TWI650239B - Multilayer product manufacturing apparatus and multilayer product manufacturing method - Google Patents

Multilayer product manufacturing apparatus and multilayer product manufacturing method Download PDF

Info

Publication number
TWI650239B
TWI650239B TW104110689A TW104110689A TWI650239B TW I650239 B TWI650239 B TW I650239B TW 104110689 A TW104110689 A TW 104110689A TW 104110689 A TW104110689 A TW 104110689A TW I650239 B TWI650239 B TW I650239B
Authority
TW
Taiwan
Prior art keywords
layer
layer material
discharge
multilayer
supply
Prior art date
Application number
TW104110689A
Other languages
Chinese (zh)
Other versions
TW201600332A (en
Inventor
杉野祥弘
Original Assignee
日商兵神裝備股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 日商兵神裝備股份有限公司 filed Critical 日商兵神裝備股份有限公司
Publication of TW201600332A publication Critical patent/TW201600332A/en
Application granted granted Critical
Publication of TWI650239B publication Critical patent/TWI650239B/en

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W90/00Enabling technologies or technologies with a potential or indirect contribution to greenhouse gas [GHG] emissions mitigation
    • Y02W90/10Bio-packaging, e.g. packing containers made from renewable resources or bio-plastics

Landscapes

  • Formation And Processing Of Food Products (AREA)
  • Containers And Plastic Fillers For Packaging (AREA)
  • Rotary Pumps (AREA)
  • Manufacturing And Processing Devices For Dough (AREA)
  • Meat, Egg Or Seafood Products (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Polymers & Plastics (AREA)

Abstract

本發明之目的係在於提供一種能夠更進一步提高多層產品之附加價值之多層產品製造裝置和多層產品製造方法。 An object of the present invention is to provide a multilayer product manufacturing apparatus and a multilayer product manufacturing method that can further increase the added value of multilayer products.

本發明之多層產品製造裝置(10),其具備成形機構部(10b)、密封機構部(10d)以及具有吐出噴嘴(42)之吐出機構部(10a);透過利用密封機構部(10d)將利用成形機構部(10b)成形為筒狀之薄膜(F)之兩端部加以密封,從而能夠將薄膜(F)形成為筒狀;透過將多層物藉由吐出機構部(10a)吐出到筒狀的薄膜(F)內,並利用密封機構部(10d)進行密封,從而能夠製成多層產品。 The multilayer product manufacturing apparatus (10) of the present invention includes a forming mechanism section (10b), a sealing mechanism section (10d), and a discharge mechanism section (10a) having a discharge nozzle (42); The both ends of the film (F) formed into a cylindrical shape by the forming mechanism portion (10b) are sealed, so that the film (F) can be formed into a cylindrical shape; the multilayer material is ejected to the cylinder through the ejection mechanism portion (10a). The multilayer film (F) is sealed with a sealing mechanism portion (10d), so that a multilayer product can be produced.

Description

多層產品製造裝置和多層產品製造方法 Multi-layer product manufacturing device and multi-layer product manufacturing method

本發明係有關於一種用於製造多層產品之製造裝置和製造方法,該多層產品係利用薄膜將多層物加以包裝而製成,該多層物是利用具有黏性的一種材料將具有黏性的另一種材料包住而構成。 The invention relates to a manufacturing device and a manufacturing method for manufacturing a multi-layer product. The multi-layer product is made by packaging a multilayer with a film. The multilayer is made of a material Enclosed with a material.

目前,作為用於製造利用其他材料構成之外皮將餡等材料包住之饅頭或點心等多層食品之裝置,已知有下述專利文獻1~3中所揭示之食品用的製造裝置或者製造方法。下述專利文獻1所揭示之包餡產品製造裝置具備內包材料供給筒和與其呈同軸狀地設置之外皮材料供給筒,在使外皮材料供給筒朝向上方移動的同時從外皮材料供給筒吐出外皮材料,並且在從供給了一定量外皮材料的時刻至外皮材料之供給結束前為止的期間內,一邊持續從外皮材料供給筒中吐出外皮材料,一邊從內包材料供給筒中吐出內包材料,從而能夠製成內包材料被外皮材料包住之多層材料。 Conventionally, as a device for manufacturing a multilayered food such as a steamed bun or confectionery that uses an outer skin to cover a filling or the like, a manufacturing device or method for foods disclosed in the following Patent Documents 1 to 3 is known. . The stuffing product manufacturing apparatus disclosed in the following Patent Document 1 includes an inner material supply cylinder and an outer material supply cylinder provided coaxially therewith, and ejects the outer skin from the outer material supply cylinder while moving the outer material supply cylinder upward. The material can be continuously ejected from the inner material supply tube while the outer material is continuously ejected from the inner material supply tube during the period from the moment when a certain amount of outer material is supplied to the end of the outer material supply. It is made of multilayer material with inner material covered by outer material.

另外,下述專利文獻2所揭示之包餡食品之 製造方法,與利用專利文獻1之包餡產品製造裝置進行製造時同樣地,在增大雙頭噴嘴與搬送構件之間的間隔的同時,開始從構成雙頭噴嘴之外側噴嘴擠出外皮材料,然後從經過一定時間後的時刻起開始從內側噴嘴擠出內包材料,從而製成包餡食品。 In addition, the stuffed foods disclosed in Patent Document 2 below The manufacturing method is the same as when manufacturing the stuffed product manufacturing apparatus of Patent Document 1, while increasing the gap between the double-headed nozzle and the conveying member, and starting to extrude the sheath material from the nozzles outside the double-headed nozzle, Then, from the moment after a certain period of time has elapsed, the inner packaging material is extruded from the inner nozzle to make a stuffed food.

但是,在下述專利文獻1或專利文獻2所涉及之先前技術中,無法使用具有黏性且比內層材料(內包材料)柔軟之材料作為外層材料來製造多層材料。即,在先前技術之包餡產品製造裝置等中,存在能夠用作外層材料或內層材料之材料有限,從而可製造之多層材料之變化有限這樣的問題。因此,為了解決上述問題,本發明人等提供了下述專利文獻3所揭示之多層產品製造裝置等。 However, in the prior art described in Patent Document 1 or Patent Document 2 below, a multilayer material cannot be manufactured using a material that is sticky and softer than the inner layer material (inner wrapping material) as the outer layer material. That is, in the prior art stuffing product manufacturing apparatuses, there is a problem that there are limited materials that can be used as the outer layer material or the inner layer material, and thus there are limited variations in the multilayer materials that can be manufactured. Therefore, in order to solve the above problems, the present inventors have provided a multilayer product manufacturing apparatus and the like disclosed in Patent Document 3 below.

[先前技術文獻] [Prior technical literature] [專利文獻] [Patent Literature]

專利文獻1:日本特開2011-115113號公報 Patent Document 1: Japanese Patent Application Laid-Open No. 2011-115113

專利文獻2:日本特開平6-98684號公報 Patent Document 2: Japanese Patent Application Laid-Open No. 6-98684

專利文獻3:日本特許5185455號公報 Patent Document 3: Japanese Patent No. 5185455

利用上述專利文獻3所涉及之多層產品製造裝置製成之多層產品,是無法利用先前技術下之製造方法或製造裝置進行製造的附加價值高的產品,但是,本發明人等進行了各種研究,以進一步提高附加價值。作為提高附加價值之方法之一例,例如可以考慮採取使多層產品之使用或保存變得容易之方法。另外,在使用具有黏性且柔 軟的材料製造多層產品時,透過進一步提高可搬運性,有望進一步提高附加價值。另外,當多層產品是食品等人類攝取之產品、或者人體使用之產品時,透過形成為使用衛生性良好之產品,能夠提高附加價值。進而,在以能夠容易地進行加熱或冷卻等處理之形態提供多層產品時,能夠提高多層產品之附加價值、以及使其用途多樣化。 The multi-layered product manufactured by the multi-layered product manufacturing apparatus according to the aforementioned Patent Document 3 is a product with high added value that cannot be manufactured by the manufacturing method or manufacturing apparatus of the prior art. However, the present inventors have conducted various studies. To further increase the added value. As an example of a method for increasing the added value, for example, a method for facilitating the use or storage of a multilayer product can be considered. In addition, it is sticky and flexible When manufacturing multilayer products from soft materials, it is expected to further increase added value by further improving portability. In addition, when a multilayer product is a product for human consumption such as food or a product for human use, it can increase added value by being formed into a product with good hygiene. Furthermore, when a multilayer product is provided in a form that can be easily processed by heating or cooling, it is possible to increase the added value of the multilayer product and diversify its use.

為了解決上述問題,本發明之目的係在於提供一種能夠更進一步提高多層產品之附加價值之多層產品製造裝置和多層產品之製造方法。 In order to solve the above problems, an object of the present invention is to provide a multilayer product manufacturing apparatus and a multilayer product manufacturing method that can further increase the added value of multilayer products.

本發明為解決上述問題而提供之多層產品製造裝置,是將利用具有黏性的一種材料包住具有黏性的另一種材料之多層物收容在外皮內而製成的多層產品之製造裝置,該多層產品製造裝置之特徵在於,具備:具有用於將多層物吐出到前述外皮內的吐出噴嘴之吐出機構、和用於對前述外皮進行封裝之密封機構,該多層物係利用具有黏性的一種材料將具有黏性的另一種材料包住而構成;透過利用前述密封機構將內部收容有前述多層物之前述外皮加以封裝,從而製成利用前述外皮包裝前述多層物之多層產品;在將前述多層物中內外相鄰之任意兩個層假設為A層和B層時,前述吐出噴嘴具有下述噴嘴結構,即:用於吐出構成前述A層之A層材料的一個吐出區域,被用於吐出構成前述B層之B層材料的另一個吐出區域包圍。 The multi-layer product manufacturing device provided by the present invention to solve the above-mentioned problems is a multi-layer product manufacturing device which is made by storing a multi-layer object having another material with tackiness and containing another material with tackiness in an outer skin. A multi-layer product manufacturing apparatus is characterized by comprising a discharge mechanism having a discharge nozzle for discharging a multi-layer object into the outer skin, and a sealing mechanism for encapsulating the outer skin. The multi-layer product uses an adhesive The material is formed by enclosing another material having adhesiveness; by using the aforementioned sealing mechanism, the outer skin containing the multi-layered material inside is encapsulated, so as to make a multi-layer product using the outer skin to package the multi-layered material; When any two layers adjacent to the inside and outside of the object are A layer and B layer, the above-mentioned ejection nozzle has the following nozzle structure, that is, an ejection area for ejecting the layer A material constituting the aforementioned A layer, and is used for ejection. Another discharge area of the B layer material constituting the B layer is surrounded.

根據本發明之多層產品製造裝置,能夠利用另外準備之外皮包住多層物並進行封裝,從而製成多層產品。由此,能夠提供易於使用或保存且使用衛生性良好之多層產品。另外,即使在使用柔軟材料來製造多層產品之情況下,也能夠製成易於搬運而不會破壞形狀的可搬運性出色之多層產品。進而,利用本發明之多層產品製造裝置製成之多層產品被外皮包住,因而能夠容易地進行加熱或冷卻等處理。由此,根據本發明,能夠提高多層產品之附加價值,以及使其用途多樣化。 According to the multilayer product manufacturing apparatus of the present invention, a multilayer product can be formed by encapsulating and packaging a multilayer object with a separate preparation. This makes it possible to provide a multilayer product that is easy to use or store, and has good hygiene. In addition, even when a multilayer product is manufactured using a soft material, it is possible to produce a multilayer product that is easy to transport without being damaged in shape and has excellent transportability. Furthermore, since the multilayer product manufactured by the multilayer product manufacturing apparatus of the present invention is covered with an outer skin, it is possible to easily perform processing such as heating or cooling. Thus, according to the present invention, it is possible to increase the added value of a multilayer product and diversify its use.

另外,本申請中所載各發明之概念不僅限於製造利用一個外層包住構成中心之部分(中心層)之外周的具有雙層結構之“多層物”,還包括製造具有更多層結構之多層產品者。在製造例如從中心側朝向外側包括中心層、中間層以及外層之三層結構之多層產品之情況下,如圖7所示,可以形成為具備第一噴嘴結構和第二噴嘴結構,第一噴嘴結構是將中心層P4和中間層P5分別作為上述A層和B層而構成,第二噴嘴結構是將中間層P5和外層P6分別作為上述A層和B層而構成。關於如此將噴嘴結構形成為多層結構之情況,也包括在本申請所載之各發明以及以下說明之概念中。 In addition, the concepts of the inventions contained in this application are not limited to the manufacture of "multilayers" with a double-layer structure that surrounds the outer part of the center (center layer) with an outer layer, but also include the manufacture of multiple layers with more layers. Producer. In the case of manufacturing a multilayer product including a three-layer structure including a center layer, a middle layer, and an outer layer from the center side to the outside, as shown in FIG. 7, it may be formed to have a first nozzle structure and a second nozzle structure. The structure includes the center layer P4 and the intermediate layer P5 as the A and B layers, respectively, and the second nozzle structure includes the intermediate layer P5 and the outer layer P6 as the A and B layers, respectively. The case where the nozzle structure is formed into a multilayer structure as described above is also included in the inventions contained in this application and the concepts described below.

另外,本發明為解決同樣問題而提供之多層產品製造裝置之特徵在於,具備用於形成外皮之成形機構、和具有用於將多層物吐出到利用前述成形機構形成之外皮中的吐出噴嘴之吐出機構,前述多層物是利用具有黏 性的一種材料將具有黏性的另一種材料包住而構成;透過將利用前述成形機構形成之外皮加以封裝,從而製成利用前述外皮包裝從前述吐出機構吐出之前述多層物之多層產品;在將前述多層物中內外相鄰之任意兩個層假設為A層和B層時,前述吐出噴嘴具有下述噴嘴結構,即:用於吐出構成前述A層之A層材料的一個吐出區域,被用於吐出構成前述B層之B層材料的另一個吐出區域包圍。 In addition, the present invention provides a multi-layer product manufacturing apparatus for solving the same problem, which includes a forming mechanism for forming an outer skin and an ejection nozzle having an ejection nozzle for ejecting a multilayer material into the outer skin formed by the forming mechanism. Mechanism, the aforementioned multilayer is made of One kind of material is formed by enclosing another kind of material that has viscosity; by packaging the outer skin formed by the aforementioned forming mechanism and packaging it, a multi-layer product of the aforementioned multi-layer object ejected from the aforementioned ejection mechanism by the aforementioned outer packaging; When any two layers adjacent to each other inside and outside the multilayer are assumed to be layers A and B, the discharge nozzle has the following nozzle structure, that is, a discharge area for discharging the layer A material constituting the layer A is Another ejection area for ejecting the layer B material constituting the aforementioned layer B is surrounded.

