氣不佳等 鎖模系統 係在於: 應設置於 一頂出裝 而該鎖模 又對應樞 所產生之 ;而該頂 ;藉本創 提供一種鎖模系統 裝置之配合設計, 中、後板相互間之 均而導致射出成品 【發明 爰 ,藉本 以有效 平行度 產生收 本 板及鎖 為一體 ;該鎖 與鎖模 板,該 助導正 中板可 模中板 鎖模之 作之主 裝置、 制鎖模 以確實 以及排 關一種 其特徵 中板對 方連設 枢設, 之底部 鎖模力 的狀態 狀態者 在於: 及調模 模前、 模力不 缺失。 包括有 該鎖模 鎖模前 置,該 裝置係 設一調 變形或 出裝置 作結構 鎖模前 前板係 板上之 頂出裝 對應穿 模裝設 偏移, 及鎖模 設計, 板、鎖模中 為·線性滑軌 線性滑軌中 置並以轉軸 設於鎖模後 ,以對應輔 使鎖模前、 裝置可與鎖 以確實提昇Content] Yes, the original creation is aimed at precise control. For the purpose of miniaturization and tune creation, there is a back plate; ‘the back plate of the mold is corresponding to the back plate of the mold, and the compensation is maintained in parallel and the vertical effect is maintained. The main purposes are the clamping force of the clamping device and the improvement of the clamping system due to poor air locking. The clamping system is: It should be installed in a ejector and the mold is corresponding to the pivot; and the ejector; The cooperative design of the clamping system system, the middle and rear plates are evenly spaced to each other, which results in the injection of the finished product [invention 爰, the book is produced with the effective parallelism to receive the plate and the lock as a whole; the lock and the lock template, the guide to the center plate The main device for mold clamping in the mold, the mold clamping mechanism is used to determine and release the characteristics. The characteristics of the plate are connected to each other, and the state of the clamping force at the bottom is: before the mold adjustment, the mold force Not missing. Including the mold clamping and clamping front, the device is provided with a deformation adjustment or output device as the structure of the front plate of the front panel of the mold clamping structure. The mold is: Linear slide rail The linear slide rail is centered and the rotation axis is set after the mold clamping to correspond to the auxiliary mold clamping before the device can be locked with the lock
【實施方式一】 _立首先,第六〜九圖所示,係為本發明鎖模系統之結構 不思圖,本發明之鎖模系統係包括有鎖模前板丨、鎖模中 板2及鎖模後板4 ;藉鎖模前板1與鎖模中板2對應夾 射出模;其中: 守 該鎖模前板1係與線性滑轨6為一體,該鎖模中板2[Embodiment 1] _ First, as shown in Figures 6-9, the structure of the mold clamping system of the present invention is not shown. The mold clamping system of the present invention includes a mold clamping front plate 丨 and a mold clamping middle plate 2 And the mold clamping rear plate 4; the mold clamping front plate 1 and the mold clamping middle plate 2 are correspondingly ejected from the mold; of which: the mold clamping front plate 1 is integrated with the linear slide rail 6, and the mold clamping middle plate 2
^90873^ 90873
