201210793 六、發明說明: 【發明所屬之技術領域】 [0001] 本案係有關迴轉式把手瓶吹瓶機,尤其有關於迴轉 式把手瓶吹瓶機的把手整列方法。 【先前技術] [0002] 迴轉式吹瓶機具有產量高、節省空間等優點,已廣201210793 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a rotary handle bottle blowing machine, and more particularly to a method for arranging the handle of a rotary handle bottle blowing machine. [Prior Art] [0002] Rotary Blow Molding Machine has the advantages of high output and space saving.
泛的使用於製造日常生活中各種裝填液體的瓶子,對於 大容量包裝的瓶子1來說,瓶子1上可以装設有一把手2, 請參閱「圖1」所示,該把手2可供易於抓持並使用該瓶 子1 〇 [〇〇〇3] 習知之把手瓶吹瓶機多為手動植入把手或為直線式It is widely used in the manufacture of various liquid filling bottles in daily life. For the large-capacity bottle 1, the bottle 1 can be provided with a handle 2, as shown in Fig. 1, which can be easily grasped. Holding and using the bottle 1 〇[〇〇〇3] Conventional handle bottle blowing machine is mostly manual implant handle or linear
把手瓶吹瓶機,而迴轉式把手瓶吹瓶機目前尚未多見於 商業應用上,其主要的瓶頸在於把手整列速度跟不上迴 轉式吹瓶機的高量產速度。再者於迴轉式吹瓶機外另設 置一把手整列機構’再將整列完成之把手維持固定方位 逐一高速同步移載入迴轉式吹瓶機,#相對應之吹瓶模 組使用,其困難度高實施不易外,設備龐大、造價成本 昂責等,也是習知技術之主要瓶頸。 【發明内容】 [0004] 因此本發明即針對上述之習知瓶頸,開發一種設置 於迴轉式把手瓶吹瓶機内的複數整列模組,其數量相同 於複數吹瓶模組,形成複數共同模組,該各別整列模組 僅需將整列完成的該把手提供給相對應之吹瓶模組使用 即可’如此可跳脫迴轉式把手瓶吹瓶機之高速同步的製 程瓶頸。 099129981 表單塢號A0101 第4頁/共27頁 0992052583-0 201210793 [0005] 為了達到上述目的,本發明揭露了一種迴轉式把手 〇 瓶吹瓶機的把手整列方法,用於供給複數整列好的把手 給一迴轉式把手瓶吹瓶機,該迴轉式把手瓶吹瓶機具有 複數吹瓶模組,該把手整列方法的步驟包含:提供至少 一把手輸送裝置,該至少一把手輸送裝置提供尚未整列 好的該複數把手;提供數量相同於該複數吹瓶模組的複 數整列模組,該複數整列模組依一對一的對應方式設置 於該複數吹瓶模組旁形成複數共同模組,且該複數整列 模組接收來自該至少一把手輸送裝置的該複數把手,並 加以整列以各自供給該複數整列好的把手給對應的該複 數吹瓶模組。 [0006] G 據此,本發明讓該整列模組與該吹瓶模組依一對一 對應方式設置形成共同模組,該複數整列模組可隨著該 複數吹瓶模組一起轉動,因此本發明的整列方法可讓該 整列模組與該吹瓶模組之間無把手高速同步移載的問題 ,且又因該複數整列模組為各自整列該複數把手,在迴 轉式把手瓶吹瓶機的一次循環時間裡,該整列模組只需 整列一個把手即可滿足所需,因而具充分的時間對該把 手進行整列,可避免該把手的高速整列形成迴轉式把手 瓶吹瓶機的高速製程瓶頸。 [0007] 【實施方式】 茲有關本發明的詳細内容及技術說明,現以實施例 來作進一步說明,但應瞭解的是,該等實施例僅為例示 說明之用,而不應被解釋為本發明實施之限制。 [0008] 請參閱「圖2」與「圖3」所示,本發明為一種把手 099129981 表單編號A0101 第5頁/共27頁 0992052583-0 201210793 整列方法,用於供給複數整列好的把手80給一迴轉式把 手瓶吹瓶機10 ’該迴轉式把手瓶吹瓶機10具有複數吹瓶 模組20 ’本實施例為以8個吹瓶模組20為例說明,實施當 不以此為限,本發明的該把手整列方法步驟包含:提供 至少一把手輸送裝置90 ’該至少一把手輸送裝置9〇提供 尚未整列好的該複數把手80,且該把手輸送裝置9〇的數 量不大於該吹瓶模組2 0 ;提供數量相同於該複數吹瓶模 組20的複數整列模組30,該複數整列模組3〇依一對一的 對應方式設置於該複數吹瓶模組2〇旁形成一複數共同模 組’且複數整列模組30接收來自該至少一把手輸送裝置 9〇的該複數把手80,並透過該複數整列模組3〇加以整列 以各自供給整列好的該複數把手80給相對應的該複數吹 瓶模組20。 [0009] [0010] 又本發明使用的該複數整列模組3 〇可以各包含一承 料盤31、一整列流道32、一暫存區33、一分料裝置34與 —移載裝置35。請再參閱「圖「細6-1」所示, 其中一整列流道32可以包含一第一方向整列流道321與一 第二方向整列流道322,可針對具有£個不對稱方向的把 手進行整列。另該至少一把手輸送裝置9〇設於該複數整 列模組30的任一的該承料盤31之上方,並提供尚未整列 的該複數把手80進入該承料盤31内,亦即該把手輸送裝 置9 0可依相對應之该複數整列模組3 〇需求設置多個,以 讓該多個把手輸送裝置90同時分別各自提供尚未整列的 。亥複數把手8 0給不同的承料盤3 1,分別進行整列。 請再配合參閱「圖4-1」〜「圖4-3」、「圖5_;!」〜 099129981 蝙號A0101 第6頁/共27頁 0992052583-0 201210793 Ο [0011] 「圖5-3」、「圖6-ΐ」、「圖6-2」與「圖7」所示,該 把手80經由該整列流道32的整列而暫存於該暫存區33, 其中該把手80的整列,吁透過地心引力將該把手8〇由上 往下掉落的過程中,藉由預設的複數檔板3211的導弓丨而 整列(如「圖4-1」~「圖4-3」所示),其中「圖4-1」為 本發明第·一方向整列流道3 21的可能實施例之一的剖視圖 ’ 5亥複數樓板3 211可限制把手8 0的流向而整列把手8 〇, 另該複數檔板3211亦可用一該螺旋導軌3212替代(如r 圖5-1」~「圖5-3」所示)’也可具有相同的整列效果。 〇 [0012] 再者,如本實施例所示,該把手80為具2個不對稱方 向之把手,故該把手80可再康由二方向整列流道322 來完成第二方向的整列,其中「圖6-1」、「圖6-2」為 本發明第二方向整列流道322的可能實施例之一,其包含 一螺桿3221、一樞紐3222與一翻轉座3223,其中為讓該 把手80容置該翻轉座3223内,並藉由該螺稈3221的驅動 ’轉動該樞紐3222而帶動該翻轉座3223,即可翻轉該把 手80而整列該把手80。該把手80經整列後即可暫存於暫 存區33(如「圖7」所示)。 