根據本發明之多層產品製造裝置,能夠在利用成形機構形成外皮的同時,利用所形成之外皮包住多層物並進行封裝,從而製成多層產品。由此,能夠一面順暢地進行從形成外皮至製成多層產品為止的一系列製造步驟,一面製造多層產品。 According to the multi-layer product manufacturing apparatus of the present invention, the outer skin can be formed by the forming mechanism, and at the same time, the multi-layer object can be wrapped and packaged by the formed outer skin, thereby forming a multi-layer product. Thereby, a series of manufacturing steps from forming an outer skin to manufacturing a multilayer product can be performed smoothly while manufacturing a multilayer product.

利用本發明之多層產品製造裝置製成之多層產品,由於利用外皮將多層物包住,因而易於使用或保存,並且使用衛生性良好,而且附加價值高。另外,根據本發明,即使在使用柔軟材料來製造多層產品之情況下,也能夠製成易於搬運且不會破壞形狀的可搬運性出色之多層產品。進而,利用本發明之多層產品製造裝置製成之多層產品,由於包裹有外皮,因而能夠容易地進行加熱或冷卻等處理。由此,根據本發明,能夠提高多層產品之附加價值、以及使其用途多樣化。 The multi-layer product made by the multi-layer product manufacturing device of the present invention is easy to use or store because the multi-layer object is wrapped by the outer skin, and has good hygienic use and high added value. In addition, according to the present invention, even when a multilayer product is manufactured using a soft material, it is possible to produce a multilayer product that is easy to transport and has excellent transportability without breaking the shape. Furthermore, the multilayer product manufactured by the multilayer product manufacturing apparatus of the present invention can be easily processed by heating or cooling because it is wrapped with an outer skin. Thus, according to the present invention, it is possible to increase the added value of a multilayer product and diversify its use.

在上述本發明之多層產品製造裝置中,前述成形機構可以利用薄膜而形成外皮。 In the multilayer product manufacturing apparatus of the present invention described above, the forming mechanism may form a sheath by using a thin film.

根據本發明之多層產品製造裝置,能夠製造 利用由薄膜形成之外皮包裝多層物之多層產品,從而能夠更進一步提高多層產品之附加價值、以及使其用途多樣化。 According to the multilayer product manufacturing apparatus of the present invention, it is possible to manufacture By using a multilayer product in which an outer wrapper is formed of a thin film, it is possible to further increase the added value of the multilayer product and diversify its use.

上述本發明之多層產品製造裝置中,較佳地,作為構成前述B層之材料而供給黏性與構成前述A層之材料之黏性相同、或者黏性低於前述A層材料之黏性的材料,從而製成多層產品。 In the above-mentioned multilayer product manufacturing apparatus of the present invention, it is preferable that, as a material constituting the layer B, the viscosity is the same as or is lower than that of the material constituting the layer A. Materials to make multilayer products.

根據該構成,能夠製造在先前技術下的包餡產品製造裝置等中無法製造的、位於內層側之A層材料被黏性低於A層材料之B層材料包住之多層產品。 According to this configuration, it is possible to manufacture a multi-layer product in which the layer A material on the inner layer side, which cannot be manufactured in the prior art stuffing product manufacturing device, is surrounded by the layer B material having lower viscosity than the layer A material.

上述本發明之多層產品製造裝置可以構成為:前述吐出機構具備:A層材料供給部,其具備用於供給前述A層材料之A層材料供給裝置;B層材料供給部,其具備用於供給前述B層材料之B層材料供給裝置;以及吐出部,其用於吐出從前述A層材料供給部和前述B層材料供給部供給之前述A層材料和前述B層材料;前述多層產品製造裝置還具備控制部,該控制部用於對前述A層材料和前述B層材料之供給進行控制;前述控制部實施下述控制,即:在藉由前述B層材料供給裝置開始供給B層材料後經過了規定時間的時刻,藉由前述A層材料供給裝置開始供給前述A層材料,並在比藉由前述B層材料供給裝置進行之前述B層材料之供給結束前早規定時間的時刻,使藉由前述A層材料供給裝置進行之前述A層材料之供給結束。 The above-mentioned multilayer product manufacturing apparatus of the present invention may be configured such that the discharge mechanism includes: a layer A material supply section including a layer A material supply device for supplying the layer A material; and a layer B material supply section including a section for supplying A B-layer material supply device for the B-layer material; and a discharge section for discharging the A-layer material and the B-layer material supplied from the A-layer material supply section and the B-layer material supply section; the multilayer product manufacturing device It also includes a control unit for controlling the supply of the A-layer material and the B-layer material; the control unit performs the following control, that is, after the supply of the B-layer material is started by the B-layer material supply device When the predetermined time has elapsed, the supply of the A-layer material is started by the A-layer material supply device, and at a time a predetermined time earlier than the end of the supply of the B-layer material by the B-layer material supply device, The supply of the A-layer material by the A-layer material supply device is completed.

在本發明之多層產品製造裝置中,透過調整A層材料供給裝置和B層材料供給裝置之供給開始和供給結束之時刻,能夠使多層產品之製造品質成為高精度且變穩定。 In the multilayer product manufacturing apparatus of the present invention, by adjusting the timing of the supply start and end of supply of the A-layer material supply device and the B-layer material supply device, the manufacturing quality of the multilayer product can be made highly accurate and stable.

上述本發明之多層產品製造裝置,較佳地構成為:具備對前述A層材料和前述B層材料之供給進行控制之控制部;前述多層產品是透過將內部被吐入了前述多層物之狀態的前述外皮在其規定位置處加以封裝而製成;前述控制部實施下述供給控制,即:在前述多層物在前述外皮內達到前述規定位置之前的時刻,使前述A層材料和前述B層材料之供給結束。 The multi-layer product manufacturing apparatus of the present invention is preferably configured to include a control unit that controls the supply of the A-layer material and the B-layer material; the multi-layer product is in a state where the inner portion is spit into the multi-layer object. The above-mentioned sheath is made by encapsulating it at a prescribed position; the aforementioned control section implements supply control, that is, before the multilayer material reaches the prescribed position in the sheath, the A layer material and the B layer are made The supply of materials is finished.

根據該構成,能夠降低多層物附著在包裹多層物之外皮的,應實施密封之位置處的可能性,從而能夠抑制發生密封不佳之情況。 According to this configuration, the possibility that the multi-layer object adheres to the sheath of the multi-layer object and where sealing should be performed can be reduced, and the occurrence of poor sealing can be suppressed.

上述本發明之多層產品製造裝置,較佳地構成為:前述吐出機構具備:A層材料供給部,其具備用於供給前述A層材料之A層材料供給裝置;B層材料供給部,其具備用於供給前述B層材料之B層材料供給裝置;以及吐出部,其用於吐出從前述A層材料供給部和前述B層材料供給部供給之前述A層材料和前述B層材料;前述A層材料供給裝置和前述B層材料供給裝置具備單軸偏心螺桿泵機構,前述單軸偏心螺桿泵機構具備在動力的驅動下偏心旋轉之陽螺紋型轉子和內周面被形成為陰螺紋型之定子。 The multilayer product manufacturing apparatus of the present invention described above is preferably configured such that the discharge mechanism includes a layer A material supply section including a layer A material supply device for supplying the layer A material and a layer B material supply section having A B-layer material supply device for supplying the B-layer material; and a discharge section for discharging the A-layer material and the B-layer material supplied from the A-layer material supply section and the B-layer material supply section; the A The single-layer eccentric screw pump mechanism includes a single-axis eccentric screw pump mechanism and a male screw-type rotor eccentrically rotated by power and a female screw-type inner peripheral surface. stator.

在本發明之多層產品製造裝置中,A層材料供給裝置和B層材料供給裝置呈具備單軸偏心螺桿泵機構之結構。因此,能夠精度佳地控制A層材料和B層材料之供給狀態,從而能夠在恰當時刻從吐出噴嘴吐出適量的A層材料和B層材料。因此,根據本發明之多層產品製造裝置,能夠更進一步提高多層產品之製造品質。 In the multilayer product manufacturing apparatus of the present invention, the A-layer material supply device and the B-layer material supply device have a structure including a uniaxial eccentric screw pump mechanism. Therefore, the supply state of the A-layer material and the B-layer material can be controlled with high accuracy, so that a proper amount of the A-layer material and the B-layer material can be discharged from the discharge nozzle at an appropriate timing. Therefore, according to the multilayer product manufacturing apparatus of the present invention, the manufacturing quality of the multilayer product can be further improved.

上述本發明之多層產品製造裝置,更為較佳地構成為:具備對前述A層材料和前述B層材料之供給進行控制之控制部,在結束供給前述A層材料和前述B層材料時,使構成前述A層材料供給裝置和前述B層材料供給裝置之單軸偏心螺桿泵機構之轉子朝向與供給時相反之方向旋轉。 The multilayer product manufacturing apparatus of the present invention is more preferably configured to include a control unit that controls the supply of the A-layer material and the B-layer material, and when the supply of the A-layer material and the B-layer material is ended, The rotor of the uniaxial eccentric screw pump mechanism constituting the A-layer material supply device and the B-layer material supply device is rotated in a direction opposite to that at the time of supply.

在本發明之多層產品製造裝置中,由於A層材料供給裝置和B層材料供給裝置具備單軸偏心螺桿泵機構,因此,能夠透過切換轉子之旋轉方向而切換A層材料和B層材料之流動方向。在本發明中,由於在停止供給A層材料和B層材料時,使轉子朝向與供給時相反之方向進行旋轉,因此,能夠確實地使A層材料和B層材料之吐出停止。因此,根據本發明,能夠防止超過預期而過量吐出相當於A層材料和B層材料之具有黏性的材料,從而能夠使多層產品之製造品質成為高精度且變穩定。 In the multilayer product manufacturing apparatus of the present invention, since the A-layer material supply device and the B-layer material supply device are provided with a uniaxial eccentric screw pump mechanism, the flow of the A-layer material and the B-layer material can be switched by switching the rotation direction of the rotor. direction. In the present invention, when the supply of the A-layer material and the B-layer material is stopped, the rotor is rotated in a direction opposite to that at the time of the supply, so that the discharge of the A-layer material and the B-layer material can be stopped reliably. Therefore, according to the present invention, it is possible to prevent an excessive discharge of a material having a viscosity equivalent to that of the A-layer material and the B-layer material than expected, so that the manufacturing quality of the multilayer product can be made with high accuracy and stable.

上述本發明之多層產品製造裝置,也可以構成為具備能夠對利用前述外皮包住前述多層物之多層產品實施加熱處理和冷卻處理中的任意一種或者兩種處理之熱 處理裝置。 The multilayer product manufacturing apparatus of the present invention as described above may be configured to include heat capable of performing either one or both of a heating process and a cooling process on the multilayer product in which the multilayer is covered by the outer skin. Processing device.

根據該構成,能夠對被外皮包住之多層物實施加熱處理或冷卻處理等熱處理,從而能夠提供附加價值更高的多層產品。 According to this configuration, it is possible to perform heat treatment such as heat treatment or cooling treatment on the multilayered object covered by the outer skin, and it is possible to provide a multilayered product with higher added value.

本發明之多層產品製造方法之特徵在於,利用上述本發明之多層產品製造裝置進行製造。 The multilayer product manufacturing method of the present invention is characterized in that the multilayer product manufacturing apparatus of the present invention is used for manufacturing.

根據本發明,能夠製造進一步利用外皮包裝多層物之多層產品。因此,根據本發明,能夠製造附加價值高且能夠在多種用途中使用之多層產品。 According to the present invention, it is possible to manufacture a multi-layered product that further uses a skin to package a multi-layered product. Therefore, according to the present invention, it is possible to manufacture a multi-layered product that has high added value and can be used in various applications.

本發明之多層產品製造方法中,前述吐出機構經過包括下述步驟在內的步驟而實施吐出動作,即:B層材料吐出開始步驟,在該步驟中,開始從前述吐出噴嘴吐出前述B層材料;A層材料吐出開始步驟,在該步驟中,在前述B層材料吐出開始步驟之後經過了規定時間後,開始從前述吐出噴嘴吐出前述A層材料;A層材料吐出停止步驟,其在前述A層材料吐出開始步驟之後實施,在該步驟中,使前述A層材料之吐出停止;以及B層材料吐出停止步驟,其在前述A層材料吐出停止步驟之後實施,在該步驟中,使前述B層材料之吐出停止。 In the multilayer product manufacturing method of the present invention, the discharge mechanism performs a discharge operation through steps including the following steps, that is, a layer B material discharge start step, and in this step, the layer B material starts to be discharged from the discharge nozzle. ; A layer material discharge start step, in this step, after a predetermined time elapses after the B layer material discharge start step, the A layer material starts to be discharged from the discharge nozzle; the A layer material discharge stop step is in the above A The layer B material discharge start step is implemented in which the discharge of the A layer material is stopped; and the B layer material discharge stop step is performed after the A layer material discharge stop step, in which the B The discharge of the layer material stops.

在本發明之多層產品製造方法中,在B層材料吐出開始步驟中開始吐出B層材料之後,藉由A層材料吐出開始步驟開始吐出A層材料。由此,在開始吐出多層物之階段中,能夠抑制要構成內側層之A層材料流出至要構成外側層之B層材料的外側。另外,在本發明之多層 產品製造方法中,在結束吐出多層物之階段中,在A層材料吐出停止步驟中結束吐出要構成內側層之A層材料之後,在B層材料吐出停止步驟中結束吐出要構成外側層之B層材料。因此,根據本發明之多層產品製造方法,即使在結束吐出多層物之階段中,也能夠抑制要構成內側層之A層材料流出至要構成外側層之B層材料的外側。因此,根據本發明之多層產品製造方法,能夠製造高品質之多層產品。 In the multi-layer product manufacturing method of the present invention, after the B-layer material discharge start step is started to be discharged, the A-layer material discharge start step is used to start the A-layer material discharge. Accordingly, at the stage when the multilayer is started to be ejected, it is possible to suppress the outflow of the A-layer material constituting the inner layer to the outside of the B-layer material constituting the outer layer. In addition, in the multilayer of the present invention In the product manufacturing method, in the stage of ending the discharge of the multilayer, the layer A material discharge stop step is finished, and then the layer B material discharge stop step is finished in the B layer material discharge stop step.层 材料。 Layer material. Therefore, according to the multilayer product manufacturing method of the present invention, it is possible to suppress the outflow of the A-layer material constituting the inner layer to the outer side of the B-layer material constituting the outer layer even in the stage where the discharge of the multilayer is completed. Therefore, according to the multilayer product manufacturing method of the present invention, a high-quality multilayer product can be manufactured.