對應設置 後方連設 裝置B對 4 ,該鎖 應輔助導 板1 、2 B可與鎖 該頂 鎖模中板 帽1 9,而 ,該被動 3 9置設, 應裝設於 好位於軸 桿1 7外徑 之凹槽中 於鎖模前 一頂出裝 應槐設, 模後板4 正、補償 可維持平 模中板2 出裝置A 驅動座3 於該滾珠 皮帶輪固 該頂出伺 被動皮帶 承座2 1内 ’除了鄰 板1 上之線性滑軌6 置A ,該頂出裝置A 而該鎖模裝置B係對 之底部又對應樞設一 因鎖模力所產生之變 行的狀態;而該頂出 維持垂直狀態者。 (如第十圖所示)係以 連結,而滾珠螺桿1 7 螺帽1 9外徑套設一被 定座20係以供被動皮 服馬達11之主動皮帶 輪18,以對應帶動; 部;該頂出導板22係 設於滾珠螺帽1 9並嵌 中;該鎖模中板2 並以轉轴7與鎖模 應穿設於鎖模後板 调模裝設C ,以對 形,使鎖模前、中 裝置A及鎖模裝置 滾珠螺 外徑套豉一滾珠螺 動皮帶 帶輪18 輪9係 而該頂 對應設 設於中 桿1 7對應與 輪固定座2 〇 及頂出軸承 以一皮帶對 鲁 出軸承3 9恰 置於滾珠螺 板驅動座3 4,松裝置B (如第十一圖所示)係對應設置於鎖模後 二2^^承座承窩36中,其滾珠螺桿5夕卜徑套設一滾珠 螺巾自26:而於該滾珠螺帽以外徑套設一被動皮帶輪固定座 2二S :二動皮帶輪固定座27係以供被動皮帶輪25及鎖模軸 承^ ^二,並將上述結構對應設置於球軸承座24中,並使 '掛庫帶叙I輪16係以一皮帶對應裝設於被動皮帶輪25, 以心 者,將球軸承座24對應置設於球軸承座承窩36Corresponding to the rear connection device B to 4, the lock should assist the guide plates 1, 2 B and the top mold lock 19, and the passive 39 should be installed on the shaft. 1 7 The outer diameter of the groove is ejected before the mold clamping, and the rear plate is 4. The positive and compensation plates can be maintained in the flat mold. 2 The device A is the drive seat. 3 The ball belt pulley is fixed to the ejector. Inside the belt holder 2 1 'In addition to the linear slide 6 on the adjacent plate 1, A, the ejection device A and the mold clamping device B are pivotally provided at the bottom corresponding to a deformation caused by the clamping force. State; and the ejector maintains a vertical state. (As shown in the tenth figure) is connected, and the ball screw 1 7 nut 19 is provided with a fixed seat 20 for the active belt pulley 18 of the passive leather motor 11 to drive correspondingly; The ejection guide plate 22 is set in the ball nut 19 and embedded; the mold clamping middle plate 2 and the rotating shaft 7 and the mold clamping should be passed through the mold clamping rear plate adjustment device C to form a shape so that Front and middle clamping device A and mold clamping device ball screw outer diameter sleeve 外径 a ball screw driving belt pulley 18 wheels 9 series and the top correspondingly provided on the middle rod 1 7 corresponding to the wheel fixed seat 2 0 and the ejection bearing A pair of lug-out bearings 3 9 are placed on the ball screw drive seat 3 4 with a belt, and the loosening device B (as shown in the eleventh figure) is correspondingly arranged in the post-clamping socket 2 36 2 ^^ The ball screw is provided with a ball screw wiper from 26: and a passive pulley fixing seat 22 is set on the ball nut with an outer diameter of 22: S: a two-moving pulley fixing seat 27 is used for the passive pulley 25 and the mold clamping The bearing ^ ^ two, and the above structure is correspondingly arranged in the ball bearing seat 24, and the 'hanging library belt I wheel 16 series is installed on the passive pulley 25 with a belt corresponding to The ball bearing seat 24 is correspondingly arranged on the ball bearing seat socket 36
590873590873
中再以承座蓋板23對應鎖設於鎖模後板4而達成良好 的組設。 而該頂出裝置A中之鎖模中板驅動座3係以一轉轴7 與該鎮模裝置B之滾珠螺桿5對應樞設連結者。 該调模裝设c (如第八圖所示)係以轉軸2 §對應樞設於 鎖模後板4之底部,調模馬達2 9固設於調模馬達座3 〇上, 而調模馬達29輸出端對應設置有堝桿34,該堝桿34係對應 與設置於調模螺桿丨2末端之堝輪35卡合;該調模螺桿12乃 螺設於調模板14上,其兩者間設有一調模彈簧13、於調模 巧14上除了設有調模螺桿12外、並設有彈簧導柱31,該調 模板14係可對應於導引線性滑軌8中平行運動,而該彈簧 球軸承座蓋板32及彈簧導柱球軸承33係對應設置於彈 /、V柱31上方,於該鎖模後板4左右兩側之凸肩與基座内 側凹緣之相對接合面設有一感測器3 7。 曰百先需先建立鎖模預壓力,該調模馬達29驅動調模螺 才:1 2以對應移動調模後板1 4,此時,該調模彈簧1 3受到 壓縮,調模彈簧導桿31對應頂推鎖模後板14向上,以建立 鎖模預壓力。 :調模完成後’即可開始進行鎖帛,該鎖模伺服馬達 子應帶動被動皮帶輪25,以同時帶動滾珠螺帽26,但由 於滾珠螺桿5前端以轉軸7固定於鎖模中板驅動座3上, 2珠螺桿5 &法轉動,而與滾珠螺帽26產生相對的平移 運動’驅使鎖模中板2前移至鎖模位置。 590873 修正 曰 i號 92103380 五、發明說明(8) 到銷ΐ ΐ Γ板2至鎖模位置後’鎖模馬達1 〇繼續出力,直 時,該、鎖C達29與調整彈簧所建立之鎖模預愿力 置·爾Ϊ : 會停止作動,以煞車鎖住、並固定位 置,爾後丄該鎖模系統則會進行下一動作。 疋4 模力二二而變形,而鎖模中板2由於鎖 模滾珠螺桿5 時位移產生傾斜;此時,鎖 心,進行相斜;ΪΪ 動座3以其相接的轉軸7為中 t鎖模推力維持在鎖模中板2之中心線m:達 ==免受相對水平位置改變之二一力=可 鎖模彳 模:::=,鎖模後板… 基座1凸緣接觸赴夕π頃時針轉動’使鎖模後板4與 壓力值緣接觸點之感測器37分離’以促使感測器37感測 由於鎖模後板4有棘备^ # 後板4中心線已有此^ 移,該鎖模螺桿5與鎖楔 :),此偏移量可藉由球軸承座2 =:〜十四圖所 ==對傳動位移吸收,避免珠;, ΪΓ力破壞,也可保持滾珠螺桿5之水4 【貫施方式二】 如第十五、十六圖所示,係為本創 施例一、二, 本創作鎖模系統中, 作鎖模裝置另 該鎖模動力#(伺服馬 第12頁 590873In the middle, the bearing cover 23 is locked to the rear plate 4 of the mold to achieve a good assembly. The mold clamping middle plate driving seat 3 in the ejection device A is pivotally connected to the ball screw 5 of the mold forming device B by a rotating shaft 7. The mold adjustment device c (shown in the eighth figure) is pivoted on the bottom of the mold clamping rear plate 4 with a rotating shaft 2 §, the mold adjustment motor 29 is fixed on the mold adjustment motor base 30, and the mold adjustment The output end of the motor 29 is correspondingly provided with a pot rod 34, which is correspondingly engaged with a pot wheel 35 provided at the end of the mold adjustment screw 2; the mold adjustment screw 12 is screwed on the adjustment plate 14 and the two There is a mold adjusting spring 13 in addition to the mold adjusting screw 12 and a spring guide post 31 on the mold adjusting tool 14. The adjusting template 14 can correspond to the parallel movement in the guide linear slide rail 8, and The spring ball bearing seat cover plate 32 and the spring guide post ball bearing 33 are correspondingly arranged above the spring / v-pillar 31, and the opposite joint surfaces of the shoulders on the left and right sides of the mold-locking rear plate 4 and the concave edges on the inside of the base Equipped with a sensor 37. Before the mold-clamping pre-pressure is established, the mold-adjusting motor 29 drives the mold-adjusting screw: 12 to move the mold-adjusting rear plate 14 at this time. At this time, the mold-adjusting spring 13 is compressed and the mold-adjusting spring guides. The lever 31 pushes up the back plate 14 corresponding to the mold clamping to establish the mold clamping pre-pressure. : After the mold adjustment is completed, the locking can be started. The mold clamping servo motor should drive the passive pulley 25 to drive the ball nut 26 at the same time, but because the front end of the ball screw 5 is fixed to the mold clamping plate drive base by the rotation shaft 7 3, 2 ball screw 5 & method rotation, and the relative translation movement with the ball nut 26 'drive the clamping plate 2 forward to the clamping position. 590873 Amendment No. 92103380 V. Description of the invention (8) After the pin ΐ ΐ Γ plate 2 reaches the clamping position, the 'clamping motor 1' continues to output. When this happens, the lock C reaches 29 and the lock established by the adjustment spring The mold pre-set force Er Er: will stop the operation, locked by the brakes, and fixed the position, and then the mold clamping system will proceed to the next action.