201127653 六、發明說明: 【發明所屬之技術領域】 本發明係與用於進行壓紋及燙金作業之機具有關,尤 指一種複合式壓紋燙金機。 【先前技術】 按,一般印刷產品,如海報、書籍或請帖等,為了吸 引大眾注意都會藉由各種不同之印刷手段如壓紋或燙金製 Φ 程以增進其產品美觀。 惟,目前壓紋製程與燙金製程係皆需使用專屬之機具 方可進行加工,意即,壓紋機與烫金機並無法相互通用, 而必須分別以專屬機具來進行施工,然而,如此一來,將 導致設備成本增加,並相當耗佔廠房空間,且燙金製程中 更細分有熱燙金製程與冷燙金製程,而兩者所使用之機具 亦完全不同。 因此如何提供一種可依照使用者需求而自行切換進行 鲁壓紋或燙金工作之複合式機具,即為本發明之首要課題, 故,本案發明人乃憑藉著從事相關產業之多年經驗,並經 不斷苦思及試作後,才終於有本發明之產生。 【發明内容】 本發明之主要目的,在於解決上述的問題而提供一種 複合式壓紋燙金機,其係具有可依照使用者需求而自行切 換進行壓紋或烫金工作之複合功能者。 201127653 為達前述之目的,本發明係提供一種複合式壓紋燙金 機,其包含有: 一送料機構,係供輸送一基材; 一加壓機構,係設置於該送料機構之出口端,該加壓 機構係具有一機台,並於該機台兩侧係跨設有二壓輪,並 於至少一壓輪之外周面上係可設有具有預定壓紋之模版, 而該基材係可受該送料機構之傳送而由該二壓輪之間加壓 通過; 一切換機構,係與其中一壓輪相接以供驅動該壓輪可 相對另一壓輪位移,而令與該切換機構相接之壓輪係可於 一第一位置與一第二位置上進行切換; 一燙金膜輸送機構,係可於該切換機構令與其相接之 壓輪處於第二位置時輸送一燙金膜與該基材同步由該二壓 輪之間加壓通過。 而本發明之上述及其他目的與優點,不難從下述所選 用實施例之詳細說明與附圖中,獲得深入了解。 當然,本發明在某些另件上,或另件之安排上容許有 所不同,但所選用之實施例,則於本說明書中,予以詳細 說明,並於附圖中展示其構造。 【實施方式】 首先請參閱第1圖至第3圖,係本發明所提供之一種 複合式壓紋燙金機,其主要係由一送料機構1 1、一加壓 機構2 1、一切換機構3 1、一微調機構4 1以及一燙金 膜輸送機構5 1所構成,其中: 201127653 該送料機構1 1 ’係可供輸送一基材1 2進入該加壓 機構21中以進行加工動作。 該加壓機構2 1 ’係設置於該送料機構1 1之出口端 ,該加壓機構2 1係具有一機台2 2,並於該機台2 2兩 側係跨設有呈相互平行設置之第一壓輪2 3與第二壓輪2 4,並於至少一壓輪之外周面上係設有預定壓紋之模版( 圖中未示),而該基材1 2係可受該送料機構1 1之傳送而 由該二壓輪2 3、24之間加壓通過,另該第一壓輪23 係更與一加熱裝置2 5電性連結,而可對該第一壓輪2 3 進行一加熱動作。 該切換機構3 1,係與該第一壓輪2 3相接以供驅動 該第一壓輪2 3可相對該第二壓輪2 4位移,於本實施例 中,該切換機構3 1係具有二分別樞設於該加壓機構2工 機台22兩侧之第一作動盤32,且於該各第一作動盤3 2上係分別開設有一可供該第一壓輪2 3兩端輪軸2 3工 穿設之偏心孔3 3,而於該各第-作動盤3 2上係分別接 认有第-作動桿3 4 ’而該各第-作動桿34另端係與 y傳動桿組3 5相接,且該傳動桿組3 5係可受一驅動單 兀3 6 (如氣壓缸或液壓缸)驅動以連動該各第一作動桿 ? 4分別牽引該各第一作動盤3 2進行樞轉,並藉此使穿 設於該第-作動盤3 2偏心孔3 3中 可受該偏心孔3 3之帶動而於一第一位置錢=位: B上進行偏擺移動。 該微調機構41’係與該第二*輪24相接以供驅動 5 201127653 §亥第一壓輪2 4可相對該第一壓輪2 3進行彼此間距之微 調動作,而該微調機構41係具有二分別樞設於該加壓機 構2 1機台22兩側之第二作動盤4 2,且於該各第二作 動盤4 2上係分別開設有一可供該第二壓輪2 4兩端輪軸 2 4 1穿設之偏心孔4 3,而於該各第二作動盤4 2上係 分別接設有一拉桿4 4,而該各拉桿4 4另端係與一撥動 件4 5相接,該撥動件4 5係具有一齒盤4 5 1,而該撥 動件4 5之齒盤4 5 1係供與一螺桿4 6相互嚙合,並藉 由旋動該螺桿4 6即可驅動該齒盤4 5 1旋轉而令該撥動 件4 5得以拉動該各拉桿4 4,進而使該各拉桿4 4得以 分別牽引該各第二作動盤4 2進行樞轉,並藉此使穿設於 該第二作動盤42偏心孔43中之第二壓輪24,即可同 步隨該偏心孔4 3之偏擺行程而進行一微調間距之動作; 另於本實施例中,該拉桿4 4係由二接桿4 4 1、4 4 2 與一套管4 4 3所相互接合而成,其中,該二接桿4 4工 4 4 2係为別以其一端接設於該第二作動盤4 2與該撥 動件4 5上,而該二接桿4 41、4 4 2之另端則分別螺 接於該套管4 4 3之兩端中,並藉由調整該各接桿4 4工 、4 4 2螺接於該套管4 4 3上之位置,即可改變該拉桿 4 4之長度以獲得更進一步之微調效果。 該烫金膜輸送機構5 1 ’係設於該加壓機構2 1之機 台2 2上一適當位置處,且該燙金膜輸送機構5 i係可於 該切換機構3 1令該[壓輪2 3處於第二位置B時輸送 —燙金膜5 2與該基材12同步由該二壓輪2 3、24之 201127653 間加壓通過。 而經由上述結構所組成之本發明欲進行壓紋動作時, 如第4圖所示,係令該第一壓輪2 3處於第一位置A上, 而該基材1 2係藉該送料機構1 1而由該二壓輪2 3、2 4之間通過,並藉由該二壓輪2 3、2 4之加壓使位於壓 輪上之預定壓紋得順利轉印至該基材12上而完成壓紋工 作。 另’由於燙金工作係利用燙金膜5 2與該基材1 2 一 春起加壓通過該二壓輪2 3、24而使燙金膜52上之金屬 材質得轉移至基材上,因此本發明欲進行燙金工作時,如 第2圖及第5圖所示,係藉由該切換機構3 1而令該第一 壓輪2 3由第一位置A位移至第二位置B上,並藉以使該 二壓輪2 3、2 4之間距變大而可供燙金膜5 2與基材1 2 —起通過’並於該二壓輪2 3、2 4旁側更設有一可將 已完成燙金動作之烫金膜回收集中之收料裝置6 1。 然於此必須特別提出說明的是,本發明不論冷燙金製 •程或熱燙金製程係皆可適用,當本發明欲進行熱燙金製程 時,係採用聚酯高分子薄膜作為該基材12之載體,且於 該基材上塗佈了多層高分子樹脂,並令該加熱裝置2 5對 該第一壓輪2 3之表面加熱,以使該基材1 2與該燙金膜 5 2 一起通過該二壓輪2 3、2 4時,係可藉由溫度與壓 力之作用而將燙金膜5 2與該基材12結合,並進而使燙 金膜5 2上之金屬材質可順利轉印至該基材1 2表面上, 之後再藉該收料裝置6 1將多餘之燙金膜5 2由該基材1 201127653 2上移除,即完成熱燙金製程。 而當本發明欲進行冷烫金製程時,係先於該基材1 2 印刷有預定圖樣之U V膠’再利用該二壓輪2 3、2 4將 该燙金膜5 2與該基材1 2相互貼合,接著係使用一uv 燈將該基材1 2上之UV膠乾燥,之後再藉該收料裝置6 1將多餘之燙金膜5 2由該基材1 2上移除,即可完成冷 燙金製程。 