在此,如上所述,在作為A層材料和B層材料而使用高黏度液體材料等具有黏性的材料製造多層產品時,即使停止供給A層材料或B層材料,也有可能因為表面張力等的影響而在吐出噴嘴端部附近殘留有A層材料或B層材料。為了防止A層材料和B層材料發生變質等,較佳即使停止吐出期間是很短時間,在該停止吐出期間也盡可能減小A層材料和B層材料附著在吐出噴嘴端部附近而暴露在外部空氣中的可能性,在A層材料和B層材料為食品等時,尤其要防止暴露在外部空氣中。另外,當以A層材料或B層材料附著在吐出噴嘴端部附近之狀態進行後續之A層材料或B層材料之吐出動作時,則A層材料或B層材料之吐出量相應地增加附著在吐出噴嘴之端部附近的量,從而很有可能導致多層產品之製造品質參差不齊。 Here, as described above, when manufacturing multilayer products using viscous materials such as high-viscosity liquid materials as layer A materials and layer B materials, even if supply of layer A materials or layer B materials is stopped, there may be surface tension, etc. A layer material or a layer B material remains near the end of the discharge nozzle. In order to prevent deterioration of the A-layer material and the B-layer material, it is preferred that the A-layer material and the B-layer material be adhered to the vicinity of the end of the ejection nozzle and exposed as much as possible, even if the ejection stop period is short. Possibility of exposure to outside air, especially when the A-layer material and the B-layer material are food, etc., especially to prevent exposure to the outside air. In addition, when the subsequent discharge operation of the A-layer material or the B-layer material is performed with the A-layer material or the B-layer material attached near the end of the discharge nozzle, the discharge amount of the A-layer material or the B-layer material increases accordingly. The amount near the end of the discharge nozzle is likely to cause uneven manufacturing quality of multilayer products.

進而,本發明之多層產品製造方法中所使用之吐出噴嘴被構成為A層材料吐出筒和B層材料吐出筒 呈大致同心狀地配置,因此,附著在A層材料吐出筒和B層材料吐出筒之端部上的A層材料和B層材料在停止吐出期間有可能發生相互混合等之情況。若A層材料和B層材料發生混合,則不僅外觀不佳,而且很有可能發生特性變質等問題。具體而言,在A層材料和B層材料為食品之情況下,除了因為混合而引起之外觀方面的問題之外,還有可能發生食品衛生方面的問題、或者味道或香氣等發生變化這樣的問題等各種問題,從而大幅損害多層產品之商品價值。為了解決這些問題,較佳在停止吐出A層材料和B層材料時,朝向內側回吸A層材料和B層材料。 Further, the discharge nozzle used in the method for manufacturing a multilayer product of the present invention is configured as a layer A material discharge tube and a layer B material discharge tube Since they are arranged substantially concentrically, the A-layer material and the B-layer material attached to the ends of the A-layer material discharge tube and the B-layer material discharge tube may mix with each other during the stop of the discharge. If the layer A material and the layer B material are mixed, not only the appearance is not good, but also problems such as deterioration of characteristics are likely to occur. Specifically, when the A-layer material and the B-layer material are food, in addition to the appearance problems caused by mixing, there may also be problems with food hygiene, or changes in taste or aroma. Problems, such as problems, which can significantly damage the value of the product in multiple layers. In order to solve these problems, it is preferable to suck back the A-layer material and the B-layer material toward the inside when stopping the discharge of the A-layer material and the B-layer material.

本發明為解決上述問題而提供之多層產品製造方法中,與前述B層材料吐出筒連接之B層材料供給裝置、和與前述A層材料吐出筒連接之A層材料供給裝置分別具備單軸偏心螺桿泵機構,該單軸偏心螺桿泵機構具備在動力的驅動下偏心旋轉之陽螺紋型轉子和內周面被形成為陰螺紋型之定子;當在前述A層材料吐出停止步驟中停止吐出A層材料時,使前述A層材料供給裝置之轉子朝向與吐出前述A層材料時相反之方向進行動作,當在前述B層材料吐出停止步驟中停止吐出B層材料時,使前述B層材料供給裝置之轉子朝向與吐出前述B層材料時相反之方向進行動作。 In the multilayer product manufacturing method provided by the present invention to solve the above problems, the B-layer material supply device connected to the B-layer material discharge tube and the A-layer material supply device connected to the A-layer material discharge tube are provided with uniaxial eccentricity, respectively. A screw pump mechanism having a male screw-type rotor eccentrically rotated by a power drive and a stator formed with a female screw type on an inner peripheral surface thereof; when the A-layer material discharge stopping step is stopped, the A When the layer A material is supplied, the rotor of the A layer material supply device is moved in the direction opposite to that when the A layer material is discharged. When the B layer material is stopped from being discharged in the B layer material discharge stopping step, the B layer material is supplied. The rotor of the device moves in a direction opposite to that when the layer B material is ejected.

根據該構成,在停止供給A層材料和B層材料時,能夠抑制因為表面張力等的影響而在吐出噴嘴端部 附近殘留有A層材料和B層材料。另外,能夠防止因為在吐出噴嘴端部附近殘留有A層材料和B層材料而可能會發生的各種問題。 According to this configuration, when the supply of the A-layer material and the B-layer material is stopped, it is possible to suppress the end portion of the discharge nozzle due to the influence of surface tension and the like. Layer A and B materials remain nearby. In addition, it is possible to prevent various problems that may occur because the A-layer material and the B-layer material remain near the end of the discharge nozzle.

另外,本發明之多層產品之特徵在於,利用上述本發明之多層產品製造裝置進行製造。 In addition, the multilayer product of the present invention is characterized by being manufactured by the multilayer product manufacturing apparatus of the present invention.

本發明之多層產品係利用上述本發明之多層產品製造裝置進行製造而得者,並且係進一步利用外皮包裝多層物而得者。因此,本發明之多層產品之附加價值高於僅為多層物之產品,並且能夠在多種用途中使用。 The multi-layered product of the present invention is obtained by using the above-mentioned multi-layered product manufacturing apparatus of the present invention, and is obtained by further packaging the multi-layered product with an outer skin. Therefore, the added value of the multilayer product of the present invention is higher than that of the multilayer-only product, and it can be used in various applications.

依據本發明,能夠提供可更進一步提高多層產品之附加價值之多層產品製造裝置和多層產品製造方法。 According to the present invention, it is possible to provide a multilayer product manufacturing apparatus and a multilayer product manufacturing method that can further increase the added value of a multilayer product.

10‧‧‧多層產品製造裝置 10‧‧‧Multi-layer product manufacturing device

40‧‧‧吐出部 40‧‧‧ Spit

42‧‧‧吐出噴嘴 42‧‧‧ Spit nozzle

44‧‧‧噴嘴結構 44‧‧‧ Nozzle structure

84‧‧‧密封部 84‧‧‧Sealing Department

90‧‧‧熱處理裝置 90‧‧‧ heat treatment device

100‧‧‧單軸偏心螺桿泵機構 100‧‧‧Single shaft eccentric screw pump mechanism

102‧‧‧轉子 102‧‧‧rotor

104‧‧‧定子 104‧‧‧ Stator

200‧‧‧單軸偏心螺桿泵機構 200‧‧‧Single shaft eccentric screw pump mechanism

202‧‧‧轉子 202‧‧‧rotor

204‧‧‧定子 204‧‧‧ Stator

F‧‧‧薄膜 F‧‧‧ film

P‧‧‧多層產品 P‧‧‧Multilayer products

圖1中的(a)係本發明一實施方式所涉及之多層產品製造裝置之主視圖,(b)係側視圖。 (A) is a front view of the multilayer product manufacturing apparatus which concerns on one Embodiment of this invention, (b) is a side view.

圖2中的(a)係顯示內層材料供給裝置之內部結構之剖面圖,(b)係顯示外層材料供給裝置所具備之單軸偏心螺桿泵機構之剖面圖。 (A) is a sectional view which shows the internal structure of an inner-layer material supply device, (b) is a cross-sectional view which shows the uniaxial eccentric screw pump mechanism provided in an outer-layer material supply device.

圖3係將圖1中的(a)所示之多層產品製造裝置的、成形機構部、薄膜進給機構以及密封機構部之設置部分放大後的放大圖。 FIG. 3 is an enlarged view of the multi-layer product manufacturing apparatus shown in (a) in FIG. 1, in which the forming mechanism portion, the film feeding mechanism, and the sealing mechanism portion are enlarged.

圖4中的(a)係顯示圖1所示之多層產品製造裝置所具備之吐出部之主視圖,(b)係顯示從開口側觀察吐出噴嘴時的狀態之底視圖,(c)係顯示多層產品之剖面結構之立體圖。 (A) in FIG. 4 is a front view showing a discharge portion provided in the multilayer product manufacturing apparatus shown in FIG. 1, (b) is a bottom view showing a state when the discharge nozzle is viewed from the opening side, and (c) is a display A perspective view of the cross-sectional structure of a multilayer product.

圖5係顯示圖1所示之多層產品製造裝置之動作之流程圖。 FIG. 5 is a flowchart showing the operation of the multilayer product manufacturing apparatus shown in FIG. 1. FIG.

圖6係顯示圖1所示之多層產品製造裝置之動作之時間圖。 FIG. 6 is a timing chart showing the operation of the multilayer product manufacturing apparatus shown in FIG. 1. FIG.

圖7中的(a)係顯示變形例所涉及之多層產品之剖面結構之立體圖,(b)係顯示吐出噴嘴之變形例之底視圖。 (A) is a perspective view which shows the cross-sectional structure of the multilayer product which concerns on a modification, (b) is a bottom view which shows the modification of a discharge nozzle.

圖8中的(a)至(d)分別係按順序顯示變形例所涉及之多層產品之製造方法之示意圖。 (A) to (d) in FIG. 8 are schematic diagrams showing the manufacturing method of the multilayer product according to the modification in order, respectively.

圖9中的(a)至(e)分別係按順序顯示變形例所涉及之多層產品之製造方法之示意圖。 (A) to (e) in FIG. 9 are schematic diagrams showing a method for manufacturing a multilayer product according to a modified example in order.

以下,參照附圖對本發明一實施方式所涉及之多層產品製造裝置10詳細地進行說明。多層產品製造裝置10具有如圖1所示之外觀形狀,且是用於製造呈圖4中的(c)所示結構之多層產品P之裝置。多層產品P是利用構成外層P2(B層)之材料(以下也稱為“外層材料”)包住構成中心層P1(A層)之材料(以下也稱為“內層材料”)而構成。多層產品製造裝置10可以使用 具有黏性的材料(材料)作為內層材料和外層材料來製造多層產品P。 Hereinafter, a multilayer product manufacturing apparatus 10 according to an embodiment of the present invention will be described in detail with reference to the drawings. The multilayer product manufacturing apparatus 10 has an appearance shape as shown in FIG. 1 and is an apparatus for manufacturing a multilayer product P having a structure shown in (c) of FIG. 4. The multilayer product P is formed by enclosing a material (hereinafter also referred to as an "inner layer material") constituting the center layer P1 (layer A) with a material (hereinafter also referred to as "outer layer material") constituting the outer layer P2 (layer B). Multi-layer product manufacturing apparatus 10 can be used A viscous material (material) is used as an inner layer material and an outer layer material to manufacture a multilayer product P.

如圖1所示,多層產品製造裝置10具備吐出機構部10a、成形機構部10b、薄膜進給機構10c、密封機構部10d以及控制部10e。多層產品製造裝置10能夠利用外皮S包住藉由吐出機構部10a吐出之多層物,並利用密封機構部10d將外皮S兩端部加以密封而進行包裝,從而製成多層產品P,該外皮S係由藉由成形機構部10b成形為筒狀之薄膜F形成。 As shown in FIG. 1, the multilayer product manufacturing apparatus 10 includes a discharge mechanism section 10 a, a forming mechanism section 10 b, a film feeding mechanism 10 c, a sealing mechanism section 10 d, and a control section 10 e. The multi-layered product manufacturing apparatus 10 can cover the multilayered object discharged by the discharge mechanism portion 10 a with the outer skin S, and seal and seal both ends of the outer skin S with the sealing mechanism portion 10 d to package the multi-layer product P. The outer skin S It is formed by the thin film F formed into a cylindrical shape by the forming mechanism portion 10b.

以下,對於構成多層產品製造裝置10之各部分之結構進行說明,然後對於多層產品製造裝置10之動作進行說明。 Hereinafter, the structure of each part which comprises the multilayer product manufacturing apparatus 10 is demonstrated, and the operation | movement of the multilayer product manufacturing apparatus 10 is demonstrated.

《關於吐出機構部10a》 "About the discharge mechanism part 10a"

吐出機構部10a之構成包括內層材料供給部20、外層材料供給部30以及吐出部40。內層材料供給部20用於向吐出部40供給構成多層產品P之內層材料。內層材料供給部20具備能夠供給內層材料之內層材料供給裝置22、內層材料儲存槽24以及攪拌裝置26。 The structure of the discharge mechanism section 10 a includes an inner layer material supply section 20, an outer layer material supply section 30, and a discharge section 40. The inner layer material supply section 20 is used to supply the inner layer material constituting the multilayer product P to the discharge section 40. The inner layer material supply unit 20 includes an inner layer material supply device 22 capable of supplying inner layer materials, an inner layer material storage tank 24, and a stirring device 26.

