M421225 五、新型說明: 【新型所屬之技術領域】 本創作係涉及一種橡膠成型機之勾模結構,特別是指 —種具有簡化勾模程序與提升結構強度之創新型態設計者 按 進行脫 於兩模 + >活 ° A . 容易損 橡膠成 如 係包括 L形升 &定位 機台A 〜凸出 螺椁13 113, 15之順 降台11 之狀態 惟 系里赞中 h由 台 技術】 ,部分橡膠成 開裎序,部分 座間還包括有 動模座103易 之後又因重力 壞與操作之危 型機之勾模結 第 圖所 一 L形升降台11、一 降台11 一面設 螺絲112穿過 之 側,該固 表面14,該固 由下向上穿伸 另驅動螺桿13 逆向轉動,使 升降,以調整 型機於成型作業完成 模具除了上、下模座 數活動模座103 ,導 被上模座101吸起而 作用下分離而瞬間掉 險性,有鑑於此,目 構以避免此類問題發 示,目前習知橡膠成 固定座12、一 置有二縱向貫穿滑動 縱向貫穿滑動槽111 定座12—端固定於橡 定座12設有一貫穿孔 出並結合頂撑於L形 係螺組有一螺帽15, 驅動螺桿13上升或下 配合活動模座103之 後,需 101 、 致模具 脫離橡 落,造 前業界 生。 型機之 驅動螺 槽111 ϋ定於 '耀成型 121以 升降台 俾可藉 降且連 _ rlj度而 將模具10 102 外, 脫開過程 膠成型機 成模具10 係設置一 勾模結構 桿13,該 ,並利用 橡膠成型 機台A之 令該驅動 11之底面 由該螺帽 動L形升 利於卡勾 ’此種習知橡膠成型機之勾核結構型態於實際使用 發現仍存在下述之問題點: 於該螺帽15轉動時需鬆開該L形升降台11結合於撼 侧面之數定位螺絲112 ,才可使L形升降台丨丨在,顆 M421225 動螺桿13作動下沿著二縦向貫穿滑動槽111向上或向 下升降,另還需將數定位螺絲112逐一螺緊固定才可 使L形升降台11達到定位狀態,簡而言之,每次欲調 整該L形升降台11高度時,皆需如此繁瑣之拆裝步驟 ,嚴重影響禪作之方便性與工作效率。 2、 其中各固定元件皆分別以螺絲組合於橡膠成型機台A 上,造成整體結構強度薄弱與安裝之不易,且於拆裝 定位螺絲112或轉動螺帽15時,容易因施力不平均導 致各固定元件產生偏斜而使準嫁性大幅降低。 是以,針對上述習知橡膠成型機之勾模結構所存在之 問題點,如何開發一種更具理想實用性之創新結構,實使 用者所企盼,亦係相關業者須努力研發突破之目標及方向 〇 有鑑於此,創作人本於多年從事相關產品之製造開發 與設計經驗,針對上述之目標,詳加設計與審慎評估後, 終得一確具實用性之本創作。 【新型内容】 本創作之主要目的,係在提供一種橡膠成型機之勾模 結構,其所欲解決之問題點,係針對習知橡膠成型機之勾 模結構設計上所存在之繁續拆裝步驟與結構強度薄弱等問 題點加以改良突破; 本創作解決問題之技術特點,主要在於該橡膠成型機 之勾模結構包括:一固定框體,係為一體式矩型中空柱型 態而界定形成一頂面、一底面及周侧部,其中該周側部包 括一組設端與一敞開端,該組設端係固定於橡膠成型機台 之側面,該頂面與底面設有數相對應貫穿孔及一螺桿穿孔 ;一升降.台,該升降台係設置於固定框體上方;一勾模模 M421225 組,係設置於升降台上,該勾模模組包括一推進裝置 合一滑動卡勾板塊俾藉由該推進裝置推動滑動卡勾板 藉以卡勾活動模座達成定位狀態;數導動柱,係藉由 穿孔由下向上穿伸出該固定框體並連結於一升降台底 使升降台於升降時達到平衡穩定狀態;一驅動螺桿, 由螺桿穿孔由下向上穿伸出該固定框體並結合於該升 底面;一調整螺帽,係螺組於該驅動螺桿,且令該調 帽向下抵靠於該固定框體之底面上使驅動螺桿達到定 ' 態並頂撐該升降台;藉此,俾可利用該調整螺帽之順 Φ 轉動,使驅動螺桿上升或下降且連動升降台升降,以 活動模座之高度作調整,藉此達到方便卡勾定位活動 之結構型態。 藉此創新獨特設計,使本創作對照先前技術而言 到大幅提升結構強度與作動流程更加簡化且平穩,並 構件作動或組裝時更加精準而更符合產業需求之實用 性與產業利用效益。 【實施方式】 請參閱第3至7圖所示,係本創作橡膠成型機之 胃結構之較佳實施例,惟此等實施例僅供說明之用,在 申請上並不受此結構之限制。所述橡膠成型機之勾模 係設置於橡膠成型機台A之側面,藉以卡勾定位模具 活動模座201 ,得於完成作業時,令模具20能順利完 開程序之型態者,該橡膠成型機之勾模結構包括: 如3 、4 、5圖所示,一固定框體21,係為一體 型中空柱型態而界定形成一頂面211 、一底面212及 部22,其中該周側部22包括一組設端221與一敞開端 ,該組設端221係固定於橡膠成型機台A之側面,該 框體21之頂面211與底面212設有數相對應之貫穿孔 並結 塊, 數貫 面, 係错 降台 整螺 位狀 逆向 配合 模座 ,達 於各 進步 勾模 專利 結構 20之 成脫 式矩 周側 222 固定 213 M421225 及一螺桿穿礼214 (僅標示於第5圖); 一升降台23,該升降台23係設置於固定框體21 一勾模模组B ,係設置於升降台23上,該勾模 包括一推進裝置24並結合一滑動卡勾板塊25俾藉由 裝置24推動滑動卡勾板塊25 (如第3圖箭號R1所示 以卡勾活動模座201達成定位狀態; 數導動柱26,如第5圖所示,係藉由數貫穿孔 . 下向上穿伸出該固定框體21並連結於升降台23底面 ' 使升降台23於升降時達到平衡穩定狀態; φ 一驅動螺桿27,如第5圖所示,該驅動螺桿27 螺桿穿孔214由下向上穿伸出該固定框體21並結合 降台23底面231 ; 一調整螺帽28,係螺組於該驅動螺桿27,且令 螺帽28向下抵靠於該固定框體21之底面231上,使 桿27達到定位狀態並頂撐該升降台23 ; 藉此,俾可利用該調整螺帽28之順逆向轉動, 螺桿27上升或下降且連動升降台23與數導動柱26升 配合活動模座201之高度作調整,藉此達到方便卡 φ 活動模座201之結構型態。 ' 補充說明一點是,其中數貫穿孔213與螺桿穿 • 直徑係大於數導動柱26與驅動螺桿27,使該數導動 驅動螺桿27能穿伸出固定框體21,藉此於本創作使 時,該數導動柱26能隨升降台23做升降之狀態。 如第6 、7圖所示,其中'該調整螺帽28與固定 之底面212間係設置一徑向止推軸承30,以減低該 帽28轉動之接觸面29摩擦係數,不僅令使用者於操 加省力,亦減少操作時造成工作傷害之可能性,另 驅動螺桿27於固定框體21之底面212下方可螺組一 位螺帽40,令驅動螺桿27與固定框體21連結時達到 上方; 模組B 該推進 ),藉 213由 231 , 係措由 於該升 該調整 驅動螺 使驅動 降,以 勾定位 孔214 柱26與 用作動 框體21 調整螺 作時更 其中該 輔助定 更加穩 6 M421225 固定位之狀態。 藉由上述之結構、組成設計,茲就本創作之使用作 情形說明如下·· 如第3圖所示,該升降台23上係設置一推進裝置24 結合一滑動卡勾板塊25,俾可藉由該推進裝.置24推動滑 卡勾板塊 25,使該滑動卡勾板塊25向活動模具201滑動 卡勾相對應之凹槽(如第3圖箭號R1所示),得於完成 業時,令模具20能順利完成脫開程序。 如第7圖所示,可利用手工具(如:扳手)或直接 人手握持轉動方式使調整螺帽28產生順逆向轉動(如箭 R2所示),使驅動螺桿27上升或下降且連動升降台23與 導動柱26升降(如箭號R3所示),該數導動柱26可令該 降台23於升降時更平衡且穩定,使本創作於調整配合活 模座201凹槽高度時準確性能大幅增加。 