M434673 ? 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種瓶胚整列器,特別係關於一種具有螺旋式軌道而可 在單位面積内收容更多瓶胚之螺旋式瓶胚整列器。 【先前技術】 塑膠瓶是日常生活中常見的盛裝容器,其適用於盛裝礦泉水、碳酸飲 料、果汁、茶飲料、食用油乃至於化妝品或清潔劑等多種溶液。常見的塑 膠瓶製作方法係將試管狀的瓶胚經吹氣成型製程,而成型出具有預定造型 的瓶罐。 在目前的吹瓶成型系統中,包括有入胚單元、加熱單元、吹瓶單元及 出瓶單元,而各單元間以一輸送軌道依序串連成一環狀配置。其中待加工 之複數瓶胚係經由一瓶胚整列器將瓶胚依預定規則排列後,將瓶胚輸往入 胚單元,由入胚單元將瓶胚轉移至輸送軌道上,接著瓶胚依序經由加熱單 元進行加熱軟化、再經吹瓶單元吹氣成型之後,最終由出瓶單元取出成品。 有關瓶胚整列器與入胚單元之間的連結軌道,以往係採用長形之入胚 滑道,鄰接瓶胚整列器一端高於入胚單元之一端,以利用重力使整列後瓶 胚自動滑動至入胚單元處。而一般瓶胚整列器係以隨機整理之方式自動排 列瓶胚’整理瓶胚的速度並非固定不變,有時也會慢於入胚單元的入胚速 度。因此入胚滑道亦同時具有儲備瓶胚以作為緩衝之用途。 但入胚滑道因呈長直狀延伸’導致其單位面積内可收容的瓶胚數量較 少,尤其在廠房空間有限的條件下,一般生產線也無法設置較長的入胚滑 道。而長形入胚滑道因容納的瓶胚數量較少,仍常出現瓶胚整列器與入胚 3 M434673 單兀之間速度不一時,無法有效緩衝之狀況,造成瓶胚補充不及,導致浪· 費產能的問題,明顯有待加以改良。 【新型内容】 綜合上開先前技術的缺點,大致上包括習知長形入胚滑道容納瓶胚數 量少、無法有效緩衝等問題。而鑑於解決上述缺點,本案提出一種螺旋式 瓶胚整列器的方案,該方案具有可在單位面積内容設更多瓶胚、作為有效 緩衝、而具有優異的調節能力之優點。 本創作係提供一種螺旋式瓶胚整列器,包括: φ 一整列模組,用以將凌亂的瓶胚加以排列,該整列模組具有一瓶胚輸 出通道; 一螺旋滑軌,係螺旋狀地由上而下延伸,該螺旋滑軌的頂端係與該瓶 胚輸出通道相對應,用以承接自該瓶胚輸出通道輸出的瓶胚。 在較佳實施方式中,該整列模組包括一圓錐盤及一入料軌,該入料軌 係環繞於該圓錐盤周圍,且該入料執一端與該瓶胚輸出通道相對應。 在較佳實施方式中,該整列模組更包括複數上撥桿及一轉軸,該些上鲁 撥桿係自該圓錐盤周緣徑向朝外延伸並彼此間隔,且該些上撥桿恰鄰近且 對應於該入料軌上方’任一相鄰上撥桿之間可供容設至少一瓶胚,該轉軸 則受一動力源驅動而帶動圓錐盤及該些延伸自圓錐盤的上撥桿旋轉。 在較佳實施方式中,該整列模組更包括一筒身及複數撥動單元,該筒 身係環繞於該入料軌外圍,該些撥動單元具有撓性且間隔地自該筒身内面 朝圓錐盤中央凸伸,該些撥動單元係對應該入料軌並位於該些上撥桿的上 方。 4 M434673 在較佳實施方式十,該整列模組更包括複數隔板,該些隔板係設於圓 錐盤上表面且徑向延伸至圓錐盤周緣’各該隔板鄰近圓錐盤周緣處具有供 該些撥動單元穿過的剖槽。 在較佳實施方式中’該整列模組更包括複數支撐柱及一承置板,該承 置板係受該些支撐住所支持’而該入料轨、轉轴、動力源及筒身皆受該承 置板所支持。 在較佳實施方式中’該整列模組更包括一下圓盤及複數下撥桿,該下 圓盤係設置於該圓錐盤與螺旋滑軌之間,該下圓盤係受該轉軸帶動而旋 轉’該些下横桿係自該下圓盤周緣徑向朝外延伸並彼此間隔,且該些下撥 桿恰鄰近且對應於該螺旋滑軌頂端的上方,任二相鄰下撥桿之間可供容設 至少一瓶胚。 本創作預期達成的功效之一在於,螺旋狀由上而下延伸的螺旋滑軌可 在單位面積内容設更多瓶胚’因此該螺旋滑軌可作為整列模組與入胚單元 之間的有效緩衝’當整列模組整列速度較快時,該螺旋滑軌可將多餘瓶胚 依螺旋狀排列而預先累積,當整列模組速度較慢時,該些預先累積的瓶胚 仍可供應入胚單元使用,此其調節緩衝功能性十分優異之處。 本創作預期達成的功效之二在於,有時整列模組卡胚、故障時,螺旋 滑軌所累積的較多瓶胚可供應生產線維持運作一段時間,而充裕的應變時 間讓設備工程師可在整體生產線不停機的情況下將故障加以排除,從而在 另一面向避免產能浪費。 本創作預期達成的功效之三在於’圓錐盤與入料軌的配合可有效率地 將凌亂的航胚加以排列’輔以轉軸驅動圓錐盤旋轉的條件下,該整列模組 5 M434673 得以連續式地進料並穩定地供給規則排列的瓶胚。 本創作預期達成的功效之四在於,筒身上的撓性撥動單元可將排列錯 誤的瓶胚關原位,断其重新對位的機會且避免整列模組卡胚、故障的 問題發生。 【實施方式】 為便於說明本創作於上述新型内容一攔中所表示的中心思想,茲以具 體實施例表達。實施例中各種不同物件係按適於說明之比例、尺寸、變形 量或位移量而描繪’而非按實際元件的比例予以繪製,合先敘明。且以下鲁 的說明中,類似的元件是以相同的編號來表示。 請參考第一圖’本創作的螺旋式瓶胚整列器係應用於一吹瓶成型系統 中’該吹瓶成型系統包括有一入胚單元1〇、一加熱單元2〇、一吹瓶單元3〇 及一出瓶單元40,而各單元間以一輸送軌道50依序串連成一環狀配置。其 中,更包含有一與入胚單元10相連接之螺旋式瓶胚整列器6〇,該螺旋式瓶 胚整列器60可接收來自一入料斗9〇之凌亂瓶胚,經由整理排列後輸送至入 胚單元10内。由於本創作的改良主要在於螺旋式瓶胚整列器6〇,其餘部分鲁 為習用技藝,於此不另贅述。 請參考第二至四圖。在本實施例中,該螺旋式瓶胚整列器6〇包括一整 列模組70及一螺旋滑軌80,該整列模組70係用以將凌亂的瓶胚加以排列且 具有一瓶胚輸出通道71,該螺旋滑軌80則係螺旋狀地由上而下延伸,該螺 旋滑軌80頂端係與該瓶胚輸出通道71相對應並具有一承接段81,用以承接 自該瓶胚輸出通道71輸出的瓶胚,而該螺旋滑轨80底端則可與入胜單元1〇 連接。 6 M434673 該整列模組70較佳者包括一圓錐盤72、一轉轴721、複數上撥桿阳、 複數隔板似、-入料轨π、一筒身74、複數撥動單元μ】、一承置板乃、 複數支樓柱76、一下圓盤77及複數下撥桿771。 該圓錐盤72細-轉軸721可轉動地設置於該承置板75處,且該承置板 75下方係受該社雜76所支持架高,以供容置該職滑獅。於承置板 75上更可開設有對應瓶胚輸出通道71的長槽751 (見第七圖)。 該入料軌73係環繞於該圓錐盤72周圍,且其一端與該瓶胚輸出通道乃 相對應,亦即該入料軌73—端可透過該瓶胚輸出通道71而進一步與螺旋滑 軌80的承接段81相對應。此外’在本實施例中,該入料軌73在鄰近瓶胚輸 出通道71的一端具有漸小的半徑,此時該瓶胚輸出通道71會受圓錐盤72遮 蓋。在部分實施例中,入料軌可能與螺旋滑軌成連續性的連接,此時所述 瓶胚輸出通道係指環繞於圓雜盤周圍的入料軌與逐漸向下的螺旋滑道之間 的軌道段落。 該些上撥桿723係自該圓雜盤72周緣徑向朝外延伸並彼此間隔,且該些 上撥桿723恰鄰近且對應於該入料軌73上方,任二相鄰上撥桿723之間可供 容設至少一瓶胚。 該轉轴721係受一動力源722驅動而帶動圓錐盤72及該些延伸自圓錐盤 72的上撥桿723旋轉,其中該動力源722可為一馬達,動力源722與轉轴721 之間可設有傳動或減速機構,而轉軸721頂端係與圓錐盤72中心連接而可同 步旋轉* 該筒身74係環繞於該入料軌73外圍’在較佳的實施例中,該筒身74係 安裝固定於承置板75處。該些撥動單元741具有撓性且間隔地自該筒身74内 7 M434673 面朝圓錐盤72中央凸伸,該些撥動單元741係對應該入料軌73並位於該些上 撥桿723的上方,該些撥動單元741可具有不同的長度及高度,且該些撥動 單元741可為橡磬材質、線圏彈簧或其它類似物所製成而可撓曲並具有彈性 復位的能力,藉此撥擺瓶胚。 