另如第6圖所示,係為本發明之第二實施例,而其與 上述實施例之差異係在於,該加壓機構2丄之機台2 2兩 側於對應該第一壓輪2 3、第二壓輪2 4兩端輪軸2 3工 、2 4 1之位置處更分別設置有一冷卻裝置2 6,該各冷 卻裝置2 6係分別與一水箱2 6 1連結,而可對設於該機 台2 2兩側上之第一作動盤3 2與第二作動盤4 2進行一 冷卻動作,並藉此即可避免該加熱裝置2 5對該第一壓輪 2 3所產生之熱能傳導至該第一作動盤3 2及第二作動盤 4 2上而造成其偏心孔3 3、4 3熱膨脹變形,進而影響 到该第一壓輪2 3與該第二壓輪2 4之運轉順暢性^ 並由上所述即可得知,本發明係可具有以下優點: 1 * 本發明係可依照使用者需求而自行切換進行 壓紋或燙金工作,並藉此實現單一機種即可 同時具有進行壓紋及燙金工作之複合功能。 2 · 本發明係藉由其微調裝置,而更可對該二壓 輪進行微調間距之動作,並藉此使本發明更 具有可適用於具有不同厚度之基材或燙金膜 201127653 之功效。 3· 本發明係可藉由選用特定之基材或於該基材 上先塗佈有預定塗膠,即可使本發明得適用 於熱燙金製程與冷燙金製程上。 4· 本發明係可於該加壓機構之機台兩側於對應 該第一壓輪、第二壓輪之位置處更分別設置 有一冷卻裝置,且該冷卻裝置係可對設於該 機台兩側上之第一作動盤與第二作動盤進行 一冷卻動作,以避免該加熱裝置對該第一壓 輪所產生之熱能傳導至該第一作動盤及第二 作動盤上而造成其偏心孔熱膨脹變形,進而 影響到該第一壓輪與該第二壓輪之運轉順暢 性。 惟,以上所述實施例之揭示係用以說明本發明,並非 用以限制本發明,故舉凡數值之變更或等效元件之置換仍 應隸屬本發明之範疇。 由以上詳細說明,可使熟知本項技藝者明瞭本發明的 確可達成前述目的,實已符合專利法之規定,爰提出專利 申請。 201127653 【圖式簡單說明】 第1圖係本發明之結構示意圖 第2圖係本發明之使用狀態示意圓,係用以顯示該二 壓輪處於第一位置及第二位置上時之狀態 第3圖係本發明之局部立體分解示意圖 一 第4圖係本發明之使用狀態示意圓,係用以顯示本發 明進行壓紋動作時之狀態 第5圖係本發明之使用狀態示意圖,係用以顯示本發 明進行燙金動作時之狀態 第6圖係本發明第二實施例之結構示意圖 【主要元件符號說明】 送料機構11 基材1 2 加壓機構21 機台2 2 第一壓輪2 3 第二壓輪2 4 輪轴2 3 1、2 41 加熱裝置2 5 冷卻裝置2 6 水箱2 6 1 切換機構31 第一作動盤3 2 偏心孔3 3 第一作動桿3 4 傳動桿組3 5 驅動單元3 6 微調機構41 第二作動盤4 2 偏心孔4 3 拉桿4 4 接桿4 41、4 4 2 套管4 4 3 撥動件4 5 齒盤4 5 1 201127653201127653 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a machine for performing embossing and bronzing operations, and more particularly to a composite embossing hot stamping machine. [Prior Art] Press, general printed products, such as posters, books or invitations, etc., in order to attract public attention, will be enhanced by various printing methods such as embossing or bronzing. However, at present, both the embossing process and the bronzing process require the use of exclusive tools for processing, which means that the embossing machine and the bronzing machine cannot be used interchangeably, and the construction must be carried out with exclusive implements. However, this is the case. This will result in an increase in equipment costs and considerable space for the plant. The hot stamping process is further subdivided into a hot stamping process and a cold stamping process, and the tools used in the two are completely different. Therefore, how to provide a composite machine that can be switched to perform embossing or bronzing according to the needs of users is the primary subject of the present invention. Therefore, the inventor of the present invention relies on years of experience in related industries and continues to After the hard work and trials, the invention finally came into being. SUMMARY OF THE INVENTION The main object of the present invention is to solve the above problems and to provide a composite embossing hot stamping machine which has a composite function of embossing or bronzing work according to the user's needs. For the purpose of the foregoing, the present invention provides a composite embossing hot stamping machine, comprising: a feeding mechanism for conveying a substrate; and a pressing mechanism disposed at an outlet end of the feeding mechanism, The pressing mechanism has a machine platform, and two pressure rollers are arranged on both sides of the machine platform, and a stencil having a predetermined