功效說明: φ 本創作功效增進之事實如下: • 本創作所揭「橡膠成型機之勾模結構」主要藉由一 • 定框體、數導動柱、一升降台、一驅動螺桿與一調整螺 所構成,藉由該調整螺帽之順逆向轉動,使驅動螺桿上 或下降且連動升降台升降,以配合活動模座之高度作調 ,藉此達到方便卡勾活動模座之創新獨特設計,使本創 對照【先前技術】所提習知技術而言,因本創作之固定 體一體成型之結構設計,所以就製造面而言,能大幅增 製程加工之方便性,相對亦可減少安裝之時間與困難度 再就結構面而言,由於本創作之固定框體為一體成型之 構設計且該升降台係藉由數導動柱作用下能達到平衡穩 動 並 動 並 作 以 號 數 升 動 固 帽 升 整 作 框 加 > 結 定 7 mzi225 = !知具有較佳結構強度如 機之勾模结槿:: 創作整體载 + , ^ <」丨各稱件精確度大幅提高 :升降」!作只需藉由該調整螺帽之順逆向 創作者:古祁罕父習知係大幅簡化操作程序 且平穩而更符合產業需求之實用進L: 本創作可產生之新功效如下: J由本創作調整螺帽與固定框體底面 ,二相較習知螺帽轉動之接觸面係為 係數,:土推轴承大幅減低該調整螺帽轉 成工作令使用者於操作時更加省力, 方係之可能性;另該驅動螺桿於固 ,達2—輔助定位螺t胃,令,螺桿盘 乂至丨更加穩固定位之狀態。. ' 雖透施例所揭示者係藉以具體說明 之專利ϊ二的術語進行說明,當不能以此 之於^範圍;熟悉此項技術領域之人士+ 此則後對其進行變更與修改而i 定之範i;修改’皆應涵蓋於如后所述申 改善習知因拆裝 計可令橡膠成塑 ,另於操作面而 轉動,即可升降 ,綜上所述,本 動流程更加簡化 產業利用效益。 間設置之徑向止 固定座表面而言 動接觸面之摩擦 亦減少操作時造 定框體之底面下 固定框體連結時 本創作,且文中 限定本新型創作 可在瞭解本創作 到等效目的,而 *月專利範圍所界 8 M421225 【圖式簡單說明】 第 [圖 :係 習 知 結 構 之 立 第 2圖 :係 習 知 結 構 結 合 圖 〇 第 3圖 本 創 作 結 合 橡 膠 第 ί圖 本 創 作 結 構 較 佳 第 3圖 本 創 作 結 構 較 佳 第 3圖 本 創 作 ό又 置 有 徑 面 剖 視 圖 〇 第 7圖 :本 創 作 之 升 降 作M421225 V. New description: [New technical field] This creation relates to a hook-and-loop structure of a rubber molding machine, in particular to an innovative type of designer who has a simplified hooking procedure and improved structural strength. Two-mode + > live ° A. Easy to damage the rubber into the system including the L-shaped rise & positioning machine A ~ protruding screw 13 113, 15 of the descending table 11 state only Li Zanzhong h by Taiwan technology 】 Some of the rubbers are in the order of opening, and some of the seats also include the molds of the movable molds 103, which are easily damaged by gravity and the operation of the machine. The L-shaped lifting platform 11 and the lowering platform 11 are provided. The screw 112 passes through the side, and the solid surface 14 penetrates and extends from the bottom to the other driving screw 13 to rotate in the reverse direction, so as to lift and lower the mold to complete the mold in addition to the upper and lower mold base movable mold base 103 in the molding operation. The guide is sucked up by the upper die holder 101 to be separated and instantaneously dangerous. In view of this, the mesh avoids such problems, and the conventional rubber is fixed into the fixed seat 12 and has two longitudinal through sliding longitudinally through. slide The fixing seat 12 is fixed to the rubber seat 12 and has a continuous perforation and a top nut supported by the L-shaped screw group. The driving screw 13 is raised or lowered to match the movable mold base 103, and the mold 101 is required. Out of the oak, the predecessors of the industry. The driving screw groove 111 of the machine is set to 'the yoke forming 121, and the lifting table can be borrowed and lowered, and the mold 10 102 is detached, and the mold is formed into a mold 10, and a hook structure rod 13 is arranged. And, using the rubber molding machine A, the bottom surface of the driving 11 is lifted by the nut to the hook shape. The hooking structure of the conventional rubber molding machine is found in the actual use. The problem point: when the nut 15 rotates, the L-shaped lifting platform 11 is required to be coupled with the positioning screws 112 of the side of the cymbal, so that the L-shaped lifting platform can be smashed, and the M421225 moving screw 13 is actuated along The two cymbals are lifted up or down through the sliding slot 111, and the plurality of positioning