該些隔板724係設於該圓雜盤72上表面且徑向延伸至圓錐盤72周緣,藉 此將圓錐盤72頂面分隔成若干等面積的區塊,而可用以控制不同區塊的瓶 胚數量,從而有助於維持整列速度的穩定性。另外,各該隔板724鄰近圓錐 盤72周緣處具有供該些撥動單元741穿過的剖槽725 ^ 該下圓盤77係設置於該圓錐盤72與螺旋滑轨8〇之間,更明確地說,下 圓盤77是位於承置板75與螺旋滑軌8〇之間,該下圓盤77係受該轉軸721帶動 而旋轉。換έ之,圓錐盤72、設於圓錐盤72的上撥桿723及隔板724、下圓 盤77以及設於下圓盤77的下撥桿771皆可受轉軸?21直接或間接地帶動而旋 轉。 該些下撥桿771係自該下圓盤77周緣徑向朝外延伸並彼此間隔,且該些 下撥桿771恰鄰近且對應於該承接段81的上方,任二相鄰下撥桿π〗之間可 供容設至少一瓶胚100。 除了上述結構說明之外,為了利於瞭解並利用本創作,以下將繼續說 明本創作之使用方式。 凊參考第五圖。首先,瓶胚〗〇〇可藉由入料斗9〇 (見第一圖)自—儲放 槽内逐批輸送至圓雜盤72上,而隨圓雜盤72之轉動往週邊之入料軌乃滑 落。由於瓶胚1〇〇具有較大徑的環頸部10卜該環頸部1〇1會與圓錐盤72接觸 而使其瓶身㈣頸部101為轴心向下職滾動,因此在瓶胚丨⑽滾動下滑的 M434673 過程中’其瓶身可逐步導正,最後由瓶身先進入入料執73並落於二上撥桿 723之間’而環頸部1〇丨則會卡抵於入料軌73上方。此時,由於圓錐盤72及 上撥桿723受轉轴721驅動而旋轉,因此上撥桿723可撥動瓶胚1〇〇,使其依 序繞行入料執73前進。 請參考第六圖。在少部分情形中,瓶胚1〇〇可能會瓶口朝下地插入入料 執73 ’此時較大徑的環頸部1〇1無法進入入料軌73内,而隨著瓶胚1〇〇受上 撥桿723油的行程中,祕丨⑽會接_筒身7纳面的撥料元%卜該撥 動單TC741會受力撓曲(如虛線所示),最後以其彈性回復力將瓶胚ι〇〇撥 離入料軌73並重新回到圓錐盤72上(如實線所示),而得到重新對齊的機 會,並藉此避免卡胚。 請參考第七®。該些受上鮮723撥動且财制的祕丨⑻最後會來 到入料軌73的末端,並-一地自瓶胚輸出通道71掉落至螺旋滑軌_,之 後下撥#771進步撥動位於螺旋滑軌抑承接段81的瓶胚1⑽令其繼續 沿著螺旋滑獅下滑。當整賴⑽運轉棚時,雜滑獅上即可逐漸 累積規則排列的瓶胚100’ ,等待後續吹氣成型加工。 藉由上述叹汁’本創作的螺旋式瓶胚整列器係利用螺旋滑軌可在單位 面積内容設更多待處理瓶胚的特性,緩衝並靖整顺_人胚單元之間 可能的瓶胚處理速度差異,使塑膠報生產流程更為流暢。另外本創作的 整列模組以其_盤及人概等設計,令瓶胚有秩序地落人螺旋滑軌頂 端,其整列速度穩定,且可避免或至少減緩卡胚問題,此性能穩定的整列 模組亦將有助於維持整趙生產線的效能,俾滿^實務上的需求。 雖本創作是以-較佳實施例作說明,但精於此技藝者能在不脫離本創 9 财34673 作精神與範疇下作各種不同形式的改變。以上所舉實施例僅用以說明本創 作而已’非用以限制本創作之範圍。舉凡不違本創作精神所從事的種種修 改或變化’俱屬本創作意欲保護之範疇。 【圖式簡單說明】 第一圖係本創作應用於吹瓶成型系統之方塊示意圖。 第二圖係本創作之立體外觀示意圖。 第二圖係本創作之側視示意圖。 第四圖係本創作整列模組之立體分解示意圖。 第五圖係本創作整列模組之作動示意圖(一)。 第六圖係本創作整列模組之作動示意圖(二)。 第七圖係本創作螺旋式瓶胚整列器之作動示意圖。 【主要元件符號說明】 入胚單元10 入料執73 加熱單元20 筒身74 吹瓶單元30 撥動單元741 出瓶單元40 承置板75 輸送軌道50 長槽751 螺旋式瓶胚整列器60 支撐柱76 整列模組70 下圓盤77 瓶胚輸出通道71 下撥桿771 圓錐盤72 螺旋滑軌80 轉轴721 承接段81 M434673 動力源722 上撥桿723 隔板724 剖槽725 入料斗90 瓶胚 100、100’ 環頸部101M434673 ? 5, new description: [New technology field] This creation is about a preformer, especially for a spiral preform device with a spiral track that can accommodate more preforms per unit area. . [Prior Art] Plastic bottles are common containers for daily life, and are suitable for containing various solutions such as mineral water, carbonated drinks, juices, tea drinks, edible oils, and even cosmetics or detergents. A common method of making plastic bottles is to form a test tube-shaped preform by a blow molding process to form a bottle having a predetermined shape. In the current blow molding system, the embryo unit, the heating unit, the blowing unit and the bottle discharging unit are included, and each unit is connected in series in a ring configuration by a conveying track. The plurality of preforms to be processed are arranged according to a predetermined rule by a bottle of embryo arrayer, and the preforms are transferred to the embryo unit, and the preforms are transferred to the transport track by the embryo unit, and then the preforms are sequentially ordered. After the heating is softened by the heating unit and then blow molded by the blowing unit, the finished product is finally taken out by the bottle discharging unit. For the connection track between the preformer and the embryo unit, a long-shaped embryo slide is used in the past, and one end of the adjacent preform is higher than one end of the embryo unit to automatically slide