內層材料供給裝置22係由旋轉容積式泵構成。如圖2中的(a)所示,內層材料供給裝置22係具備單軸偏心螺桿泵機構100之所謂的單軸偏心螺桿泵。內層材料供給裝置22被構成為:在泵殼106內部收容有轉子102、定子104以及動力傳遞機構108等。泵殼106係由 金屬製成之筒狀構件,在其長度方向之一端側設有第一開口部110。另外,在泵殼106之外周部分上設有第二開口部112。第二開口部112在位於泵殼106之長度方向中間部分之中間部114處與泵殼106之內部空間連通。 The inner layer material supply device 22 is constituted by a rotary positive displacement pump. As shown in (a) of FIG. 2, the inner layer material supply device 22 is a so-called uniaxial eccentric screw pump provided with a uniaxial eccentric screw pump mechanism 100. The inner layer material supply device 22 is configured such that a rotor 102, a stator 104, a power transmission mechanism 108, and the like are housed inside the pump casing 106. Pump housing 106 The cylindrical member made of metal is provided with a first opening portion 110 on one end side in the longitudinal direction. In addition, a second opening portion 112 is provided on the outer peripheral portion of the pump casing 106. The second opening portion 112 communicates with the internal space of the pump casing 106 at an intermediate portion 114 located at a middle portion in the longitudinal direction of the pump casing 106.

第一開口部110和第二開口部112分別係作為單軸偏心螺桿泵機構100之吸入口或吐出口發揮作用之部分。在內層材料供給裝置22中,透過使轉子102正向旋轉,能夠使第一開口部110作為吐出口、第二開口部112作為吸入口而發揮作用。另外,透過使轉子102反向旋轉,能夠使第一開口部110作為吸入口、第二開口部112作為吐出口而發揮作用。 The first opening portion 110 and the second opening portion 112 are portions that function as suction inlets or discharge outlets of the uniaxial eccentric screw pump mechanism 100, respectively. In the inner layer material supply device 22, by rotating the rotor 102 in the forward direction, the first opening portion 110 can function as a discharge port and the second opening portion 112 can function as a suction port. In addition, by rotating the rotor 102 in the reverse direction, the first opening portion 110 can function as a suction port and the second opening portion 112 can function as a discharge port.

定子104係由橡膠等彈性體或者樹脂等形成且具有大致圓筒形之外觀形狀之構件。定子104之內周壁116被形成為具有n條單級或者多級陰螺紋之形狀。在本實施方式中,定子104被形成為具有兩條多級陰螺紋之形狀。另外,定子104之貫通孔118被形成為:在定子104之長度方向上的任意位置處剖視時其剖面形狀(開口形狀)都呈大致長圓形。 The stator 104 is a member formed of an elastomer such as rubber or a resin and having a substantially cylindrical appearance. The inner peripheral wall 116 of the stator 104 is formed in a shape having n single-stage or multi-stage female threads. In the present embodiment, the stator 104 is formed in a shape having two multi-stage female threads. In addition, the through hole 118 of the stator 104 is formed so that the cross-sectional shape (opening shape) of the stator 104 has a substantially oval shape when viewed at any position in the longitudinal direction of the stator 104.

轉子102係由金屬製成之軸體,並被形成為具有n-1條單級或者多級陽螺紋之形狀。在本實施方式中,轉子102被形成為具有一條偏心的陽螺紋之形狀。轉子102被形成為在其長度方向上的任意位置處剖視時其剖面形狀都呈大致正圓形。轉子102插通在形成於上述定子104上的貫通孔118內,並能夠在貫通孔118內部自如地 偏心旋轉。 The rotor 102 is a shaft body made of metal and is formed into a shape having n-1 single-stage or multi-stage male threads. In the present embodiment, the rotor 102 is formed in a shape having an eccentric male screw. The rotor 102 is formed to have a substantially perfect circular cross-sectional shape when viewed at an arbitrary position in the longitudinal direction. The rotor 102 is inserted into the through-hole 118 formed in the stator 104, and can be freely inside the through-hole 118. Eccentric rotation.

當使轉子102插通在定子104內時,成為轉子102之外周壁120與定子104之內周壁116以雙方之接線緊密接觸之狀態,在定子104之內周壁116與轉子102之外周壁120之間形成流體輸送路122(內腔)。流體輸送路122沿著定子104或者轉子102之長度方向呈螺旋狀地延伸。 When the rotor 102 is inserted into the stator 104, the outer peripheral wall 120 of the rotor 102 and the inner peripheral wall 116 of the stator 104 are in close contact with each other, and the inner peripheral wall 116 of the stator 104 and the outer peripheral wall 120 of the rotor 102 are in close contact. A fluid transport path 122 (inner cavity) is formed therebetween. The fluid transfer path 122 extends spirally along the length direction of the stator 104 or the rotor 102.

當使轉子102在定子104之貫通孔118內旋轉時,流體輸送路122一邊在定子104內旋轉一邊沿著定子104之長度方向前進。因此,當使轉子102旋轉時,能夠從定子104一端側將流體吸入流體輸送路122內,並且,能夠將該流體以密封在流體輸送路122內之狀態朝向定子104另一端側輸送,並在定子104另一端側吐出。本實施方式之單軸偏心螺桿泵機構100係以使轉子102正向旋轉之狀態使用,從而能夠供給從第二開口部112吸入之流體並將其從第一開口部110吐出。 When the rotor 102 is rotated in the through hole 118 of the stator 104, the fluid conveyance path 122 advances along the longitudinal direction of the stator 104 while rotating in the stator 104. Therefore, when the rotor 102 is rotated, fluid can be sucked into the fluid transport path 122 from one end side of the stator 104, and the fluid can be transported toward the other end side of the stator 104 while being sealed in the fluid transport path 122. The other end of the stator 104 is spouted. The uniaxial eccentric screw pump mechanism 100 according to this embodiment is used in a state where the rotor 102 is rotated in the forward direction, so that the fluid sucked in from the second opening portion 112 can be supplied and discharged from the first opening portion 110.

動力傳遞機構108係用於從驅動機124向上述轉子102傳遞動力之機構。動力傳遞機構108包括動力傳遞部126和偏心旋轉部128。動力傳遞部126設置在泵殼106之長度方向一端側。另外,偏心旋轉部128設置在中間部114中。偏心旋轉部128係將動力傳遞部126與轉子102以能夠傳遞動力之方式加以連接之部分。偏心旋轉部128具備由現有周知之連接桿或螺桿等構成之連接軸148。因此,偏心旋轉部128能夠將使驅動機124進行動 作而產生之旋轉動力傳遞給轉子102,從而使轉子102進行偏心旋轉。 The power transmission mechanism 108 is a mechanism for transmitting power from the driving machine 124 to the rotor 102. The power transmission mechanism 108 includes a power transmission portion 126 and an eccentric rotation portion 128. The power transmission portion 126 is provided on one end side in the longitudinal direction of the pump casing 106. In addition, an eccentric rotation portion 128 is provided in the intermediate portion 114. The eccentric rotation portion 128 is a portion that connects the power transmission portion 126 and the rotor 102 in a manner capable of transmitting power. The eccentric rotation portion 128 includes a connection shaft 148 configured by a conventionally known connection rod, screw, or the like. Therefore, the eccentric rotation section 128 can move the driving machine 124. The rotational power generated by the operation is transmitted to the rotor 102, so that the rotor 102 rotates eccentrically.

如圖1中的(a)所示,上述內層材料供給裝置22大致水平地設置。用於吐出內層材料之第一開口部110經由管道與之後詳述之吐出部40連接。另外,第二開口部112與設置於上方之內層材料儲存槽24連接。內層材料儲存槽24係儲存內層材料之漏斗狀容器(料斗),其可以從設置於下部之排出口24a向第二開口部112供給其內部儲存之內層材料。另外,攪拌裝置26之攪拌葉片從上方插入內層材料儲存槽24中。因此,透過使攪拌裝置26進行動作,能夠防止內層材料儲存槽24內所儲存之內層材料發生沉澱等,從而能夠使整個槽內的組成大致均勻。 As shown in FIG. 1 (a), the above-mentioned inner layer material supply device 22 is provided substantially horizontally. The first opening portion 110 for discharging the inner layer material is connected to a discharge portion 40 described later through a pipe. In addition, the second opening portion 112 is connected to the inner-layer material storage tank 24 provided above. The inner-layer material storage tank 24 is a funnel-shaped container (hopper) for storing the inner-layer material, and can supply the inner-layer material stored therein from the discharge port 24a provided in the lower portion. In addition, the stirring blade of the stirring device 26 is inserted into the inner material storage tank 24 from above. Therefore, by operating the stirring device 26, it is possible to prevent precipitation and the like of the inner layer material stored in the inner layer material storage tank 24, and to make the composition in the entire tank substantially uniform.

外層材料供給部30用於向吐出部40供給構成多層產品之外層材料。如圖1中的(a)、(b)所示,外層材料供給部30具備能夠供給外層材料之外層材料供給裝置32和外層材料儲存槽34。外層材料供給裝置32係由旋轉容積式泵構成。外層材料供給裝置32具備具有單軸偏心螺桿泵機構200之泵機構部35、驅動部36以及連接部38。 The outer layer material supply portion 30 is used to supply the outer layer material constituting the multilayer product to the discharge portion 40. As shown in (a) and (b) of FIG. 1, the outer layer material supply unit 30 includes an outer layer material supply device 32 and an outer layer material storage tank 34 capable of supplying the outer layer material. The outer layer material supply device 32 is constituted by a rotary positive displacement pump. The outer layer material supply device 32 includes a pump mechanism section 35 having a uniaxial eccentric screw pump mechanism 200, a drive section 36, and a connection section 38.

如圖2中的(b)所示,泵機構部35被構成為在泵殼201內部收容有轉子202和定子204。單軸偏心螺桿泵機構200以及構成該單軸偏心螺桿泵機構200之轉子202和定子204之主要結構與上述內層材料供給裝置 22之單軸偏心螺桿泵機構100、轉子102以及定子104相同。 As shown in FIG. 2 (b), the pump mechanism section 35 is configured such that the rotor 202 and the stator 204 are housed inside the pump housing 201. The main structure of the uniaxial eccentric screw pump mechanism 200, the rotor 202 and the stator 204 constituting the uniaxial eccentric screw pump mechanism 200, and the above-mentioned inner layer material supply device The 22-axis uniaxial eccentric screw pump mechanism 100, the rotor 102, and the stator 104 are the same.

即,單軸偏心螺桿泵機構200透過將轉子202插通在定子204內而形成。轉子202係由金屬制軸體構成,並且呈具有n-1條(本實施方式中為一條)單級或者多級陽螺紋之形狀。另外,定子204係由彈性體或者樹脂等形成之筒體,其內部被形成為具有n條(本實施方式中為兩條)單級或者多級陰螺紋之形狀。轉子202插通在形成於定子204上的貫通孔206中,並能夠在貫通孔206內部自如地偏心旋轉。 That is, the uniaxial eccentric screw pump mechanism 200 is formed by inserting the rotor 202 into the stator 204. The rotor 202 is composed of a metal shaft body and has a shape having n-1 (one in this embodiment) single-stage or multi-stage male threads. In addition, the stator 204 is a cylindrical body formed of an elastomer or a resin, and the inside thereof is formed into a shape having n (two in this embodiment) single-stage or multi-stage female threads. The rotor 202 is inserted into a through hole 206 formed in the stator 204 and is capable of freely eccentrically rotating inside the through hole 206.

另外,透過將轉子202插通在定子204中,從而形成螺旋狀流體輸送路208(內腔)。在單軸偏心螺桿泵機構200中,透過使轉子202在定子204內部旋轉,能夠使流體輸送路208沿定子204之長度方向前進。 In addition, the rotor 202 is inserted into the stator 204 to form a spiral fluid transfer path 208 (inner cavity). In the uniaxial eccentric screw pump mechanism 200, by rotating the rotor 202 inside the stator 204, the fluid conveyance path 208 can be advanced in the longitudinal direction of the stator 204.

另外,轉子202經由連接部210與連接桿212連接,該連接部210係由現有周知之連接桿或螺桿等構成。另外,如圖1所示,連接桿212與驅動部36之驅動軸連接。因此,透過使驅動部36進行動作,能夠使轉子202偏心旋轉。另外,在連接桿212中間部分處安裝有攪拌葉片216。 In addition, the rotor 202 is connected to a connecting rod 212 via a connecting portion 210 that is configured by a conventionally known connecting rod, screw, or the like. As shown in FIG. 1, the connecting rod 212 is connected to a driving shaft of the driving portion 36. Therefore, the rotor 202 can be eccentrically rotated by operating the driving unit 36. In addition, a stirring blade 216 is installed at a middle portion of the connecting rod 212.

上述泵機構部35配置在外層材料儲存槽34正下方。外層材料儲存槽34係儲存外層材料之漏斗狀容器(料斗),設置於其下部之排出口34a與泵機構部35連接。由此,能夠將儲存在外層材料儲存槽34中的外層 材料逐步供給到泵機構部35中。連接桿212被設置為沿上下方向貫穿外層材料儲存槽34,安裝在連接桿212中間部分之攪拌葉片216位於外層材料儲存槽34內部。因此,當驅動部36進行動作以使轉子202旋轉時,攪拌葉片216在外層材料儲存槽34內旋轉,從而能夠防止所儲存之外層材料發生沉澱等。 The pump mechanism section 35 is disposed directly below the outer layer material storage tank 34. The outer layer material storage tank 34 is a funnel-shaped container (hopper) for storing outer layer materials, and a discharge port 34 a provided at a lower portion thereof is connected to the pump mechanism portion 35. Accordingly, the outer layer stored in the outer layer material storage tank 34 can be stored. The material is gradually supplied to the pump mechanism section 35. The connecting rod 212 is arranged to penetrate the outer material storage tank 34 in the up-down direction, and the stirring blade 216 installed in the middle portion of the connecting rod 212 is located inside the outer material storage tank 34. Therefore, when the driving part 36 is operated to rotate the rotor 202, the stirring blade 216 is rotated in the outer-layer material storage tank 34, so that precipitation or the like of the stored outer-layer material can be prevented.

上述內層材料供給部20和外層材料供給部30與吐出部40連接。吐出部40用於將從內層材料供給部20和外層材料供給部30供給之內層材料和外層材料吐出,從而形成多層產品。如圖1或圖3所示,吐出部40設有如圖4所示之吐出噴嘴42。另外,在本實施方式中,將吐出部40配置在與內層材料供給裝置22和外層材料供給裝置32相鄰之位置處,但是,也可以構成為:將內層材料供給裝置22和外層材料供給裝置32與吐出部40配置在相互分離之位置處,並藉由管子或管道等將兩者之間加以連接。 The inner layer material supply section 20 and the outer layer material supply section 30 are connected to the discharge section 40. The discharge portion 40 is configured to discharge the inner layer material and the outer layer material supplied from the inner layer material supply portion 20 and the outer layer material supply portion 30 to form a multilayer product. As shown in FIG. 1 or FIG. 3, the discharge unit 40 is provided with a discharge nozzle 42 as shown in FIG. 4. In addition, in this embodiment, the discharge portion 40 is disposed adjacent to the inner layer material supplying device 22 and the outer layer material supplying device 32. However, it may be configured such that the inner layer material supplying device 22 and the outer layer material The supply device 32 and the discharge unit 40 are disposed at positions separated from each other, and are connected to each other by a pipe, a pipe, or the like.