疋 4 The mold force is deformed, and the clamping plate 2 is tilted due to the displacement of the clamping ball screw 5; At this time, the center of the lock is inclined; ΪΪ The moving seat 3 uses the rotating shaft 7 connected to it as the middle t The clamping force is maintained at the centerline of the plate 2 in the mold clamping m: up to == to prevent the second force from changing the relative horizontal position = mold clamping die: :: =, the clamping plate is in contact with the flange of the base 1 Twice at night, turn the hand 'separate the sensor 37 at the contact point between the mold clamping rear plate 4 and the pressure value edge' to promote the sensor 37 to sense that the rear plate 4 has a spine due to the mold clamping ^ # Rear plate 4 center line Already this shift, the mold clamping screw 5 and the wedge lock :), this offset can be absorbed by the ball bearing seat 2 =: ~ fourteen = = to absorb the transmission displacement to avoid beads ;, ΪΓ force damage, The water 4 of the ball screw 5 can also be maintained. [Performance mode 2] As shown in the fifteenth and sixteenth drawings, this is the first and second embodiment of the present invention. In this creative mold clamping system, the mold clamping device should be locked. Model Power # (Servo Horses Page 12 590873
MM 921Q33«n 五、發明說明(9) 達)與機構(滾珠螺桿組、虔 代’該可將鎖模飼服馬賴皮以以:^缸取 2等5元:ίΐ帽26、被動皮帶輪固定座27、球“座承S 消,而鎖模滾珠螺桿26改為油壓#,鎖模= 座改為相冋外型之油壓缸鎖模作承 即可帶動合模中板作前、後開關模““作動, « 本# 2第十—、十人圖所示,係為本創作鎖模裝置又-貝t勉一,本創作鎖模系統中,該磁力線圈(Magnet 广),鎖模球軸承座24可為-體成型,又該磁h圈 =則與鎖模球軸承座24可為兩件式設計,= 圖(M agnl y〇ke)與鎖模球軸承座24分開製作,磁力線 虹鎖模球軸承座鎖m:二24,可為-體成型。該油壓 體,對應套設於原二二圓筒型油壓缸本 工成本,*至可使球軸承座24中,可大大節省加 j便用市售規格品來作配合。 綜觀上述,我彳門i 4 , 其分敘述如下:知道本發明具下列所述之優點, 1 ·以前板為某進 ,可避免習知結構;丰可板之剛性在可預測範圍内 勞破壞,U及模且動刖板造成射嘴與座進單元疲 、一進仃鎖模時,因前板轉動導致模具失去MM 921Q33 «n V. Description of the invention (9) Tat) and mechanism (ball screw group, piety's can be used to lock the mold feeding clothing Malai Pi to: ^ cylinder for 2 and 5 yuan: ΐ cap 26, passive pulley fixed Seat 27, ball "Seat bearing S eliminates, and the mold clamping ball screw 26 is changed to oil pressure #, mold clamping = seat is changed to a similar shape of the hydraulic cylinder mold clamping to support the mold clamping plate for front and rear Switch mode "" act, «Ben # 2 tenth-ten people, as shown in the figure, is a mold clamping device for this creation-Bei Tianyi, in this creative mold clamping system, the magnetic coil (Magnet Guang), lock The mold ball bearing seat 24 can be a -body molding, and the magnetic h-ring = can be a two-piece design with the mold clamping ball bearing seat 24, = Figure (M agnl yoke) is manufactured separately from the mold ball bearing seat 24 , Magnetic line iris mold ball bearing housing lock m: two 24, can be-body molding. The hydraulic body, corresponding to the original cost of the original two