the whole bottle after gravity. To the embryo unit. In general, the preforms are automatically arranged in a random arrangement. The speed of finishing the preforms is not fixed, and sometimes it is slower than the rate of entry into the embryo unit. Therefore, the embryogenic slide also has a reserve preform for buffering purposes. However, due to the long straight extension of the embryo slide, the number of preforms that can be accommodated per unit area is relatively small. Especially in the condition that the plant space is limited, the general production line cannot set a long embryogenic slide. However, the long-shaped embryo slide has a small number of preforms, and it often occurs that the speed between the preform and the embryo 3 M434673 is not effective, and the bottle cannot be replenished, resulting in waves. · The problem of capacity is obviously to be improved. [New content] The shortcomings of the prior art are comprehensively included, and generally include the problem that the conventional long-shaped embryo guide slide accommodates a small number of preforms and cannot be effectively buffered. In view of the above shortcomings, the present invention proposes a scheme of a spiral preforming device which has the advantages of being able to provide more preforms per unit area, as an effective buffer, and having excellent adjustment capability. The present invention provides a spiral preform arrayer comprising: φ an array of modules for arranging the messy preforms, the array of modules having a preform output channel; a spiral slide, helically Extending from top to bottom, the top end of the spiral slide corresponds to the preform output channel for receiving the preform output from the preform output channel. In a preferred embodiment, the array of modules includes a conical disk and an infeed rail, the infeed rail is wrapped around the conical disc, and one end of the receiving end corresponds to the preform output channel. In a preferred embodiment, the entire array of modules further includes a plurality of upper levers extending from the circumference of the cone disk and spaced apart from each other, and the upper levers are adjacent to each other, and the upper levers are adjacent to each other And corresponding to the upper side of the infeed rail, any one of the adjacent upper levers can accommodate at least one preform, and the rotating shaft is driven by a power source to drive the conical disc and the upper lever extending from the conical disc Rotate. In a preferred embodiment, the entire array module further includes a barrel body and a plurality of toggle units, the barrel body surrounding the periphery of the input rail, the toggle units having flexibility and spacing from the inner surface of the barrel Projecting toward the center of the conical disc, the toggle units are corresponding to the infeed rail and located above the upper levers. 