如圖4中的(b)所示,吐出噴嘴42被構成為下述之雙層管結構,即:用於吐出內層材料之內層材料吐出筒52呈大致同心狀地配置在用於吐出外層材料之外層材料吐出筒54內側。即,吐出噴嘴42具有下述之噴嘴結構44,即:形成於內層材料吐出筒52內側之第一吐出區域42a,被形成於內層材料吐出筒52之外周面與外層材料吐出筒54之內周面之間的第二吐出區域42b包圍。因此,透過從內層材料吐出筒52和外層材料吐出筒54吐 出內層材料和外層材料,能夠形成內層材料之外周被外層材料包圍之多層物。 As shown in FIG. 4 (b), the discharge nozzle 42 is configured as a double-layered tube structure in which the inner layer material discharge tube 52 for discharging the inner layer material is disposed substantially concentrically for discharge The outer layer material is ejected from the inside of the tube 54. That is, the ejection nozzle 42 has a nozzle structure 44 in which a first ejection region 42 a formed inside the inner layer material ejection tube 52 is formed on the outer peripheral surface of the inner layer material ejection tube 52 and between the outer layer material ejection tube 54. The second discharge region 42b between the inner peripheral surfaces is surrounded. Therefore, it is ejected through the inner material discharge tube 52 and the outer material discharge tube 54 The inner layer material and the outer layer material are formed, and a multi-layer object can be formed in which the outer periphery of the inner layer material is surrounded by the outer layer material.

《關於成形機構部10b》 "About the forming mechanism section 10b"

如圖1或圖3所示,成形機構部10b係具備用於將帶狀的薄膜F成形為筒狀從而形成外皮S之動作機構之部分。具體而言,成形機構部10b具備成形構件60、薄膜F的供給源62、導輥64a、64b以及熔接裝置66。成形構件60係用於將帶狀的薄膜F彎曲成圓筒狀之構件,該帶狀的薄膜F係從設置於供給源62中的原始材料62a取出。薄膜F在導輥64a、64b之引導下被成形構件60成形為圓筒狀。 As shown in FIG. 1 or FIG. 3, the forming mechanism portion 10 b is a portion provided with an operating mechanism for forming the band-shaped film F into a cylindrical shape to form the outer skin S. Specifically, the forming mechanism portion 10 b includes a forming member 60, a supply source 62 of the film F, guide rollers 64 a and 64 b, and a welding device 66. The molding member 60 is a member for bending a belt-shaped film F into a cylindrical shape, and the belt-shaped film F is taken out from a raw material 62 a provided in a supply source 62. The film F is formed into a cylindrical shape by the forming member 60 under the guidance of the guide rollers 64a and 64b.

熔接裝置66係用於將被成形構件60成形為彎曲形狀之薄膜F之端部彼此熔接之裝置,其可以由例如一對高頻電極等構成。透過利用熔接裝置66將薄膜F之端部彼此熔接,從而將帶狀的薄膜F形成為中空的圓筒狀。由此,能夠收容從吐出機構部10a之吐出噴嘴42吐出之多層物。 The welding device 66 is a device for welding the ends of the thin film F formed into a curved shape by the member 60 to be formed, and may be composed of, for example, a pair of high-frequency electrodes. The ends of the film F are welded to each other by the welding device 66 to form the band-shaped film F into a hollow cylindrical shape. Thereby, the multilayered object discharged from the discharge nozzle 42 of the discharge mechanism part 10a can be accommodated.

《關於薄膜進給機構10c》 "About the film feed mechanism 10c"

薄膜進給機構10c係用於從上述成形機構部10b向密封機構部10d輸送薄膜F(外皮S)之機構。薄膜進給機構10c可以是適當的機構,例如可以是具備薄膜進給輥70、70,並利用旋轉力來輸送配置在薄膜進給輥70、70 之間的薄膜F之機構。 The film feeding mechanism 10c is a mechanism for conveying a film F (skin S) from the forming mechanism portion 10b to the sealing mechanism portion 10d. The film feed mechanism 10c may be an appropriate mechanism, for example, it may be provided with the film feed rollers 70 and 70 and conveyed and arranged on the film feed rollers 70 and 70 by a rotational force. The mechanism between the thin films F.

《關於密封機構部10d》 "About the seal mechanism department 10d"

密封機構部10d係為了對薄膜F進行密封而設置之機構。具體而言,如圖1和圖3所示,密封機構部10d具備內置有加熱器的一對密封輥80、80(參照圖1中的(b))。如圖3中的箭頭所示,密封輥80、80能夠朝向相互靠近或分離之方向移動。密封輥80、80透過從外側將配置於兩者之間的薄膜F夾住並進行熔接而形成密封部84,從而能夠對薄膜F進行封裝。 The sealing mechanism portion 10d is a mechanism provided to seal the film F. Specifically, as shown in FIGS. 1 and 3, the sealing mechanism portion 10 d includes a pair of sealing rollers 80 and 80 with a heater built therein (see (b) in FIG. 1). As shown by an arrow in FIG. 3, the sealing rollers 80 and 80 can move in a direction approaching or separating from each other. The sealing rollers 80 and 80 can seal the film F by sandwiching and fusing the film F disposed between the sealing rollers 80 from the outside.

《關於控制部10e》 "About the control department 10e"

控制部10e係執行上述吐出機構部10a、成形機構部10b、薄膜進給機構10c以及密封機構部10d之動作控制之部分。即,控制部10e對於構成吐出機構部10a之內層材料供給裝置22和外層材料供給裝置32之動作進行控制,從而對於內層材料和外層材料之供給進行控制。另外,透過在對吐出機構部10a進行控制之基礎上,根據多層物之吐出狀況對於成形機構部10b、薄膜進給機構10c或者密封機構部10d之動作加以控制,利用由薄膜F形成之外皮S將多層物加以包裝,從而製成多層產品P。 The control portion 10e is a portion that performs the operation control of the above-mentioned ejection mechanism portion 10a, forming mechanism portion 10b, film feeding mechanism 10c, and sealing mechanism portion 10d. That is, the control unit 10e controls the operations of the inner layer material supply device 22 and the outer layer material supply device 32 constituting the discharge mechanism portion 10a, and controls the supply of the inner layer material and the outer layer material. In addition, by controlling the ejection mechanism portion 10a, the operations of the forming mechanism portion 10b, the film feeding mechanism 10c, or the sealing mechanism portion 10d are controlled according to the discharge condition of the multilayer object, and the sheath S is formed by the film F. The multilayer is packaged to make a multilayer product P.

《關於多層產品P之製造方法》 "About the manufacturing method of multilayer product P"

以下,參照圖5所示之流程圖和圖6所示之時間圖, 對於在控制部10e的動作控制下執行的多層產品P之製造方法詳細地進行說明。 Hereinafter, referring to the flowchart shown in FIG. 5 and the time chart shown in FIG. 6, The manufacturing method of the multilayer product P which is executed under the operation control of the control unit 10e will be described in detail.

(步驟1) (step 1)

在步驟1中,確認多層產品製造裝置10之運轉訊號是否呈開啟(ON)狀態。當確認到運轉訊號呈開啟狀態時,控制流程進入步驟2。 In step 1, it is confirmed whether the operation signal of the multilayer product manufacturing apparatus 10 is ON. When it is confirmed that the operation signal is on, the control flow proceeds to step 2.

(步驟2) (Step 2)

在步驟2中,在控制部10e的控制下開始進行利用薄膜F形成外皮S之動作。然後,控制流程進入步驟3。 In step 2, the operation of forming the sheath S by the thin film F is started under the control of the control unit 10e. Then, the control flow goes to step 3.

(步驟3) (Step 3)

在步驟3中,開始利用外層材料供給裝置32供給外層材料(參照圖6)。由此,在設置於吐出部40中的吐出噴嘴42中,從形成於內層材料吐出筒52與外層材料吐出筒54之間的間隙朝向下方吐出外層材料(外層材料吐出開始步驟)。 In step 3, supply of the outer layer material by the outer layer material supply device 32 is started (see FIG. 6). Accordingly, the discharge nozzle 42 provided in the discharge unit 40 discharges the outer layer material downward from the gap formed between the inner layer material discharge tube 52 and the outer layer material discharge tube 54 (the outer layer material discharge start step).

(步驟4) (Step 4)

在步驟4中,確認在步驟3中開始吐出外層材料後是否已經過了規定時間t3(參照圖6)。在此,規定時間t3係根據外層材料和內層材料之黏性、吐出速度、吐出噴嘴42之形狀、構成多層產品之外層材料之厚度等各種條件 進行設定,也可以根據條件同時開始吐出外層材料和內層材料而不設置規定時間t3(t3=0)。當在步驟4中確認到已經過了規定時間t3時,控制流程進入步驟5(內層材料吐出開始步驟)。 In step 4, it is confirmed whether or not a predetermined time t3 has elapsed since the outer layer material started to be discharged in step 3 (see FIG. 6). Here, the predetermined time t3 is based on various conditions such as the viscosity of the outer layer material and the inner layer material, the discharge speed, the shape of the discharge nozzle 42 and the thickness of the outer layer material constituting the multilayer product. According to the conditions, the outer layer material and the inner layer material can be simultaneously ejected without setting a predetermined time t3 (t3 = 0). When it is confirmed in step 4 that the predetermined time t3 has elapsed, the control flow proceeds to step 5 (inner layer material ejection start step).

(步驟5) (Step 5)

在步驟5中,在繼續進行上述步驟3中開始之外層材料之吐出的同時,開始進行從吐出噴嘴42之內層材料吐出筒52朝向下方吐出內層材料之動作。即,從在步驟3中開始吐出外層材料後經過了規定時間t3的時刻起,在吐出外層材料的同時也開始吐出內層材料。 In step 5, while continuing to start the discharge of the outer layer material in the above step 3, the operation of discharging the inner layer material from the inner layer material discharge tube 52 of the discharge nozzle 42 to the lower side is started. That is, from the time when the predetermined time t3 has elapsed after the outer layer material started to be ejected in step 3, the outer layer material is also ejected simultaneously with the inner layer material.

(步驟6) (Step 6)

在步驟6中,確認在步驟5中開始吐出內層材料後是否已經過了規定時間t4(參照圖6)。規定時間t4係根據所製造多層物之尺寸(長度)而適當地進行調整。當在步驟6中確認到已經過了規定時間t4時,控制流程進入步驟7中。 In step 6, it is confirmed whether or not a predetermined time t4 has elapsed since the inner layer material started to be discharged in step 5 (see FIG. 6). The predetermined time t4 is appropriately adjusted in accordance with the size (length) of the manufactured multilayer. When it is confirmed in step 6 that the predetermined time t4 has elapsed, the control flow proceeds to step 7.

(步驟7) (Step 7)

在步驟7中,在規定時間t5內將內層材料供給裝置22之轉子102之旋轉方向切換為與吐出內層材料時相反之方向。即,如圖6所示,作為轉子102的控制用訊號而輸出與在步驟6中確認已經過了規定時間t4之前反相之 控制訊號。由此,內層材料供給裝置22進行將截至步驟6為止的期間內朝向吐出噴嘴42供給之內層材料吸回之動作。當開始進行內層材料之回吸動作後經過了規定時間t5時,控制流程進入步驟8。 In step 7, the rotation direction of the rotor 102 of the inner-layer material supply device 22 is switched to a direction opposite to that when the inner-layer material is ejected within a predetermined time t5. That is, as shown in FIG. 6, the output as a control signal for the rotor 102 is inverted from that before it is confirmed that the predetermined time t4 has passed in step 6. Control signal. Thereby, the inner-layer material supply device 22 performs an operation of sucking back the inner-layer material supplied to the discharge nozzle 42 during the period up to step 6. When the prescribed time t5 has elapsed after the suction of the inner layer material is started, the control flow proceeds to step 8.

(步驟8) (Step 8)

在步驟8中,使朝向內層材料之回吸方向動作之轉子102停止旋轉(步驟7~8:內層材料吐出停止步驟)。然後,控制流程進入步驟9。 In step 8, the rotation of the rotor 102 which moves toward the suction direction of the inner layer material is stopped (steps 7 to 8: step of stopping the discharge of the inner layer material). Then, the control flow goes to step 9.

(步驟9) (Step 9)

在步驟9中,確認開始吐出外層材料後是否已經過了規定時間t1(參照圖6)。在此,雖然內層材料之吐出在上述步驟8為止已經結束,但外層材料之吐出尚未結束而是繼續進行。然後,當確認到開始吐出外層材料後已經過了規定時間t1時,控制流程進入步驟10。 In step 9, it is confirmed whether or not a predetermined time t1 has elapsed after starting the discharge of the outer layer material (see FIG. 6). Here, although the ejection of the inner layer material has been completed up to step 8 described above, the ejection of the outer layer material has not yet ended but continues. Then, when it is confirmed that the predetermined time t1 has elapsed after the outer layer material is started to be discharged, the control flow proceeds to step 10.

(步驟10) (Step 10)

在步驟10中,在規定時間t2內將設置於外層材料供給裝置32中的轉子202之旋轉方向切換為與吐出外層材料時相反之方向。即,外層材料供給裝置32進行將截至上一步驟為止的期間內朝向吐出噴嘴42供給之外層材料吸回之動作。如圖6所示,外層材料之回吸所需之規定時間t2遠少於規定時間t1。當外層材料之回吸動作開始後 經過了規定時間t2時,控制流程進入步驟11。 In step 10, the rotation direction of the rotor 202 provided in the outer layer material supply device 32 is switched to a direction opposite to that when the outer layer material is ejected within a predetermined time t2. That is, the outer-layer material supply device 32 performs an operation of sucking back the outer-layer material to the discharge nozzle 42 during the period up to the previous step. As shown in FIG. 6, the prescribed time t2 required for the reabsorption of the outer layer material is much shorter than the prescribed time t1. When the back suction of the outer material starts When the predetermined time t2 has elapsed, the control flow proceeds to step 11.