or two cylindrical hydraulic cylinder, * to the ball bearing housing 24 In order to save a lot of money, we can use commercially available specifications to make a match. To sum up, I will describe the following points: I know that the present invention has the advantages described below, 1 · The previous board is The conventional structure can be avoided; the rigidity of Fengke plate can be damaged in a predictable range. The U and the mold and the movable plate cause fatigue of the nozzle and the seating unit. When the mold is locked, the mold is caused by the rotation of the front plate. lose
第13頁 590873Page 13 590873
案號 921033sn 五、發明說明(10) 平行度,形成鎖模精度不佳,甚至導致 2·該中板為允許,且可箱▲、硬壞0 )。 彳且了預知適應性變形(跟隨前板 3 ·鎖模滾珠螺桿結合球軸承座,1 移,避免鎖模滾珠螺桿承受弯曲力矩與側向八f向角度位 4 .鎖模力之建立,乃將馬達與鎖模滾:: 鎖模力,ϋ過後板之轉軸作用於垂直肖之彈^ =形成之 縮的反作用力而形《’如此可避免馬 六藉堡 節省電源、增加馬達之使用壽命。 。卩馬力,可 5 ·頂出機構藏於夾模軸線上,可節省介 設計、加工的複雜度。 I 4,並簡化 6 ·鎖模馬達固定板固定於球軸承座i 軸承座同步同量角位移,避免傳 : 變而導致破壞。 u疋相對位置改 7 ·鎖模力可由伺服馬達輸出 壓力或調模馬達與調模板預壓彈性體位置,以;鎖:: 量來獲得鎖模力,甚可將鎖模飼服馬 =性體位置’以及鎖模時後板壓縮垂直3體 8 ·馬達隱藏於機台工作平面下 A — 成形技術,以及自動化周邊設備做系統整合=化 =藉鎖模前板上之線性滑轨之設置,以方便將鎖模 中板’十應結合在線性滑執中,形成一箱形結構(合模完 590873 _案號92103380 年月曰 五、發明說明(11) 成)可造成合模之平行度及精度。 綜觀上述,本發明之特徵的確能提供一種可有效節省 生產成本並兼具實用價值之鎖模系統,以其整體之组合及 特徵而言,既未曾見諸於同類產品中,申請前亦未見ς開 ’誠已符合專利法之法定要#,爰依法提出發明專利申請 惟以上所述者,僅為本發 此限定本發明實施之範圍,即 及創作說明書内容所作之等效 作專利涵蓋之範圍内。 明之較佳實施例,當不能以 大凡依本發明申請專:利範圍 變化與修飾,皆應仍屬發明 bCase No. 921033sn V. Description of the invention (10) Parallelism, resulting in poor mold clamping accuracy, even leading to 2 · The mid plate is allowed, and can be boxed ▲, hard and bad 0). Anticipated adaptive deformation (following the front plate 3 · Clamping ball screw combined with ball bearing seat, 1 move, to avoid the bending torque of the clamping ball screw and the lateral eight f-direction angle position 4. The establishment of the clamping force, Roll the motor and the mold clamping :: The clamping force, the axis of rotation of the rear plate acts on the vertical Xiao's bullet ^ = the formation of the contraction of the reaction force "'so can avoid Maliu to save power and increase the service life of the motor 。 卩 Horsepower, can be 5 · Ejection mechanism is hidden on the clamping axis, which can save the complexity of design and processing. I 4, and simplify 6 · Mould clamping motor fixing plate is fixed to the ball bearing seat i Measure angular displacement to avoid transmission: change and cause damage. U 疋 relative position change 7 · The clamping force can be output by the servo motor pressure or the mold motor and the mold plate to pre-compress the position of the elastomer to lock; Force, even the mold clamping feeding horse = position of the body 'and the back plate compression vertical 3 when the mold is locked 8 · The motor is hidden under the machine working plane A — forming technology, and automated peripheral equipment for system integration = 化 = Borrow the thread on the front plate The setting of the slide rails is convenient to integrate the clamping plate in the linear sliding handle to form