4 M434673 In a preferred embodiment, the array module further includes a plurality of partitions disposed on the upper surface of the conical disc and extending radially to the circumference of the conical discs. Each of the partitions is adjacent to the circumference of the conical disc. The slots through which the toggle units pass. In a preferred embodiment, the array module further includes a plurality of support columns and a receiving plate, the receiving plate is supported by the supporting supports, and the loading rail, the rotating shaft, the power source and the barrel are both subjected to Supported by the mounting plate. In a preferred embodiment, the whole array module further includes a lower disc and a plurality of lower levers disposed between the conical disc and the spiral slide rail, and the lower disc is rotated by the rotating shaft. The lower crossbars extend radially outward from the periphery of the lower disc and are spaced apart from each other, and the lower levers are adjacent and corresponding to the top of the spiral rail, between any two adjacent lower levers At least one bottle of embryo can be accommodated. One of the expected effects of this creation is that the spiral-shaped spiral slide extending from top to bottom can set more preforms per unit area. Therefore, the spiral slide can be effectively used between the entire array module and the embryo unit. Buffering 'When the whole column module is faster, the spiral slide can accumulate the excess preforms in a spiral shape. When the entire module is slow, the pre-cumulative preforms can still be supplied to the embryo. The unit is used, which is very good for adjusting the buffering function. The second effect that this creation is expected to achieve is that sometimes the entire array of cartridges and faults, the more preforms accumulated by the spiral slides can be supplied to the production line for a period of time, and the sufficient strain time allows the equipment engineer to be in the whole If the production line is not shut down, the fault is eliminated, so that the other side avoids waste of capacity. The third effect that this creation is expected to achieve is that the combination of the conical disc and the infeed rail can efficiently arrange the messy aerial embryos. With the rotation of the rotating shaft to drive the conical disc, the entire array of modules 5 M434673 can be continuously The ground material is fed and stably supplied to the regularly arranged preforms. The fourth effect that this creation is expected to achieve is that the flexible toggle unit on the barrel can close the incorrectly placed preforms, break the chance of realignment and avoid the problem of the entire array of cartridges and faults. [Embodiment] In order to facilitate the explanation of the central idea expressed in the above novel content, the present invention is expressed by a specific embodiment. Various items in the embodiments are depicted in terms of ratios, dimensions, amounts of deformation, or displacements that are suitable for illustration, and are not drawn to the scale of the actual elements. In the following description, similar elements are denoted by the same reference numerals. Please refer to the first figure 'The spiral bottle preformer of the present invention is applied to a blow molding system. The blow molding system includes an embryo unit 1〇, a heating unit 2〇, and a blowing unit 3〇. And a bottle unit 40, and each unit is connected in series by a conveying