(步驟11) (Step 11)

在步驟11中,透過將外層材料供給裝置32之轉子202切換為旋轉停止狀態,從而停止供給外層材料(步驟10~11:外層材料吐出停止步驟)。由此,從步驟3至步驟11為止所實施之多層物的一系列吐出動作結束。然後,控制流程進入步驟12。 In step 11, the supply of the outer layer material is stopped by switching the rotor 202 of the outer layer material supply device 32 to the rotation stop state (steps 10 to 11: the outer layer material discharge stop step). As a result, a series of ejection operations of the multilayer object performed from step 3 to step 11 is completed. Then, the control flow goes to step 12.

(步驟12) (Step 12)

在步驟12中,使薄膜進給機構10c進行動作,從而進行朝向下游側輸送形成密封部84所需長度之薄膜F(外皮S)之處理。即,若在密封部84之形成部分中存在多層物,則無法順利地形成密封部84,從而有可能導致密封不佳。因此,在停止吐出多層物之狀態下進行朝向下游側輸送形成密封部84所需長度之薄膜F之動作。由此,圖5之流程圖和圖6之時間圖中所示之一系列動作結束。 In step 12, the film feed mechanism 10c is operated to carry the processing of transporting the film F (skin S) of the length required to form the seal portion 84 toward the downstream side. That is, if there is a multilayered object in the formation portion of the seal portion 84, the seal portion 84 cannot be formed smoothly, which may result in poor sealing. Therefore, the operation of conveying the film F of the length required to form the seal portion 84 toward the downstream side while stopping the discharge of the multilayered object is performed. As a result, a series of operations shown in the flowchart of FIG. 5 and the time chart of FIG. 6 ends.

如上所述,根據多層產品製造裝置10,可以利用外皮S包住多層物,並利用密封機構部10d將薄膜F(外皮S)加以密封,從而進行封裝,該外皮S係由被成形機構部10b形成為筒狀之薄膜F形成。由此,能夠提供易於使用或保存且使用衛生性良好之多層產品P。另外,在如上所述利用外皮S包住從吐出機構部10a吐出之多層 物之情況下,即使多層物係使用柔軟材料而製成,也容易進行搬送而不會破壞其形狀。進而,由於能夠以利用外皮S包住多層物之狀態進行提供,因而能夠容易地進行加熱或冷卻等處理。由此,根據本實施方式之多層產品製造裝置10,能夠提高多層物之附加價值以及使其用途多樣化。 As described above, according to the multilayer product manufacturing apparatus 10, the multilayer S can be covered with the sheath S, and the film F (skin S) can be sealed by the sealing mechanism portion 10d, and the envelope S is formed by the formed mechanism portion 10b. The cylindrical film F is formed. This makes it possible to provide a multilayer product P that is easy to use or store, and has good hygiene. In addition, as described above, the multiple layers ejected from the ejection mechanism section 10a are covered with the sheath S In the case of an object, even if the multi-layer object is made of a soft material, it can be easily transported without breaking its shape. Further, since it can be provided in a state where the multilayered object is covered with the sheath S, it is possible to easily perform treatment such as heating or cooling. Therefore, according to the multilayer product manufacturing apparatus 10 of this embodiment, it is possible to increase the added value of a multilayer object and diversify its use.

另外,在本實施方式中,作為多層產品製造裝置10,例舉了用於製造利用一層外層材料包住構成中心之內層材料外周之雙層結構之多層物之結構,但是,本發明並不限定於此,多層產品製造裝置10還可以形成為用於製造呈更多層結構之多層物之結構。例如,在製造從中心側朝向外側具備中心層P4、中間層P5以及外層P6的三層結構多層產品P之情況下,多層產品製造裝置10形成為下述結構,即:如圖7所示,除了與上述吐出噴嘴42同樣地利用內層材料吐出筒52和外層材料吐出筒54形成第一吐出區域42a和第二吐出區域42b之噴嘴結構44(也稱為“第一噴嘴結構44”)之外,還透過設置將外層材料吐出筒54包住之另一吐出筒(第三吐出筒56),從而在外層材料吐出筒54與第三吐出筒56之間形成第三吐出區域42c。由此,除了第一噴嘴結構44之外,還形成有由外層材料吐出筒54和第三吐出筒56構成之第二噴嘴結構46。由此,透過將噴嘴結構形成為多層結構,能夠使吐出機構部10a中所形成之吐出物進一步多層化。 In addition, in the present embodiment, as the multilayer product manufacturing apparatus 10, a structure for manufacturing a multilayered structure for enclosing the outer layer of the inner layer material constituting the center with a single outer layer material is exemplified. However, the present invention is not Limited to this, the multi-layer product manufacturing apparatus 10 may also be formed into a structure for manufacturing a multi-layer object having a multi-layer structure. For example, in the case of manufacturing a multilayer product P having a three-layer structure including a center layer P4, an intermediate layer P5, and an outer layer P6 from the center side to the outside, the multilayer product manufacturing apparatus 10 is formed as follows, as shown in FIG. 7, The nozzle structure 44 (also referred to as "first nozzle structure 44") of the first discharge area 42a and the second discharge area 42b is formed by using the inner layer material discharge tube 52 and the outer layer material discharge tube 54 in the same manner as the above-mentioned discharge nozzle 42. In addition, another ejection tube (third ejection tube 56) that surrounds the outer material ejection tube 54 is provided to form a third ejection area 42c between the outer material ejection tube 54 and the third ejection tube 56. Thus, in addition to the first nozzle structure 44, a second nozzle structure 46 composed of an outer layer material discharge cylinder 54 and a third discharge cylinder 56 is formed. Thus, by forming the nozzle structure into a multilayer structure, it is possible to further multi-layer the discharged matter formed in the discharge mechanism section 10 a.

如上所述,根據多層產品製造裝置10,外層材料可以使用黏性與內層材料之黏性相同、或者黏性低於上述內層材料之黏性的材料。因此,根據多層產品製造裝置10,能夠製造先前技術下的包餡產品製造裝置等無法製造的,外層材料由黏性低於內層材料之材料形成之多層產品P。 As described above, according to the multilayer product manufacturing apparatus 10, the outer layer material may be made of a material having the same viscosity as the inner layer material, or a material having a lower viscosity than the inner layer material. Therefore, according to the multi-layered product manufacturing apparatus 10, it is possible to manufacture a multi-layered product P which cannot be manufactured by a prior art stuffing product manufacturing apparatus or the like and whose outer layer material is made of a material having a lower viscosity than the inner layer material.

如上所述,在多層產品製造裝置10中,在多層產品P之製造過程中實施下述供給控制,即:在從吐出機構部10a吐出之多層物達到筒狀薄膜F內應形成密封部84之位置之前的時刻停止供給內層材料和外層材料。透過執行這樣的控制,能夠降低多層物附著在薄膜F上應形成密封部84之位置上的可能性,從而能夠抑制發生無法順利形成密封部84這樣的不良情況。 As described above, in the multilayer product manufacturing apparatus 10, during the manufacturing process of the multilayer product P, the following supply control is performed, that is, when the multilayer object discharged from the discharge mechanism portion 10a reaches the position where the sealing portion 84 should be formed in the cylindrical film F The supply of the inner layer material and the outer layer material was stopped at the previous moment. By performing such control, it is possible to reduce the possibility that a multi-layered object adheres to the position where the seal portion 84 should be formed on the film F, and to suppress the occurrence of a failure such that the seal portion 84 cannot be formed smoothly.

另外,在多層產品製造裝置10中,內層材料供給裝置22和外層材料供給裝置32採用具備單軸偏心螺桿泵機構100、200之裝置。因此,能夠精度佳地控制內層材料和外層材料之供給狀態,從而在多層產品之製造過程中能夠在恰當時刻吐出適量的內層材料和外層材料。因此,根據多層產品製造裝置10,能夠更進一步提高多層產品之製造品質。 In the multilayer product manufacturing apparatus 10, the inner layer material supply device 22 and the outer layer material supply device 32 are each equipped with uniaxial eccentric screw pump mechanisms 100 and 200. Therefore, it is possible to control the supply state of the inner layer material and the outer layer material with high accuracy, so that a proper amount of the inner layer material and the outer layer material can be ejected at an appropriate time during the manufacturing process of the multilayer product. Therefore, the multilayer product manufacturing apparatus 10 can further improve the manufacturing quality of the multilayer product.

另外,構成內層材料供給裝置22和外層材料供給裝置32之單軸偏心螺桿泵機構100、200,均可以透過調整轉子102、202之旋轉方向而適當地切換內層材料、外層材料之流動方向。因此,即使內層材料和外層材 料使用黏性低的材料,透過在停止供給各材料時使轉子102、202反向旋轉,也能夠防止發生預料之外的滴液情況、以及因為滴液而導致多層產品之品質下降。 In addition, the uniaxial eccentric screw pump mechanisms 100 and 200 constituting the inner layer material supply device 22 and the outer layer material supply device 32 can appropriately switch the flow direction of the inner layer material and the outer layer material by adjusting the rotation directions of the rotors 102 and 202. . So even the inner and outer materials A low-viscosity material is used as the material, and by rotating the rotors 102 and 202 in the reverse direction when the supply of each material is stopped, unexpected dripping can also be prevented, and the quality of multilayer products can be reduced due to dripping.

另外,構成內層材料供給裝置22和外層材料供給裝置32之單軸偏心螺桿泵機構100、200之裝置構成極其簡單。由此,能夠抑制多層產品製造裝置10之製造成本以及提高維護特性。 In addition, the structure of the uniaxial eccentric screw pump mechanisms 100 and 200 constituting the inner layer material supply device 22 and the outer layer material supply device 32 is extremely simple. Accordingly, it is possible to suppress the manufacturing cost of the multilayer product manufacturing apparatus 10 and improve the maintenance characteristics.

在多層產品製造裝置10中,由於內層材料供給裝置22和外層材料供給裝置32具備單軸偏心螺桿泵機構100、200,因此,能夠準確地控制內層材料和外層材料之吐出開始和結束。因此,在如上所述於藉由外層材料供給裝置32開始供給外層材料後經過了規定時間t3的時刻,藉由內層材料供給裝置22開始供給內層材料,並在比藉由外層材料供給裝置32開始供給外層材料至停止供給為止的規定時間t1早規定時間的時刻,停止藉由內層材料供給裝置22供給內層材料,在該情況下,能夠穩定地製造高品質之多層產品。 In the multilayer product manufacturing apparatus 10, since the inner layer material supply device 22 and the outer layer material supply device 32 are provided with uniaxial eccentric screw pump mechanisms 100 and 200, it is possible to accurately control the start and end of the discharge of the inner layer material and the outer layer material. Therefore, as described above, when the predetermined time t3 elapses after the outer layer material supply device 32 starts to supply the outer layer material, the inner layer material supply device 22 starts to supply the inner layer material, and the outer layer material supply device 32. The supply of the inner layer material by the inner layer material supply device 22 is stopped at a predetermined time t1 before the supply of the outer layer material is stopped until the supply is stopped. In this case, a high-quality multilayer product can be stably manufactured.

另外,作為上述實施方式之多層產品P之製造方法,例舉了如圖5中的控制流程所示依次進行外層材料吐出開始步驟(步驟3)、內層材料吐出開始步驟(步驟5)、內層材料吐出停止步驟(步驟7~步驟8)、以及外層材料吐出停止步驟(步驟10~步驟11)的各步驟的例子,但是,除了這些步驟之外還可以進一步追加其他步驟。具體而言,可以在外層材料吐出開始步驟之後且內層 材料吐出開始步驟之前,設置使內層材料供給裝置22之轉子102朝向與吐出內層材料時相反之方向旋轉規定量之外層材料吸引步驟。 In addition, as the manufacturing method of the multilayer product P of the above embodiment, the outer layer material ejection start step (step 3), the inner layer material ejection start step (step 5), and the inner layer are sequentially performed as shown in the control flow in FIG. 5 as an example. Examples of the respective steps of the layer material ejection stop step (step 7 to step 8) and the outer layer material ejection stop step (step 10 to step 11). However, other steps may be added in addition to these steps. Specifically, after the outer layer material ejection start step and the inner layer Prior to the material ejection start step, a step of sucking the outer layer material by rotating the rotor 102 of the inner layer material supply device 22 in a direction opposite to that when the inner layer material is ejected is provided.

透過設置上述外層材料吸引步驟,在外層材料吐出開始步驟之後,從吐出噴嘴42之外層材料吐出筒54吐出且附著在其前端部的外層材料被吸引至內層材料吐出筒52內側。因此,成為在內層材料吐出開始步驟之前,在內層材料吐出筒52前端部填充有少量外層材料之狀態。當在該狀態下,製造步驟從外層材料吸引步驟轉移至內層材料吐出開始步驟時,在填充於內層材料吐出筒52前端部中的外層材料被吐出後才吐出內層材料。因此,如此製成之多層產品P呈利用內層材料吐出開始步驟剛開始後從內層材料吐出筒52吐出之外層材料增強內層材料下部之結構。由此,能夠抑制因為內層材料之重量等的影響而使內層材料從多層產品P底側漏出等製造不良情況,從而有助於提高產率。 By providing the outer layer material suction step, after the outer layer material discharge initiation step, the outer layer material discharged from the outer layer material discharge tube 54 of the discharge nozzle 42 and adhered to the front end portion thereof is attracted to the inner layer material discharge tube 52. Therefore, before the inner layer material discharge start step, the front end portion of the inner layer material discharge cylinder 52 is filled with a small amount of outer layer material. In this state, when the manufacturing step is shifted from the outer layer material suction step to the inner layer material discharge start step, the inner layer material is discharged after the outer layer material filled in the front end portion of the inner layer material discharge cylinder 52 is discharged. Therefore, the multilayer product P thus manufactured has a structure in which the lower portion of the inner layer material is reinforced by ejecting the outer layer material from the inner layer material ejection cylinder 52 immediately after the start step of the inner layer material discharge step. This can suppress manufacturing defects such as leakage of the inner layer material from the bottom side of the multilayer product P due to the influence of the weight of the inner layer material and the like, thereby contributing to improvement in yield.