請再配合參閱「圖8」、「圖9」與「圖10」所示, 該暫存區33的底部下方設置一分料裝置34,該分料裝置 34依先進先出方式,一次釋放一整列完成之該把手8〇於 該移載裝置35上(如「圖8」所示);並再利用該移載裝 置35將該把手80移載至該吹瓶模組20(如「圖9」所示) •,讓該把手80暫存於該吹瓶模組20内(如「圖10」所示) ,以利在吹瓶的過程中將暫存之該把手80植入吹瓶模組 099129981 表單編號Α0101 第7頁/共27頁 0992052583-0 201210793 2 0内定位固定。 [0013] [0014] [0015] [0016] [0017] [0018] [0019] 如上所述’本發明的方法依據該吹瓶模組20的數量 ’而設置同等數量的該整列模組30,因此可讓該整列模 組30與該吹瓶模組2〇依一對一對應方式設置形成一共同 模k ’其可讓該複數整列模組3〇隨著該複數吹瓶模組2〇 起轉動’因此該整列模組3〇與該吹瓶模組2〇之間並無 把手馬速同步移載的問題,又因該複數整列模組3〇為各 自整列該複數把手,故在迴轉式把手瓶吹瓶機1〇轉動一 -人的循環時間内,每一個整列模組3 〇只需負擔整列好一 個把手,因而本發明薦先分的時間對該把手進行整列, 可避免該把手的高速整列形成迴轉式把手瓶吹瓶機的高 迷製程瓶頸》 ^惟上述僅為本發明之較佳實施例而已,並非用來限 定本發明實施之範®。即凡依本發明巾請專利範圍所做 的均等變化與修飾’皆為錢課利範圍 所涵蓋。 【圖式簡單說明】 圖1,為習知具把手的瓶子:圖:。 圖2,為本發明把手整列方法使用的結構配置圖。 圖3,為本發明單一整列模組機構圖。 圖4-卜圖4-3 ’為本發明第_方向整列流道實施例一别視 圖,—° 圖5+圖5-3,為本發明第—方向整列流道實施例二刻視 圖·—三。 099129981 表單編號Α0101 第8頁/共27頁 0992052583-0 201210793 [0020] 圖6-卜圖6-2,為本發明第二方向整列流道機構1 〇 [0021] 圖7,為本發明把手進入暫存區示意圖。 [0022] 圖8,為本發明把手進入移載裝置示意圖。 [0023] 圖9,為本發明把手移載至吹瓶模組示意圖。 [0024] 圖10,為本發明把手暫存於吹瓶模組示意圖。 【主要元件符號說明】 Ο [0025] 習知 [0026] 1 :瓶子 [0027] 2 :把手 [0028] 本發明 [0029] 10 :迴轉式把手瓶吹瓶機 [0030] 20 :吹瓶模組 ο [0031] 30 :整列模組 [0032] 31 :承料盤 [0033] 32 :整列流道 [0034] 321 :第一方向整列流道 [0035] 3211 :複數擋板 [0036] 3212 :螺旋導軌 [0037] 322 :第二方向整列流道 099129981 表單編號Α0101 第9頁/共27頁 0992052583-0 201210793 [0038] 3221 :螺桿 [0039] 3222 :樞紐 [0040] 3223 :翻轉座 [0041] 33 : 暫存區 [0042] 34 : 分料裝置 [0043] 35 : 移載裝置 [0044] 80 : 把手 [0045] 90 : 把手輸送裝置 099129981 表單編號A0101 第10頁/共27頁 0992052583-0Hand-held bottle blowing machines, and rotary hand-held bottle blowing machines have not been widely seen in commercial applications. The main bottleneck is that the speed of the handles cannot keep up with the high production speed of the rotary blow molding machine. In addition, a one-handle arrangement mechanism is provided outside the rotary blow molding machine, and the handles of the entire column are maintained in a fixed orientation, and the high-speed synchronous shifting is loaded into the rotary blow molding machine, and the corresponding blow molding module is used, which is difficult. It is not easy to implement, and the equipment is huge and the cost of production is high. It is also the main bottleneck of the prior art. SUMMARY OF THE INVENTION [0004] Therefore, the present invention is directed to the above-mentioned conventional bottleneck, and develops a plurality of array modules arranged in a rotary handle bottle blowing machine, the number of which is the same as that of a plurality of blowing modules, forming a plurality of common modules The separate array modules only need to provide the completed row of the handles to the corresponding blowing module to be used, so that the high-speed synchronous process bottleneck of the rotary handle bottle blowing machine can be skipped. 099129981 Form Dock No. A0101 Page 4 / Total 27 Page 0992052583-0 201210793 [0005] In order to achieve the above object, the present invention discloses a method for arranging the handle of a rotary handle bottle blowing machine for supplying a plurality of aligned handles Providing a rotary handle bottle blowing machine, the rotary handle bottle blowing machine having a plurality of blowing modules, the step of the method of arranging the handle comprising: providing at least one handle conveying device, the at least one handle conveying device providing the unfinished conveying