rail 50 in an annular configuration. The spiral preformer 60 is connected to the embryonic unit 10, and the spiral preformer 60 can receive the messy preform from a hopper 9 and arrange it through the arrangement. Within the embryo unit 10. Since the improvement of this creation is mainly in the spiral preforming device, the rest is a common skill, and will not be further described here. Please refer to Figures 2 to 4. In this embodiment, the spiral preformer 6 〇 includes an entire array of modules 70 and a spiral slide 80 for arranging the messy preforms and having a preform output channel. 71. The spiral slide rail 80 extends spirally from top to bottom. The top end of the spiral slide rail 80 corresponds to the preform output passage 71 and has a receiving portion 81 for receiving the output passage from the preform. 71 outputs the preform, and the bottom end of the spiral slide 80 can be connected to the winning unit 1〇. 6 M434673 The whole column module 70 preferably comprises a conical disc 72, a rotating shaft 721, a plurality of upper levers, a plurality of partitions, a --input rail π, a cylinder 74, a plurality of toggle units μ, A receiving plate, a plurality of column columns 76, a lower disk 77 and a plurality of lower levers 771. The conical disc 72 is rotatably disposed at the receiving plate 75, and the lower portion of the receiving plate 75 is supported by the scaffold 76 for accommodating the lion. A long groove 751 corresponding to the preform output passage 71 can be opened on the receiving plate 75 (see the seventh drawing). The inlet rail 73 surrounds the conical disc 72, and one end thereof corresponds to the preform output passage, that is, the inlet rail 73-end can pass through the preform output passage 71 to further cooperate with the spiral slide rail. The receiving section 81 of 80 corresponds. Further, in the present embodiment, the feed rail 73 has a gradually decreasing radius at one end adjacent to the preform output passage 71, at which time the preform output passage 71 is covered by the conical disc 72. In some embodiments, the feed rail may be in continuous connection with the spiral slide, and the preform output passage is between the feed rail around the circular disk and the gradually downward spiral slide. Track passage. The upper levers 723 extend radially outward from the circumference of the circular disk 72 and are spaced apart from each other, and the upper levers 723 are adjacent to each other and correspond to the upper portion of the loading rail 73, and any two adjacent upper levers 723 At least one bottle of embryo can be accommodated between them. The rotating shaft 721 is driven by a power source 722 to drive the cone 72 and the upper lever 723 extending from the cone 72. The power source 722 can be a motor, and between the power source 722 and the rotating shaft 721. A drive or reduction mechanism can be provided, and the top end of the shaft 721 is coupled to the center of the cone 72 for simultaneous rotation*. The barrel 74 surrounds the periphery of the inlet rail 73. In a preferred embodiment, the barrel 74 The mounting is fixed to the receiving plate 75. The dialing units 741 are flexible and spaced from the