embossing is provided on the outer surface of the at least one pressure roller, and the substrate is It can be pressurized by the feeding mechanism and pressurized between the two pressure rollers; a switching mechanism is connected to one of the pressure rollers for driving the pressure roller to be displaced relative to the other pressure roller, and the switching is performed The pressing wheel system of the mechanism can be switched between a first position and a second position; a bronzing film conveying mechanism can transport a bronzing film when the switching mechanism causes the pressing wheel connected thereto to be in the second position In synchronization with the substrate, pressure is passed between the two pressure rollers. The above and other objects and advantages of the present invention will become more apparent from the detailed description of the embodiments illustrated herein. Of course, the invention may be varied on certain components, or in the arrangement of the components, but the selected embodiments are described in detail in the specification and their construction is shown in the drawings. [First Embodiment] Referring first to FIGS. 1 to 3, a composite embossing hot stamping machine provided by the present invention mainly comprises a feeding mechanism 1 1 , a pressing mechanism 2 1 , and a switching mechanism 3 . 1. A fine adjustment mechanism 4 1 and a bronzing film transport mechanism 51, wherein: 201127653 The feed mechanism 1 1 ' is configured to transport a substrate 12 into the pressurizing mechanism 21 for processing. The pressing mechanism 2 1 ' is disposed at the outlet end of the feeding mechanism 1 1 , and the pressing mechanism 2 1 has a machine table 2 2 , and is arranged in parallel with each other on both sides of the machine table 2 2 . a first pressing wheel 23 and a second pressing wheel 24, and a predetermined embossing stencil (not shown) is disposed on the outer circumferential surface of the at least one pressing wheel, and the substrate 12 is responsive to the The feed mechanism 1 1 is pressurized and passed between the two pressure rollers 2 3 and 24, and the first pressure roller 23 is further electrically connected to a heating device 25, and the first pressure roller 2 can be electrically connected to the first pressure roller 2 3 Perform a heating action. The switching mechanism 31 is coupled to the first pressure roller 23 for driving the first pressure roller 23 to be displaced relative to the second pressure roller 24. In the embodiment, the switching mechanism 3 1 is The first actuating disc 32 is respectively disposed on the two sides of the working machine 22 of the pressurizing mechanism 2, and the first working discs 32 are respectively provided with two ends for the first pressing wheel 2 The wheel shaft 2 is configured to pass through the eccentric hole 3 3 , and the first actuating rod 3 4 is respectively received with the first actuating rod 3 4 ′ and the first and the actuating rods 34 are connected to the y-transmission rod. The group 3 5 is connected, and the