a box structure (mold completion 590873 _ case number 92103380 dated May 5, description of the invention (11)) can cause In view of the above, the features of the present invention can indeed provide a mold clamping system that can effectively save production costs and has practical value. In terms of its overall combination and characteristics, it has never been seen in the same category. In the product, before the application, you have not seen the law that has complied with the statutory requirements of the Patent Law. You have filed an application for an invention patent in accordance with the law. Equivalents made within the scope of the patent. The preferred embodiment of the invention, when it is not possible to apply for a patent in accordance with the present invention: changes and modifications in the scope of interest, should still belong to the invention b
第15頁 590873Page 15 590873
案號 92103380 曰 修正 圖式簡單說明 有 關 本創作 為 達 上 述 因 的 5 所 採 用 之 技 術 手 段及 其 他 效 茲 舉較佳 可 行 實 施 例 , 並 配 合 圖 式 說 明 如 下, 俾 使 查 委 員 更易於 瞭 解 本 創 作 之 產 生 • 圖式之 簡 單 說 明 第 一 圖 係 習 知 _ — 結 構 之 示 意 圖 〇 第 二 圖 係 習 知 二 結 構 之 示 意 圖 〇 第 三 圖 係 習 知 三 結 構 之 示 意 圖 〇 第 四 圖 係 習 知 四 結 構 之 示 意 圖 〇 第 五 圖 係 習 知 五 結 構 之 示 意 圖 〇 第 六 圖 係 本 創 作 結 構 之 立 體 示 意 圖 〇 第 七 圖 係 本 創 作 結 構 組 合 剖 視 圖 一 〇 第 八 圖 係 本 創 作 結 構 組 合 剖 視 圖 二 〇 第 九 圖 係 本 創 作 結 構 之 外 觀 平 面 圖 〇 第 十 圖 係 本 創 作 頂 出 裝 置 合 剖 視 圖 〇 第 十 一 圖 係 本 創 作 鎖 模 裝 置 合 剖 視 圖 〇 第 十 二 圖 係 本 創 作 鎖 模 完 成 示 意 圖 〇 第 十 二 圖 係 本 創 作 鎖 模 裝 置 偏 移 示 意 圖 — 〇 第 十 四 圖 係 本 創 作 鎖 模 裝 置 偏 移 示 意 圖 二 〇 第 十 五 圖 係 本 創 作 鎖 模 裝 置 另 一 實 施 例 一 〇 第 十 六 圖 係 本創 作 鎖 模 裝 置 另 一 實 施 例 二 〇 第 十 七 圖 係 本創 作 鎖 模 裝 置 又 一 實 施 例 一 〇 第 十 八 圖 係 本 創 作 鎖 模 裝 置 又 實 施 例 二 〇 第 十 九 圖 係 本 創 作 動 力 源 與 機 構 配 合 -i-n. 置 之 優缺 點 分 第16頁 590873 案號 92103380 修正 圖式簡單說明 析表 創作 1 圖號之簡單說明 鎖模前板 2 鎖模中板 4 鎖模後板 -6 線性滑執 7 A 3 轉軸 頂出裝置 鎖模中板驅動座 9 主動皮帶輪 ‘ 11 頂出伺服馬達 17 滾珠螺桿 18 被動皮帶輪 19 滾珠螺帽 20 被動皮帶輪固定座 21 軸承座 22 頂出導板 39 頂出軸承 B 5 鎖模裝置 滾珠螺桿 .10 鎖模伺服馬達 16 主動皮帶輪 23 承座蓋板 24 球軸承座 25 被動皮帶輪 26 滾珠螺帽 27 被動皮帶輪固定座 36 球軸承座承窩 38 鎖模軸承 C 8 調模裝設 導引線性滑軌 12 調模螺桿 14 調模板 13 調模彈簧 28 轉軸 29 調模馬達 30 調模馬達座 .31 彈簧導柱Case No. 92103380 said the revised diagram briefly explained the technical means used in this creation to achieve the above-mentioned reasons and other 5 effective and preferred embodiments, and illustrated with the diagram below, to make it easier for investigators to understand this creation The production of diagrams • A brief description of the diagram The first diagram is the structure of the conventional _ — The schematic diagram of the second structure is the second structure of the conventional structure. The third diagram is the structure of the third structure of the structure. The fourth structure is the fourth structure of the structure. Schematic diagram Ⅴ The diagram is a schematic diagram of the known five structure 〇 The sixth diagram is a three-dimensional schematic diagram of the creative structure 〇 The seventh diagram is a sectional view of the composition of the creative structure 108 The eighth diagram is the sectional view of the composition of the creative structure This is a plan view of the appearance of this creative structure. The tenth figure is a cut-out of this creative ejection device. Figure 〇11 is a cross-sectional view of the original mold clamping device. 