center of the barrel 74 to the center of the conical disc 72. The dialing units 741 are corresponding to the infeed rails 73 and are located on the upper levers 723. Above, the toggle units 741 can have different lengths and heights, and the toggle units 741 can be made of a rubber material, a coil spring or the like to be flexible and have a resilient reset capability. In order to dial the bottle embryo. The partitions 724 are disposed on the upper surface of the circular disk 72 and extend radially to the circumference of the cone 72, thereby dividing the top surface of the cone 72 into a plurality of equal-area blocks, which can be used to control different blocks. The number of preforms helps to maintain the stability of the entire column. In addition, each of the partitions 724 has a slit 725 for the passage of the dialing unit 741 adjacent to the circumference of the conical disc 72. The lower disc 77 is disposed between the conical disc 72 and the spiral slide 8〇. Specifically, the lower disc 77 is located between the receiving plate 75 and the spiral rail 8〇, and the lower disc 77 is rotated by the rotating shaft 721. Alternatively, the conical disc 72, the upper lever 723 and the partition 724 provided on the conical disc 72, the lower disc 77, and the lower lever 771 provided on the lower disc 77 can be rotated by the shaft. 21 Rotate directly or indirectly. The lower levers 771 extend radially outward from the circumference of the lower disc 77 and are spaced apart from each other, and the lower levers 771 are adjacent to and correspond to the upper side of the receiving section 81, and any two adjacent lower levers π At least one bottle of embryo 100 can be accommodated between. In addition to the above description of the structure, in order to facilitate the understanding and use of this creation, the following will continue to explain the use of this creation.凊 Refer to the fifth picture. First of all, the preforms can be transported by batch into the circular tray 72 from the storage tank by means of the hopper 9 (see the first figure), and the feeding track is rotated to the periphery with the circular disk 72. It is slipping. Since the preform 1 has a larger diameter of the ring neck 10, the ring neck 1〇1 will contact the conical disc 72 to cause the bottle body (4) neck 101 to roll down the shaft, thus in the preform丨(10) Rolling down the M434673 process, 'the bottle body can be gradually guided, and finally the bottle body first enters the feed holder 73 and falls between the two upper levers 723' and the ring neck 1〇丨 will be stuck Above the feed rail 73. At this time, since the conical disc 72 and the upper lever 723 are rotated by the rotation shaft 721, the upper lever 723 can be used to move the preform 1 to advance the feed holder 73 in sequence. Please refer to the sixth picture. In a small number of cases, the preform 1〇〇 may be inserted into the feed holder 73' with the bottle mouth facing down. At this time, the larger diameter ring neck 1〇1 cannot enter the feed rail 73, and with the preform 1〇 〇 During the stroke of the upper lever 723 oil, the secret (10) will be connected to the body of the 7-nano-drinking material. The TC741 will be