transmission rod set 35 can be driven by a driving unit 3 6 (such as a pneumatic cylinder or a hydraulic cylinder) to interlock the first operating rods. 4 respectively pull the first operating disks 3 2 pivoting, and thereby traversing the eccentric hole 3 3 of the first-actuating disk 3 2 can be driven by the eccentric hole 3 to perform a yaw movement on a first position money=bit:B. The fine adjustment mechanism 41' is connected to the second * wheel 24 for driving 5 201127653. The first pressure roller 24 can be finely adjusted with respect to the first pressure wheel 23, and the fine adjustment mechanism 41 is The second actuating disc 42 is respectively disposed on the two sides of the pressurizing mechanism 21, and is respectively provided on the second operating discs 42. The end wheel shafts 241 are disposed with the eccentric holes 43, and the second operating plates 42 are respectively connected with a pull rods 4 4, and the other ends of the rods 4 4 are connected with a dialing member 45 The dialing member 45 has a toothed disc 455, and the sprocket 451 of the dialing member 45 is engaged with a screw 46, and is rotated by the screw 46. The rotation of the toothed disc 415 can be driven to enable the pulling member 45 to pull the pull rods 4 4, so that the respective pull rods 4 4 can respectively pull the second operating discs 4 2 to pivot, and thereby The second pressure roller 24 disposed in the eccentric hole 43 of the second operating disk 42 can synchronously perform a fine adjustment interval according to the yaw stroke of the eccentric hole 43. In the embodiment, the Tie rod 4 4 is formed by two joints 4 4 1 , 4 4 2 and a sleeve 4 4 3 , wherein the two joints 4 4 4 4 are connected to the second end Actuating the disk 4 2 and the dialing member 45, and the other ends of the two pins 4 41, 4 4 2 are screwed into the two ends of the sleeve 4 4 3 respectively, and by adjusting the respective connections The rod 4 4 and the 4 4 2 are screwed to the position of the sleeve 4 4 3 , and the length of the rod 4 4 can be changed to obtain a further fine adjustment effect. The bronzing film conveying mechanism 5 1 ' is disposed at an appropriate position on the machine table 22 of the pressurizing mechanism 2 1 , and the bronzing film conveying mechanism 5 i is configured to be the pressing device 3 1 When the second position B is in the second position B, the bronzing film 52 is pressurized by the 201127653 between the two pressure rollers 2 3 and 24 in synchronization with the substrate 12 . When the present invention consisting of the above structure is to perform an embossing operation, as shown in FIG. 4, the first pressure roller 23 is placed at the first position A, and the substrate 12 is driven by the feeding mechanism. And passing between the two pressure rollers 2 3 and 24, and the predetermined embossing on the pressure roller is smoothly transferred to the substrate 12 by the pressure of the two pressure rollers 23 and 24. Finish the embossing work. In addition, since the bronzing process uses the bronzing film 52 and