device a plurality of handles; a plurality of array modules having the same number as the plurality of blow molding modules, wherein the plurality of array modules are disposed in a one-to-one correspondence manner to form a plurality of common modules adjacent to the plurality of blow molding modules, and the plurality of integrated modules The module receives the plurality of handles from the at least one handle transport device and arranges them to supply the plurality of aligned handles to the corresponding plurality of blow mold modules. According to the present invention, the whole array module and the blowing module are arranged in a one-to-one correspondence manner to form a common module, and the plurality of array modules can rotate together with the plurality of blowing modules, The nematic method of the present invention can solve the problem of high-speed synchronous transfer between the whole column module and the blowing module without the handle, and because the plurality of array modules are arranged in the respective rows, the bottle is blown in the rotary handle bottle. In one cycle of the machine, the entire array of modules only needs to be provided with a single handle to meet the needs, so that the handle can be arranged in a row so as to avoid the high speed of the handle forming the high speed of the rotary handle bottle blowing machine. Process bottlenecks. The embodiments and the technical description of the present invention are further described by way of examples, but it should be understood that the embodiments are for illustrative purposes only and should not be construed as Limitations of implementation of the invention. [0008] Please refer to FIG. 2 and FIG. 3, the present invention is a handle 099129981 Form No. A0101 Page 5 of 27 page 0992052583-0 201210793 The entire column method for supplying a plurality of aligned handles 80 A rotary handle bottle blowing machine 10 'The rotary handle bottle blowing machine 10 has a plurality of blowing module 20 ' This embodiment is illustrated by taking 8 blowing modules 20 as an example, and the implementation is not limited thereto. The method of the handle alignment method of the present invention comprises: providing at least one handle conveying device 90 ′, the at least one handle conveying device 9 〇 providing the plurality of handles 80 that are not yet arranged, and the number of the handle conveying devices 9 不 is not greater than the blowing mold The group 20 is provided with a plurality of array modules 30 of the same number as the plurality of bottle blowing modules 20, and the plurality of array modules 3 are arranged in a one-to-one correspondence manner to form a plurality of the plurality of blowing modules 2 The common module 'and the plurality of array modules 30 receive the plurality of handles 80 from the at least one handle transport device 9 and are aligned through the plurality of array modules 3 to respectively supply the aligned plurality of handles 80 The plurality of modules 20 to blow the bottle. [0010] The plurality of array modules 3 本 used in the present invention may each include a receiving tray 31, an entire row of channels 32, a temporary storage area 33, a