12 is a schematic diagram of the completion of the creative mold clamping. 12 is a schematic diagram of the offset of the creative mold clamping device. 〇 14 is a creative lock. Schematic diagram of the offset of the mold device 20. The fifteenth figure is another embodiment of the mold clamping device of the present invention. The sixteenth figure is another embodiment of the mold clamping device of the present invention. An embodiment 10 is the eighteenth figure of this creative mold clamping device and another embodiment 20 is the nineteenth figure of the creative power source and the cooperation of the mechanism -in. The advantages and disadvantages of the installation are divided into page 16 590873 Case No. 92103380 Revised schema Brief explanation of table creation 1 Brief description of drawing number 2 Front plate of mold clamping 2 Middle plate of mold clamping 4 Rear plate of clamping mold 6 Linear slide 7 A 3 Rotary shaft ejection device Mid plate driving seat 9 Active pulley '11 Ejection Servo motor 17 Ball screw 18 Passive pulley 19 Ball nut 20 Passive pulley fixing seat 21 Bearing seat 22 Ejection guide 39 Ejection bearing B 5 Ball screw of clamping device. 10 Mold clamping servo motor 16 Active pulley 23 Bearing cover 24 Ball bearing seat 25 Passive Pulley 26 Ball nut 27 Passive pulley fixing seat 36 Ball bearing seat socket 38 Mold-clamping bearing C 8 Mold guide and guide rail 12 Adjusting screw 14 Adjusting template 13 Adjusting spring 28 Rotary shaft 29 Adjusting motor 30 Adjusting Die motor base. 31 spring guide post
第17頁 590873Page 17 590873
第*18頁Page * 18
Claims (1)
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TW92103380A TW590873B (en) | 2003-02-19 | 2003-02-19 | Mold clamping system |
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TW92103380A TW590873B (en) | 2003-02-19 | 2003-02-19 | Mold clamping system |
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TW590873B true TW590873B (en) | 2004-06-11 |
TW200416125A TW200416125A (en) | 2004-09-01 |
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TW92103380A TW590873B (en) | 2003-02-19 | 2003-02-19 | Mold clamping system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI504892B (en) * | 2007-04-19 | 2015-10-21 | Kokusai Keisokuki Kk | Linear actuator, mechanical testing machine and excitation testing machine |
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2003
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI504892B (en) * | 2007-04-19 | 2015-10-21 | Kokusai Keisokuki Kk | Linear actuator, mechanical testing machine and excitation testing machine |
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TW200416125A (en) | 2004-09-01 |
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