the substrate 12 to pressurize the metal material on the bronzing film 52 to be transferred to the substrate by pressurizing the two press wheels 23, 24, the present invention When the gilding operation is to be performed, as shown in FIGS. 2 and 5, the first pressure roller 23 is displaced from the first position A to the second position B by the switching mechanism 31, and thereby The distance between the two pressure rollers 2 3, 2 4 is increased, and the bronzing film 52 is allowed to pass through the substrate 1 2 and is further provided on the side of the second pressure roller 2 3, 2 4 to complete the bronzing. The charging device for the action of the hot stamping film collection is concentrated 6 1 . However, it should be particularly noted that the present invention is applicable regardless of the cold stamping process or the hot stamping process. When the present invention is intended to perform the hot stamping process, a polyester polymer film is used as the substrate 12 a carrier, and a plurality of polymer resins are coated on the substrate, and the heating device 25 heats the surface of the first pressure roller 23 to pass the substrate 12 together with the bronzing film 5 2 When the pressure rollers 2 3 and 24 are used, the bronzing film 52 can be combined with the substrate 12 by the action of temperature and pressure, and the metal material on the bronzing film 52 can be smoothly transferred to the substrate. On the surface of the substrate 12, the excess bronzing film 5 2 is removed from the substrate 1 201127653 2 by the receiving device 61, and the hot stamping process is completed. When the present invention is to be subjected to a cold stamping process, the UV glue which is printed with a predetermined pattern before the substrate 12 is reused. The second stamping wheel 2 3, 2 4 is used to bond the stamping film 52 to the substrate 1 2 After bonding to each other, the UV glue on the substrate 12 is dried by using a uv lamp, and then the excess gold foil film 52 is removed from the substrate 12 by the receiving device 61. Complete the cold bronzing process. In addition, as shown in FIG. 6, it is a second embodiment of the present invention, and the difference from the above embodiment is that the machine 2 2 of the pressurizing mechanism 2 is opposite to the first pressure roller 2 3. The second pressure roller 2 4 is provided with a cooling device 2 6 at the positions of the two axles 2 and 2, respectively, and the cooling devices 26 are respectively connected with a water tank 216, and can be oppositely arranged. The first operating disk 3 2 on both sides of the machine 2 2 and the second operating disk 42 perform a cooling operation, thereby preventing the heating device 25 from generating the first pressing wheel 23. The thermal energy is transmitted to the first operating plate 3 2 and the second operating plate 42 to cause thermal expansion deformation of the eccentric holes 3 3, 4 3 , thereby affecting the first pressing wheel 23 and the second pressing wheel 24 The smoothness of operation ^ and as can be seen from the above, the present invention can have the following advantages: 1 * The present invention can automatically switch embossing or bronzing according to the needs of users, and thereby realize a single model. At the same time, it has a composite function of embossing and bronzing. 