dispensing device 34 and a transfer device 35. . Please refer to the figure "June 6-1", wherein an entire row of flow channels 32 can include a first direction of the array of flow channels 321 and a second direction of the array of flow channels 322 for handles having asymmetrical directions. Carry out the entire column. The at least one handle conveying device 9 is disposed above the receiving tray 31 of any one of the plurality of array modules 30, and provides the plurality of handles 80 that have not been arranged into the receiving tray 31, that is, the handle is conveyed The device 90 may be provided in plurality according to the corresponding multi-column module 3 ,, so that the plurality of handle conveying devices 90 are respectively provided separately and not yet arranged. The plurality of handles 80 0 are given to the different receiving trays 3 1, respectively. Please refer to "Figure 4-1" ~ "Figure 4-3", "Figure 5_;!" ~ 099129981 bat number A0101 Page 6 / 27 pages 0992052583-0 201210793 Ο [0011] "Figure 5-3" As shown in FIG. 6-ΐ, FIG. 6-2 and FIG. 7 , the handle 80 is temporarily stored in the temporary storage area 33 via the entire column of the entire flow path 32, wherein the entire column of the handle 80 is In the process of dropping the handle 8 from top to bottom through gravity, it is arranged by the guide bow of the preset plurality of baffles 3211 (eg "Fig. 4-1" ~ "Fig. 4-3" Illustrated), wherein "FIG. 4-1" is a cross-sectional view of one of the possible embodiments of the first direction of the entire flow path 3 21 of the present invention. The 5 ridge slab 3 211 can limit the flow direction of the handle 80 and the entire handle 8 〇 Alternatively, the plurality of baffles 3211 may be replaced by a spiral guide 3212 (as shown in FIG. 5-1 to FIG. 5-3) or may have the same effect. [0012] Furthermore, as shown in this embodiment, the handle 80 is a handle having two asymmetric directions, so that the handle 80 can be reconfigured by the two-direction integral flow channel 322 to complete the alignment in the second direction. 6-1 and FIG. 6-2 are one of the possible embodiments of the second-direction flow path 322 of the present invention, which includes a screw 3221, a hinge 3222 and a flip seat 3223, wherein the handle is provided. The handle 80 is accommodated in the flip seat 3223, and the handle 32 is inverted by driving the screw 3221 to rotate the hinge 3222 to complete the handle 80. The handle 80 can be temporarily stored in the temporary storage area 33 (as shown in Fig. 7). Please refer to "FIG. 8", "FIG. 9" and "FIG. 10". A dispensing device 34 is disposed below the bottom of the temporary storage area 33. The dispensing device 34 releases one at a time in a first-in first-out manner. The handle 8 is completed on the transfer device 35 (as shown in FIG. 8); and the transfer device 35 is used to transfer the handle 80 to the blow molding module 20 (eg, FIG. 9). The handle 80 is temporarily stored in the blowing module 20 (as shown in FIG. 10) to facilitate the implantation of the temporarily stored handle 80 into the blowing mold during the blowing process. Group 099129981 Form number Α 0101 Page 7 / Total 27 page 0992052583-0 201210793 