screws 112 are screwed one by one to enable the L-shaped lifting platform 11 to reach the positioning state. In short, the L-shaped lifting and lowering is required to be adjusted each time. When the height of the table 11 is high, all such complicated and disassembling steps are required, which seriously affects the convenience and work efficiency of the Zen work. 2. Each of the fixing components is respectively assembled on the rubber molding machine A by screws, which causes the overall structural strength to be weak and difficult to install, and is easy to be unevenly applied when the positioning screw 112 or the rotating nut 15 is disassembled. Each of the fixing elements is deflected to greatly reduce the quasi-marriage. Therefore, in view of the problems existing in the above-mentioned conventional rubber molding machine's die-cutting structure, how to develop an innovative structure that is more ideal and practical, and the users are looking forward to it, and the relevant industry must strive to develop breakthrough targets and directions. In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation, the author has finally achieved a practical and practical creation. [New content] The main purpose of this creation is to provide a rubber molding machine's hook-and-mold structure. The problem to be solved is to solve the problem of the conventional structure of the rubber molding machine. Steps and weak structural strengths and other problems to improve the breakthrough; The technical characteristics of the solution to the problem, mainly in the rubber molding machine's hook structure includes: a fixed frame, is a one-piece rectangular hollow column type and defined a top surface, a bottom surface and a circumferential side portion, wherein the side portion of the circumference comprises a set of end portions and an open end, the set end portions are fixed to the side of the rubber molding machine, and the top surface and the bottom surface are provided with a plurality of corresponding ends a hole and a screw perforation; a lifting platform, the lifting platform is disposed above the fixed frame; a hook mold M421225 group is disposed on the lifting platform, the hooking module includes a pushing device and a sliding hook The plate 推动 pushes the sliding hook plate by the pushing device to achieve the positioning state by the hook movable mold base; the plurality of guiding columns extend through the fixing frame from the bottom through the perforation and are connected to the lifting frame The bottom plate causes the lifting platform to reach a balanced and stable state during lifting; a driving screw extends from the bottom of the screw through the fixing frame and is coupled to the lifting bottom surface; an adjusting nut is screwed to the driving screw, and Having the adjusting cap abutting against the bottom surface of the fixing frame to bring the driving screw into a fixed state and supporting the lifting platform; thereby, the adjusting screw can be rotated by the Φ to increase the driving screw or Decrease and move the lifting platform up and down, and adjust the height of the movable mold base to achieve the structure of the hook positioning activity. With this innovative and unique design, this creation is more