上述多層產品製造裝置10能夠製造利用由薄膜F形成之外皮S包住多層物之多層產品P,但是,多層產品製造裝置10也可以構成為可以對多層產品P進行熱處理或殺菌處理等一些後處理。具體而言,也可以構成為:如圖1中的二點鏈線所示,多層產品製造裝置10設有熱處理裝置90,該熱處理裝置90能夠對於利用外皮S包住多層物之多層產品P進一步實施加熱處理和冷卻處理中的任一種或者兩種處理。在如此構成之情況下,能夠對 於被外皮S包住之多層物實施加熱處理或冷卻處理這樣的熱處理等後處理,從而能夠更進一步提高多層產品P之附加價值。 The multilayer product manufacturing apparatus 10 described above can manufacture a multilayer product P that uses a sheath F formed by a film F to cover a multilayer. However, the multilayer product manufacturing apparatus 10 may be configured to perform some post-processing such as heat treatment or sterilization of the multilayer product P. . Specifically, as shown by a two-dot chain line in FIG. 1, the multilayer product manufacturing apparatus 10 may be provided with a heat treatment device 90. The heat treatment device 90 may further perform a multilayer product P that uses a sheath S to cover a multilayer object. Either or both of the heat treatment and the cooling treatment are performed. With such a structure, Performing post-treatments such as heat treatment such as heat treatment or cooling treatment on the multilayered object covered by the sheath S can further increase the added value of the multilayered product P.

具體而言,透過進行加熱處理,能夠製成對於被外皮S包住之多層物經過加熱後完成之產品,亦可期待殺菌效果等效果。另外,透過進行冷卻處理,能夠期待下述效果,即:製成對於被外皮S包住之多層物進行冷卻後完成之產品,或者將多層產品P形成為適於在冷藏狀態或者冷凍狀態下保存之狀態等效果。 Specifically, by performing a heat treatment, a product that is completed by heating a multilayered object covered with the sheath S can be produced, and effects such as a sterilization effect can also be expected. In addition, by performing the cooling treatment, the following effects can be expected: a product that is completed by cooling a multilayered object covered by the sheath S, or a multilayered product P that is suitable for storage in a refrigerated state or a frozen state Status and other effects.

以上例舉了多層產品製造裝置10之吐出機構部10a中設有一個吐出噴嘴42之結構,但是,本發明並不限定於此,多層產品製造裝置10也可以構成為設有複數個吐出噴嘴42。該情況下,透過對於利用內層材料供給裝置22和外層材料供給裝置32供給之內層材料和外層材料進行分配等之後將內層材料和外層材料供給到吐出噴嘴42中,從而能夠一次吐出複數個多層物。另外,透過針對設有複數個的吐出噴嘴42分別設置成形機構部10b、薄膜進給機構10b以及密封機構部10d等,能夠同時實施複數個利用外皮S包住多層物從而製成多層產品P之作業。透過如此構成,能夠批量生產相同品質之多層產品。 The above has exemplified the structure in which one discharge nozzle 42 is provided in the discharge mechanism portion 10a of the multilayer product manufacturing apparatus 10, but the present invention is not limited to this, and the multilayer product manufacturing apparatus 10 may be configured to include a plurality of discharge nozzles 42 . In this case, the inner layer material and the outer layer material are supplied to the discharge nozzle 42 by distributing the inner layer material and the outer layer material supplied by the inner layer material supply device 22 and the outer layer material supply device 32, etc., so that a plurality of times can be discharged at a time. Multiple layers. In addition, the forming mechanism portion 10b, the film feeding mechanism 10b, and the sealing mechanism portion 10d are provided for the plurality of ejection nozzles 42, respectively, and a plurality of products can be simultaneously covered with the sheath S to form a multilayer product P. operation. With this configuration, it is possible to mass-produce multilayer products of the same quality.

在上述實施方式中,例舉了能夠以下述方式製造多層產品之例子,該方式是指:吐出噴嘴42呈固定狀態,在藉由薄膜進給機構10c輸送外皮S的同時吐出多 層物之方式,該外皮S係由利用成形機構部10b成形之薄膜F形成,但是,本發明並不限定於此,只要能夠使吐出噴嘴42相對於外皮S相對移動即可。即,在本實施方式所示之例子中,也可以構成為吐出噴嘴42能夠上下移動,並且在使吐出噴嘴42朝向上方移動的同時向外皮S內吐出多層物。 In the above-mentioned embodiment, an example in which a multilayer product can be manufactured in a manner that the discharge nozzle 42 is in a fixed state and that the outer skin S is conveyed by the film feeding mechanism 10c while discharging a large number of cases is exemplified. In the form of a layer, the sheath S is formed of the film F formed by the forming mechanism portion 10b. However, the present invention is not limited to this, as long as the discharge nozzle 42 can be relatively moved with respect to the sheath S. That is, in the example shown in this embodiment, the discharge nozzle 42 can be moved up and down, and the multilayer nozzle can be discharged into the outer skin S while moving the discharge nozzle 42 upward.

在上述實施方式中,藉由成形機構部10b利用薄膜F形成多層產品之外皮,並且一邊利用薄膜F形成外皮一邊從吐出機構部10a向外皮內吐出多層物,但是,本發明並不限定於此。即,也可以不設置成形機構部10b而是從吐出機構部10a向另外準備的外皮內吐出多層物。 In the above-mentioned embodiment, the outer skin of the multilayer product is formed by the film F by the forming mechanism portion 10b, and the outer layer is ejected from the ejection mechanism portion 10a while the outer skin is formed by the film F. However, the present invention is not limited to this . That is, instead of providing the forming mechanism portion 10b, a multilayer object may be discharged from the discharge mechanism portion 10a into a separately prepared skin.

具體而言,例如如圖8或圖9所示,也可以準備利用橡膠、薄膜或者樹脂等製成的物質作為外皮,從吐出機構部10a之吐出噴嘴42向該外皮中吐出多層物,並在吐出結束後進行封裝。在外皮利用具有彈性之物質之情況下,如圖8所示,透過向外皮內吐出多層物,外皮像氣球膨脹一樣發生變形。由此,能夠製造與構成外皮之物質之變形相符形狀(圖示例子中為球狀)之多層產品。更為具體來說,在圖8所示之例子中,首先如圖8中的(a)所示以將吐出噴嘴42插入外皮S之狀態吐出外層材料。由此,變為如圖8中的(b)所示外層材料被吐入到外皮S內之狀態。然後,從規定的時刻起在規定時間內從吐出噴嘴42吐出內層材料(參照圖8中的(c))。然後,將吐出噴嘴42從外皮S中抽出並對外皮S進行封 裝,從而如圖8中的(d)所示製成球狀多層產品。 Specifically, for example, as shown in FIG. 8 or FIG. 9, a substance made of rubber, film, or resin may be prepared as an outer skin, and a multilayer object may be ejected from the ejection nozzle 42 of the ejection mechanism portion 10 a into the outer skin, and After the ejection is completed, packaging is performed. In the case of using an elastic substance in the outer skin, as shown in FIG. 8, the outer skin is deformed like a balloon by spitting out multiple layers inside the outer skin. This makes it possible to produce a multilayer product having a shape (spherical shape in the example shown) in accordance with the deformation of the material constituting the outer skin. More specifically, in the example shown in FIG. 8, first, as shown in FIG. 8 (a), the outer layer material is discharged in a state where the discharge nozzle 42 is inserted into the outer skin S. As a result, as shown in FIG. 8 (b), the outer layer material is discharged into the outer skin S. Then, the inner layer material is discharged from the discharge nozzle 42 within a predetermined time from a predetermined time (see (c) in FIG. 8). Then, the discharge nozzle 42 is extracted from the outer skin S, and the outer skin S is sealed. It is assembled so as to form a spherical multilayer product as shown in (d) of FIG. 8.

另外,在外皮為即使內部裝入多層物也不會變形之物質之情況下,如圖9所示,能夠製造與預先形成之外皮之形狀一致的多層產品。更為詳細來說,在圖9所示之例子中,首先形成為如圖9中的(a)中箭頭所示將吐出噴嘴42插入外皮S內之狀態。在該狀態下,如圖9中的(b)所示,在吐出外層材料的同時使吐出噴嘴42朝向遠離外皮S底側之方向移動。由此,變為如圖9中的(b)所示首先在外皮S內吐入外層材料之狀態。然後,從在外皮S內吐入規定量外層材料的時刻起,在規定時間內一邊從吐出噴嘴42吐出外層材料一邊吐出內層材料(參照圖9中的(c))。然後,當變為吐出噴嘴42移動至外皮S外部之狀態時,變為如圖9中的(d)所示多層物被收容在外皮S內之狀態。在該狀態下,透過對外皮S進行封裝,從而如圖9中的(e)所示製成多層產品。 In addition, when the outer skin is a substance that does not deform even if a multi-layered object is incorporated inside, as shown in FIG. 9, it is possible to manufacture a multi-layered product having the same shape as the outer skin. In more detail, in the example shown in FIG. 9, first, the state in which the discharge nozzle 42 is inserted into the outer skin S as shown by an arrow in FIG. 9 (a) is formed. In this state, as shown in FIG. 9 (b), the discharge nozzle 42 is moved in a direction away from the bottom side of the sheath S while the outer layer material is being discharged. As a result, as shown in FIG. 9 (b), the outer layer material is first injected into the outer skin S. Then, from the time when a predetermined amount of the outer layer material is injected into the outer skin S, the inner layer material is ejected while the outer layer material is ejected from the ejection nozzle 42 within a predetermined time (see (c) in FIG. 9). Then, when the discharge nozzle 42 is moved to the outside of the sheath S, it becomes a state where the multilayered object is contained in the sheath S as shown in (d) of FIG. 9. In this state, the outer skin S is packaged to form a multilayer product as shown in FIG. 9 (e).

[實施例1] [Example 1] 《作為含餡食品製造裝置和製造方法的實施例》 "Examples as a device and method for producing stuffed food"

上述多層產品製造裝置10可以用於製造例如含有餡料的魚糕、香腸、麵包或者饅頭等含有餡料的多層食品。更為具體來說,在製造含有餡料的魚糕或者香腸時,作為外層材料而供給魚糕或者香腸的原料即肉糜,作為內層材料而供給作為餡料的材料。另外,在製造麵包或者饅頭 時,作為外層材料而供給麵包或者饅頭的原材料,並且作為內層材料而供給餡料。透過這樣能夠製造含有餡料的多層食品。另外,在如上所述設有熱處理裝置90之情況下,能夠利用薄膜F包住呈餡料被肉糜或原材料包住之狀態之多層物並在該狀態下直接進行加熱,從而製成食品。另外,透過以利用薄膜F包住含有餡料的多層物之狀態進行冷藏或者冷凍,能夠形成為適於保存之狀態。另外,利用多層產品製造裝置10製成之食品,可以在食用前以包裹有薄膜F、或者除去薄膜F之狀態進行烹調,因而比較便利。 The multi-layered product manufacturing apparatus 10 can be used for manufacturing multi-layered foods containing fillings such as fish cakes, sausages, bread, or steamed breads containing fillings. More specifically, when manufacturing fish cakes or sausages containing fillings, minced meat, which is a raw material for fish cakes or sausages, is supplied as the outer layer material, and as the inner layer materials, the material is used as the filling material. In addition, we are making bread or buns At this time, raw materials for bread or buns are supplied as the outer layer material, and fillings are supplied as the inner layer material. In this way, a multilayered food containing fillings can be produced. In addition, when the heat treatment device 90 is provided as described above, the multilayered object in a state where the filling is wrapped in the minced meat or the raw material can be wrapped by the film F and directly heated in this state to prepare a food. In addition, it can be formed into a state suitable for storage by refrigerating or freezing in a state where the multilayered material containing the filling is enclosed by the film F. In addition, the food produced by the multi-layer product manufacturing apparatus 10 can be cooked in a state in which the film F is wrapped or the film F is removed before eating, which is convenient.

另外,也可以利用如米紙等可以食用的材料形成薄膜F。透過這樣構成,能夠提供可直接食用而無需剝除薄膜F的多層食品。 Alternatively, the film F may be formed using an edible material such as rice paper. With such a configuration, it is possible to provide a multilayered food that can be directly consumed without removing the film F.

[實施例2] [Example 2] 《作為工業產品之製造裝置和製造方法的實施例》 "Examples of manufacturing apparatus and manufacturing method as industrial products"

上述多層產品製造裝置10也可以用於製造食品以外的工業產品。具體而言,透過有效利用外層材料可以使用黏性與內層材料之黏性相同或者低於內層材料之黏性的材料從而製成多層產品P這一特性,將下述除臭產品或芳香產品、或者洗浴產品等裝入筒狀薄膜F內包住,從而能夠以多層產品P之形式進行提供,上述除臭產品或芳香產品係將液狀或者凝膠狀除臭劑或者芳香劑作為內層材料,利 用構成外皮之外層材料將其包住並形成為球狀或者珠狀之產品,洗浴產品係利用膠狀外層材料或水溶性外層材料將肥皂或洗浴劑等內層材料包住而形成之產品。如此製成之多層產品P可以係使用時剝除薄膜F後使用者,也可以係以包裹有薄膜F之狀態直接進行使用者。 The multilayer product manufacturing apparatus 10 described above can also be used for manufacturing industrial products other than food. Specifically, by effectively using the outer layer material, a material having the same viscosity as the inner layer material or a lower viscosity than the inner layer material can be used to make a multilayer product P. The following deodorizing products or fragrances Products or bath products are enclosed in a cylindrical film F, so that they can be provided in the form of a multilayer product P. The above-mentioned deodorant product or fragrance product contains a liquid or gel-like deodorant or fragrance as an internal component. Layer material The outer skin material is used to cover and form a spherical or beaded product. Bath products are products formed by encapsulating inner materials such as soap or bath lotion with a gel-like outer material or a water-soluble outer material. The multilayer product P thus produced can be used by the user after the film F is peeled off during use, or it can be directly performed by the user in a state of being wrapped with the film F.

[實施例3] [Example 3] 《作為人造蛋之製造裝置和製造方法的實施例》 "Examples of a device and method for manufacturing artificial eggs"

上述多層產品製造裝置10,透過將人工調製之蛋清成分和蛋黃成分分別作為外層材料和內層材料,能夠製造人造蛋。如此製成之蛋的剖面形狀呈蛋黃位於蛋清之大致中央部分處。另外,在如上所述設有熱處理裝置90時,透過以包裹有薄膜F之狀態直接進行加熱,能夠做成水煮蛋。 The multilayer product manufacturing apparatus 10 can manufacture artificial eggs by using artificially prepared egg white components and egg yolk components as the outer layer material and the inner layer material, respectively. The cross-sectional shape of the egg thus produced was an egg yolk located at approximately the center portion of the egg white. In addition, when the heat treatment device 90 is provided as described above, the boiled egg can be made by directly heating in a state of being wrapped with the film F.