flexed flexibly (as indicated by the dotted line), and finally with its elastic response. The force pulls the vial away from the feed rail 73 and back onto the conical disc 72 (as shown by the solid line), giving the opportunity to realign and thereby avoid jamming. Please refer to the seventh®. The secrets of these 723-tipped and financial systems (8) will eventually come to the end of the feed rail 73, and - from the preform output channel 71 to the spiral slide _, then dial #771 progress The preform 1 (10) located at the spiral slide inhibiting section 81 is caused to continue to slide down the spiral lion. When the shed (10) is operated, the regular lions 100' can be gradually accumulated on the lion lion, waiting for the subsequent blow molding process. With the above-mentioned sigh juice's spiral bottle preform trainer, the spiral slide rail can be used to set more characteristics of the preform to be processed in the unit area, buffering and arranging possible preforms between the human embryo units. The difference in processing speed makes the plastics production process smoother. In addition, the whole array of the design of the creation is designed with its _ plate and people's design, so that the preforms are placed in the order of the spiral slides in an orderly manner, and the speed of the whole column is stable, and the problem of the card embryo can be avoided or at least slowed down. The module will also help to maintain the performance of the entire Zhao production line, full of practical needs. Although the present invention has been described in terms of a preferred embodiment, those skilled in the art can make various changes in the form without departing from the spirit and scope of the invention. The above embodiments are merely illustrative of the present invention and are not intended to limit the scope of the present invention. All kinds of modifications or changes that are not in violation of the spirit of this creation are all in the scope of this creative intention. [Simple description of the drawing] The first figure is a block diagram of the creation of the blowing molding system. The second picture is a three-dimensional appearance of the creation. The second picture is a side view of the creation. The fourth picture is a three-dimensional exploded view of the whole array module of the present creation. The fifth picture is a schematic diagram of the operation of the whole array module of this creation (1). The sixth picture is a schematic diagram of the operation of the whole array module of this creation (2). The seventh picture is a schematic diagram of the operation of the spiral bottle preform device of the present invention. [Explanation of main component symbols] Implant unit 10 Feeding device 73 Heating unit 20 Cylinder 74 Blowing unit 30 Tapping unit 741 Bottle discharging unit 40 Bearing plate 75 Conveying track 50 Long groove 751 Spiral preform array 60 Support Column 76 Integral module 70 Lower disc 77 Preform output channel 71 Lower lever 771 Conical disc 72 Spiral rail 80 Rotary shaft 721 Receiving section 81 M434673 Power source 722 Upper lever 723 Separator 724 Groove 725 Inlet hopper 90 bottles Embryo 100, 100' ring neck 101