simplified and smoother than the previous technology to greatly improve the structural strength and actuation process, and the components are more precise and more accurate in conformity with the industrial needs and industrial utilization benefits. [Embodiment] Please refer to Figures 3 to 7 for a preferred embodiment of the stomach structure of the present rubber molding machine, but the embodiments are for illustrative purposes only and are not limited by the structure. . The hooking mold of the rubber molding machine is disposed on the side of the rubber molding machine A, whereby the mold movable mold base 201 is positioned by the hook, so that when the work is completed, the mold 20 can smoothly complete the program type, the rubber The die-cutting structure of the molding machine includes: as shown in Figures 3, 4, and 5, a fixed frame body 21 is an integral hollow column type and defines a top surface 211, a bottom surface 212, and a portion 22, wherein the circumference The side portion 22 includes a set of end portions 221 and an open end. The set end portion 221 is fixed to the side of the rubber molding machine A. The top surface 211 and the bottom surface 212 of the frame body 21 are provided with a plurality of corresponding through holes. Block, number of planes, error-reducing platform, screw-shaped reverse-fitted mold base, up to each progressive stamping patent structure 20 into the off-moment peripheral side 222 fixed 213 M421225 and a screw-through 214 (only in the first 5)); a lifting platform 23, the lifting platform 23 is disposed on the fixed frame body 21, a die-cutting module B, is disposed on the lifting platform 23, the hooking die includes a pushing device 24 and a sliding hooking plate block 25 推动 push the sliding hook plate 25 by the device 24 (such as the arrow in Figure 3 R1 shows the positioning state of the hook movable mold base 201; the number of the guide post 26, as shown in Fig. 5, is extended by the number of through holes. The fixed frame body 21 is extended upward and connected to the lifting platform 23 The bottom surface 'balances the lifting table 23 when it is raised and lowered; φ a driving screw 27, as shown in Fig. 5, the driving screw 27 has a screw through hole 214 extending downward from the fixing frame 21 and combined with the lowering platform 23 a bottom surface 231; an adjusting nut 28 is screwed to the driving screw 27, and the nut 28 is pressed downward against the bottom surface 231 of the fixing frame 21, so that the rod 27 reaches the positioning state and supports the lifting platform. 23; Thereby, the adjusting nut 28 can be rotated in the reverse direction, the screw 27 is raised or lowered, and the height of the movable lifting platform 23 and the number of the guiding columns 26 is matched with the height of the movable mold base 201, thereby facilitating the card. φ The structure of the movable mold base 201. 