2 · The present invention is capable of fine-tuning the two rollers by means of its fine adjustment device, and thereby making the invention more effective for substrates or bronzing films of different thicknesses 201127653. 3. The present invention can be applied to the hot stamping process and the cold stamping process by selecting a specific substrate or applying a predetermined coating on the substrate. 4. The present invention is further provided with a cooling device at a position corresponding to the first pressure roller and the second pressure roller on both sides of the machine platform of the pressing mechanism, and the cooling device can be disposed on the machine platform. Performing a cooling action on the first actuating disk and the second actuating disk on both sides to prevent the heat energy generated by the heating device from being transmitted to the first actuating plate and the second actuating plate to cause eccentricity The hole is thermally expanded and deformed, thereby affecting the smoothness of operation of the first pressure roller and the second pressure roller. The disclosure of the above-described embodiments is intended to be illustrative of the present invention and is not intended to limit the scope of the invention. From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the above-mentioned objects, and is in accordance with the provisions of the Patent Law. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the structure of the present invention. FIG. 2 is a schematic diagram showing the state of use of the present invention, and is for displaying the state when the two pressure rollers are in the first position and the second position. Figure 4 is a partial perspective exploded view of the present invention. Figure 4 is a schematic view of the state of use of the present invention for showing the state of the embossing operation of the present invention. Figure 5 is a schematic view showing the state of use of the present invention for displaying Fig. 6 is a schematic view showing the structure of the second embodiment of the present invention. [Main component symbol description] Feeding mechanism 11 Substrate 1 2 Pressurizing mechanism 21 Machine 2 2 First pressing wheel 2 3 Second Pressure roller 2 4 Axle 2 3 1、 2 41 Heating device 2 5 Cooling device 2 6 Water tank 2 6 1 Switching mechanism 31 First actuating disc 3 2 Eccentric hole 3 3 First actuating lever 3 4 Transmission rod set 3 5 Drive unit 3 6 fine adjustment mechanism 41 second actuation plate 4 2 eccentric hole 4 3 tie rod 4 4 post 4 41, 4 4 2 sleeve 4 4 3 toggle 4 5 toothed disc 4 5 1 201127653
螺桿4 6 燙金膜5 2 第一位置AScrew 4 6 bronzing film 5 2 first position A
燙金膜輸送機構51 收料裝置61 第二位置BBronzing film conveying mechanism 51 receiving device 61 second position B