2 0 Positioning fixed. [0019] [0019] [0019] [0019] As described above, the method of the present invention sets an equal number of the entire array module 30 according to the number of the blowing module 20, Therefore, the whole array module 30 and the blowing module 2 can be arranged in a one-to-one correspondence manner to form a common mode k′, which can cause the plurality of array modules 3 to be picked up with the plurality of blowing modules 2 Rotating 'Therefore, there is no problem that the whole row of modules 3〇 and the blowing module 2〇 are not synchronously transferred by the handle speed, and since the plurality of array modules 3 are arranged in the respective rows, the rotary type When the handle bottle blowing machine rotates for one person's cycle time, each of the entire array of modules 3 〇 only needs to have a whole set of handles, so the present invention recommends that the handles be arranged in a separate time to avoid the handle. The high-speed integral column forms a bottleneck of the rotary handle bottle blowing machine. The above is only a preferred embodiment of the present invention, and is not intended to limit the implementation of the present invention. That is, the equivalent changes and modifications made by the patent scope of the invention are covered by the scope of the money. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a conventional bottle with a handle: Fig.: Fig. 2 is a structural view showing the structure of the handle alignment method of the present invention. 3 is a diagram of a single array module mechanism of the present invention. Figure 4 - Figure 4-3 'is an embodiment of the first embodiment of the flow path of the first direction of the present invention, - Figure 5 + Figure 5-3, is a second view of the embodiment of the first direction of the flow path of the present invention - three. 099129981 Form No. 101 0101 Page 8 / Total 27 Page 0992052583-0 201210793 [0020] FIG. 6 - FIG. 6-2 is a second direction of the entire flow path mechanism of the present invention. [0021] FIG. Schematic diagram of the temporary storage area. [0022] FIG. 8 is a schematic view of the handle entering the transfer device of the present invention. [0023] FIG. 9 is a schematic view of the handle transfer to the blowing module of the present invention. [0024] FIG. 10 is a schematic view of the handle of the present invention temporarily stored in a blowing module. [Main component symbol description] Ο [0025] Conventional [0026] 1 : Bottle [0027] 2: Handle [0028] The present invention [0029] 10: Rotary handle bottle blowing machine [0030] 20: Blowing bottle module ο [0031] 30: Alignment module [0032] 31: hopper tray [0033] 32: Alignment flow channel [0034] 321 : First direction alignment flow channel [0035] 3211: Complex baffle [0036] 3212: Spiral Guide rail [0037] 322: second direction integral flow path 099129981 Form number Α0101 Page 9/27 pages 0992052583-0 201210793 [0038] 3221: Screw [0039] 3222: Hub [0040] 3223: Flip seat [0041] 33 : Temporary storage area [0042] 34 : Dispensing device [0043] 35 : Transfer device [0044] 80 : Handle [0045] 90 : Handle conveyor 099129981 Form number A0101 Page 10 / Total 27 pages 0992052583-0