'Additional explanation is that the number of through holes 213 and the screw penetration diameter are larger than the number of the guide columns 26 and the drive screw 27, so that the number of the drive drive screws 27 can be extended. Fixing the frame 21, so that the number of the guide columns 26 can follow The lowering platform 23 is in a state of lifting. As shown in Figs. 6 and 7, a radial thrust bearing 30 is disposed between the adjusting nut 28 and the fixed bottom surface 212 to reduce the contact surface 29 of the cap 28. The friction coefficient not only saves the user's effort, but also reduces the possibility of work injury during operation. The driving screw 27 can screw a nut 40 under the bottom surface 212 of the fixed frame 21, so that the driving screw 27 and the driving screw 27 When the fixing frame 21 is connected, the upper part is reached; the module B is pushed forward, and by 213, 231, the driving is driven by the adjustment screw, and the positioning hole 214 is used to adjust the screw. In this case, the auxiliary is more stable 6 M421225 fixed bit state. With the above structure and composition design, the use case of the present invention will be described as follows. As shown in FIG. 3, the lifting platform 23 is provided with a propulsion device 24 coupled with a sliding hook plate 25, which can be borrowed. The sliding hook block 25 is pushed by the pushing device 24 to slide the sliding hook block 25 to the movable mold 201 corresponding to the groove (as shown by the arrow R1 in FIG. 3), to complete the business hours. , so that the mold 20 can successfully complete the disengagement process. As shown in Fig. 7, the adjusting nut 28 can be rotated in the reverse direction (as indicated by the arrow R2) by using a hand tool (such as a wrench) or a direct hand holding rotation mode, so that the driving screw 27 rises or falls and moves up and down. The table 23 and the guide post 26 are lifted and lowered (as indicated by the arrow R3), and the number of the guide post 26 can make the lowering platform 23 more balanced and stable during lifting, so that the height of the groove of the fit mold holder 201 is adjusted. Accurate performance increases dramatically. Efficacy Description: φ The facts of this creative effect enhancement are as follows: • The “Molding Structure of Rubber Molding Machine” disclosed in this creation mainly consists of a fixed frame, several guide columns, a lifting table, a driving screw and an adjustment. The snail is formed by the reverse rotation of the adjusting nut, so that the driving screw is lowered or lowered and the lifting platform is lifted and lowered to match the height of the movable mold base, thereby achieving an innovative and unique design for facilitating the hook movable mold base. In the conventional technology of the prior art, the design of the fixed body of the creation is integrated, so that the manufacturing surface can greatly increase the convenience of the processing, and the installation can be reduced. The time and difficulty are further related to the structural plane. Because the fixed frame of the creation is a one-piece structure and the lifting platform can be balanced and stabilized by the number of guiding columns, and the number is counted. Lifting the solid hat lifting frame + > Setting 7 mzi225 = ! Knowing that there is better structural strength such as machine hooking:: Creating the overall load + , ^ <" 丨 The accuracy of each item is greatly improved: ! Lift "just as good or poor by the adjusting nut of the creator: the father of the ancient Qi Han conventional system greatly simplifies operating procedures and a smooth and more in line with the needs of the utility industry into L: the creation of this new effect can be produced as follows: J is adjusted by the creation of the nut and the bottom surface of the fixed frame, and the contact surface of the two-phase rotating nut is a coefficient. The soil push bearing greatly reduces the adjustment nut and turns into work, which makes the user more labor-saving during operation. The possibility of the system; the other drive screw is solid, up to 2 - assisted positioning screw t stomach, so that the screw disk 乂 to 丨 more stable and fixed position. 'Although the disclosures of the examples are explained by the terminology of the patents specified in the application, if they cannot be used in this field; those who are familiar with the technical field + then change and modify them. The formula should be covered as follows. The application of the improvement method can be applied to the plastics due to the disassembly and assembly, and the rotation can be carried out on the operation surface to raise and lower. In summary, the flow process further simplifies the industry. Use benefits. The friction of the moving contact surface on the surface of the radial stop fixing seat is also reduced. This creation is made when the fixed frame of the bottom frame of the frame is fixed during operation, and the novel creation is limited to the purpose of understanding the creation. And the *month patent range is bounded by 8 M421225 [Simple description of the diagram] The first picture: The structure of the structure is the second figure: the structure of the structure is combined with the figure. The third picture is combined with the rubber. Good 3rd picture, the structure of the creation is better. The third picture is created with a cross-sectional view of the surface. Figure 7: The lifting of the creation
【主要元件符號說明】 習 知 部 分 • 橡 膠 成 型 機 台 A 模 具 1 上 模 座 1 下 模 座 1 活 動 模 座 1 L 形 升 降 台 1 縱 向 貫 穿 滑 動槽 1 定 位 螺 絲 1 底 面 1 固 定 座 1 貫 穿 孔 1 驅 動 螺 桿 1 凸 出 表 面 1 螺 帽 1 本 創 作 部 份 橡 膠 成 型 機 台 A 圖。 膠成型機台之作動平面側視 型機台之作動平面側視圖。 施例之立體圖。 施例之分解立體圖。 止推軸承與輔助定位螺帽之平 狀態示意圖。 2 2 M421225 勾模模組 模具 活動模座 固定框體 頂面 底面 貫穿子L ' 螺桿穿扎 " 周側部 φ 組設端 敬開端 升降台 推進裝置 滑動卡勾板塊 導動柱 驅動螺桿 調整螺帽 接觸面 徑向止推軸承 β輔助定位螺帽 Β 2 0 2 0 1[Main component symbol description] Conventional part • Rubber molding machine A Mold 1 Upper die holder 1 Lower die holder 1 Movable die holder 1 L-shaped lifting table 1 Longitudinal through sliding groove 1 Set screw 1 Bottom 1 Fixing seat 1 Through hole 1 Drive screw 1 protruding surface 1 nut 1 This part of the rubber molding machine A picture. The side view of the actuating plane side view of the glue forming machine. A perspective view of the example. An exploded perspective view of the embodiment. Schematic diagram of the flat state of the thrust bearing and the auxiliary positioning nut. 2 2 M421225 Molding module Mould movable Moulding seat Fixing frame Top surface Bottom surface L' Screw threading " Zhou side φ Group end Ending end Elevator propulsion device Sliding hook plate Block guide column Driving screw adjustment screw Cap contact surface radial thrust bearing β auxiliary positioning nut Β 2 0 2 0 1
2 14 2 2 2 2 1 2 2 22 14 2 2 2 2 1 2 2 2
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