如上所述製成之蛋之外層由薄膜F形成,因而不會發生像自然狀態之蛋那樣受到些微衝擊就會破裂這樣的不良情況。因此,利用多層產品製造裝置10人工製造之蛋適於搬運和保存等。另外,由於能夠按照任意比例調製蛋清成分和蛋黃成分,因此,不僅能夠以相同比例再現自然狀態之蛋,還可以製造蛋黃成分比例高的蛋等。另外,透過如此人工製造蛋,能夠使其品質達到均勻。 The outer layer of the egg made as described above is formed of the thin film F, so that the trouble of cracking by a slight impact like the egg in the natural state does not occur. Therefore, the eggs artificially manufactured by the multilayer product manufacturing apparatus 10 are suitable for handling and storage. In addition, since the egg white component and the yolk component can be prepared in an arbitrary ratio, not only eggs in a natural state can be reproduced in the same ratio, but also eggs having a high ratio of the yolk component can be produced. In addition, the quality of the eggs can be made uniform by manually manufacturing the eggs.

(產業上的可利用性) (Industrial availability)

本發明之多層產品製造裝置能夠有效地利用於形成為多層結構之含餡食品或者工業產品、人造蛋等之製造中。 The multilayer product manufacturing apparatus of the present invention can be effectively used in the manufacture of stuffed foods, industrial products, artificial eggs, and the like formed into a multilayer structure.

Claims (11)

一種多層產品製造裝置,係將利用具有黏性的一種材料包住具有黏性的另一種材料之多層物收容在外皮內來製造多層產品,前述多層產品製造裝置之特徵在於,具備:吐出機構,其具有用於將多層物吐出到前述外皮內的吐出噴嘴,前述多層物係利用具有黏性的一種材料將具有黏性的另一種材料包住而構成;和密封機構,其用於對前述外皮進行封裝;和控制部,其在將前述多層物中內外相鄰之任意兩個層假設為A層和B層時,對構成前述A層的A層材料及構成前述B層的B層材料之供給進行控制,透過利用前述密封機構將內部收容有前述多層物之前述外皮加以封裝,從而製成利用前述外皮包裝前述多層物之多層產品,前述吐出噴嘴具有下述噴嘴結構,即:用於吐出前述A層材料的一個吐出區域,被用於吐出前述B層材料的另一個吐出區域包圍,前述吐出機構具備:A層材料供給部,其具備能夠供給前述A層材料之A層材料供給裝置,B層材料供給部,其具備能夠供給前述B層材料之B層材料供給裝置,以及吐出部,其用於吐出從前述A層材料供給部和前述B層材料供給部所供給之前述A層材料和前述B層材料,前述A層材料供給裝置和前述B層材料供給裝置具備單軸偏心螺桿泵機構,前述單軸偏心螺桿泵機構具備:在動力的驅動下偏心旋轉之陽螺紋型轉子、和內周面形成為陰螺紋型之定子,前述多層產品,是透過將內部被吐入了前述多層物之狀態的前述外皮在其規定位置處加以封裝而製成的,前述控制部,是實施下述供給控制者,即:在前述多層物在前述外皮內達到前述規定位置之前的時刻,使前述A層材料和前述B層材料之供給結束,在前述A層材料和前述B層材料之供給結束時,使構成為前述A層材料供給裝置和前述B層材料供給裝置之單軸偏心螺桿泵機構之轉子朝向與供給時相反之方向旋轉。A multi-layer product manufacturing device is a multilayer product manufactured by storing a multi-layer object that has a sticky material and covering another material with tackiness in an outer skin. The foregoing multi-layer product manufacturing device is characterized by comprising: a discharge mechanism, It has an ejection nozzle for ejecting a multi-layer object into the outer skin, and the multi-layer object is constituted by using one material having viscosity to envelop another material having viscosity; and a sealing mechanism for sealing the outer skin. Encapsulation; and a control unit which, when assuming that any two layers adjacent to each other inside and outside the multilayer are A layers and B layers, applies a combination of the materials of the A layer constituting the A layer and the B layer constituting the B layer. The supply is controlled, and the outer skin containing the multi-layered object is sealed by using the sealing mechanism, so as to produce a multi-layer product using the outer skin to pack the multi-layered object. The ejection nozzle has the following nozzle structure, which is used for ejection. One discharge area of the layer A material is surrounded by another discharge area for discharging the layer B material, and the discharge mechanism has : A layer A material supply section including a layer A material supply device capable of supplying the aforementioned layer A material, a layer B material supply section including a layer B material supplying device capable of supplying the foregoing layer B material, and a discharge section for: The A-layer material and the B-layer material supplied from the A-layer material supply section and the B-layer material supply section are discharged, and the A-layer material supply device and the B-layer material supply device are provided with a uniaxial eccentric screw pump mechanism. The uniaxial eccentric screw pump mechanism includes a male screw-type rotor eccentrically rotated by power and a stator formed with a female screw-type inner peripheral surface. The multilayer product is a state in which the multilayer product is spitted into the multilayer material. The above-mentioned outer skin is made by encapsulating the outer skin at a predetermined position, and the control unit implements a supply controller that makes the A-layer material at a time before the multi-layered object reaches the prescribed position in the outer skin. And the completion of the supply of the B-layer material, and when the supply of the A-layer material and the B-layer material ends, the device is configured as the A-layer material supply device and the B-layer material The rotor of the uniaxial eccentric screw pump mechanism of the material supply device rotates in a direction opposite to that during the supply. 一種多層產品製造裝置,其特徵在於,具備:成形機構,其用於形成外皮;和吐出機構,其具有用於將多層物吐出到利用前述成形機構所形成之外皮中的吐出噴嘴,前述多層物係利用具有黏性的一種材料將具有黏性的另一種材料包住而構成;和控制部,其在將前述多層物中內外相鄰之任意兩個層假設為A層和B層時,對構成前述A層的A層材料及構成前述B層的B層材料之供給進行控制,透過將利用前述成形機構形成之外皮加以封裝,從而製成利用前述外皮包裝從前述吐出機構吐出之前述多層物之多層產品,前述吐出噴嘴具有下述噴嘴結構,即:用於吐出前述A層材料的一個吐出區域,被用於吐出前述B層材料的另一個吐出區域包圍,前述吐出機構具備:A層材料供給部,其具備能夠供給前述A層材料之A層材料供給裝置,B層材料供給部,其具備能夠供給前述B層材料之B層材料供給裝置,以及吐出部,其用於吐出從前述A層材料供給部和前述B層材料供給部所供給之前述A層材料和前述B層材料,前述A層材料供給裝置和前述B層材料供給裝置具備單軸偏心螺桿泵機構,前述單軸偏心螺桿泵機構具備:在動力的驅動下偏心旋轉之陽螺紋型轉子、和內周面形成為陰螺紋型之定子,前述多層產品,是透過將內部被吐入了前述多層物之狀態的前述外皮在其規定位置處加以封裝而製成的,前述控制部,是實施下述供給控制,即:在前述多層物在前述外皮內達到前述規定位置之前的時刻,使前述A層材料和前述B層材料之供給結束,在前述A層材料和前述B層材料之供給結束時,使構成為前述A層材料供給裝置和前述B層材料供給裝置之單軸偏心螺桿泵機構之轉子朝向與供給時相反之方向旋轉。A multi-layer product manufacturing apparatus, comprising: a forming mechanism for forming an outer skin; and a discharge mechanism having a discharge nozzle for discharging a multi-layer object into an outer skin formed by the forming mechanism, the multi-layer object It is formed by using one material with stickiness to enclose another material with stickiness; and the control unit, when it is assumed that any two layers adjacent to each other inside and outside the foregoing multilayers are layer A and layer B, The supply of the A-layer material constituting the A-layer and the B-layer material constituting the B-layer is controlled, and the outer skin formed by the forming mechanism is packaged to package the multilayer material that is ejected from the ejection mechanism by the outer skin package. For a multilayer product, the discharge nozzle has a nozzle structure in which one discharge area for discharging the layer A material is surrounded by another discharge area for discharging the layer B material, and the discharge mechanism includes: layer A material A supply unit including an A-layer material supply device capable of supplying the A-layer material, and a B-layer material supply unit including an A-layer material supply unit A B-layer material supply device for the material, and a discharge portion for discharging the A-layer material and the B-layer material supplied from the A-layer material supply portion and the B-layer material supply portion, the A-layer material supply device, and The B-layer material supply device includes a uniaxial eccentric screw pump mechanism. The uniaxial eccentric screw pump mechanism includes a male screw-type rotor eccentrically rotated by driving power, and a stator having a female screw-type inner peripheral surface. The product is manufactured by encapsulating the outer skin in the state where the multi-layered object is spitted out at a predetermined position. The control unit implements the following supply control, that is, when the multi-layered object is on the outer skin. The supply of the A-layer material and the B-layer material is completed at a time before the predetermined position is reached within the time, and when the supply of the A-layer material and the B-layer material is completed, the A-layer material supply device and the B The rotor of the uniaxial eccentric screw pump mechanism of the layer material supply device rotates in a direction opposite to that at the time of supply. 如申請專利範圍第1或2項所述之多層產品製造裝置,其中,具有成形機構,其用於形成外皮,前述成形機構利用薄膜而形成外皮。The multilayer product manufacturing device according to item 1 or 2 of the scope of patent application, further comprising a forming mechanism for forming an outer skin, and the aforementioned forming mechanism uses a film to form the outer skin. 如申請專利範圍第1或2項中所述之多層產品製造裝置,其中,作為前述B層材料而供給黏性與前述A層材料之黏性相同、或者黏性低於前述A層材料之黏性的材料,從而製成多層產品。The multilayer product manufacturing device as described in item 1 or 2 of the scope of patent application, wherein the viscosity of the layer B material is the same as that of the layer A material, or the viscosity is lower than that of the layer A material Materials to make multilayer products. 如申請專利範圍第1或2項中所述之多層產品製造裝置,其中,前述控制部實施下述控制,即:在藉由前述B層材料供給裝置開始供給前述B層材料後,經過了規定時間的時刻,藉由前述A層材料供給裝置開始供給前述A層材料,並在比藉由前述B層材料供給裝置進行之前述B層材料之供給結束前早規定時間的時刻,使藉由前述A層材料供給裝置進行之前述A層材料之供給結束。The multi-layer product manufacturing device described in item 1 or 2 of the scope of the patent application, wherein the aforementioned control section performs the following control, that is, after the supply of the aforementioned layer B material is started by the aforementioned layer B material supply device, the regulations have passed At the time of time, the supply of the A-layer material is started by the A-layer material supply device, and at a time a predetermined time earlier than the end of the supply of the B-layer material by the B-layer material supply device, the The A-layer material supply by the A-layer material supply device is completed. 如申請專利範圍第1或2項中所述之多層產品製造裝置,其中,前述多層產品製造裝置具備熱處理裝置,前述熱處理裝置對利用前述外皮包住前述多層物之多層產品實施加熱處理和冷卻處理中的任意一種或者兩種處理。The multilayer product manufacturing device described in item 1 or 2 of the scope of patent application, wherein the multilayer product manufacturing device is provided with a heat treatment device, and the heat treatment device performs heat treatment and cooling treatment on the multilayer product in which the multilayer material is enveloped by the sheath. Either or both. 一種多層產品製造方法,其特徵在於,利用申請專利範圍第1至6項中任一項所述之多層產品製造裝置進行製造,並包含:使前述多層物不被包夾在對前述外皮進行封裝後之密封部中的步驟。A multi-layer product manufacturing method, characterized in that the multi-layer product manufacturing device described in any one of claims 1 to 6 is used for manufacturing, and the method includes: preventing the multilayer material from being sandwiched and encapsulating the outer skin. Follow the steps in the seal section. 如申請專利範圍第7項所述之多層產品製造方法,其中,前述吐出機構經過包括下述步驟在內的步驟而實施吐出動作,即:B層材料吐出開始步驟,該步驟中,開始從前述吐出噴嘴吐出前述B層材料,A層材料吐出開始步驟,該步驟中,在前述B層材料吐出開始步驟之後經過了規定時間後,開始從前述吐出噴嘴吐出前述A層材料,A層材料吐出停止步驟,其在前述A層材料吐出開始步驟之後實施,該步驟中,使前述A層材料之吐出停止,以及B層材料吐出停止步驟,其在前述A層材料吐出停止步驟之後實施,該步驟中,使前述B層材料之吐出停止。The multi-layer product manufacturing method according to item 7 of the scope of the patent application, wherein the discharge mechanism performs the discharge operation through the steps including the following steps, that is, the B-layer material discharge start step, in which the step starts from the foregoing The ejection nozzle ejects the B-layer material and the A-layer material ejection start step. In this step, after a predetermined time elapses after the aforementioned B-layer material ejection start step, the A-layer material is ejected from the ejection nozzle, and the A-layer material ejection is stopped. Steps that are performed after the foregoing step A for discharging the layer A material, in which the steps for stopping the discharge of the layer A material and steps B for stopping the discharge of the layer A layer are performed after the step A for stopping the discharge of the layer A material, in which To stop the discharge of the aforementioned layer B material. 如申請專利範圍第8項所述之多層產品製造方法,其中,用於供給前述A層材料之A層材料供給裝置和用於供給前述B層材料之B層材料供給裝置分別具備單軸偏心螺桿泵機構,前述單軸偏心螺桿泵機構具備在動力的驅動下偏心旋轉之陽螺紋型轉子和內周面被形成為陰螺紋型之定子,當在前述A層材料吐出停止步驟中停止吐出A層材料時,使前述A層材料供給裝置之轉子朝向與吐出前述A層材料時相反之方向進行動作,當在前述B層材料吐出停止步驟中停止吐出B層材料時,使前述B層材料供給裝置之轉子朝向與吐出前述B層材料時相反之方向進行動作。The multi-layer product manufacturing method according to item 8 of the scope of patent application, wherein the A-layer material supply device for supplying the A-layer material and the B-layer material supply device for supplying the B-layer material are each provided with a uniaxial eccentric screw A pump mechanism in which the aforementioned uniaxial eccentric screw pump mechanism includes a male screw-type rotor eccentrically rotated by power and a stator having an inner peripheral surface formed into a female screw-type. When the layer A material is discharged, the layer A is stopped from being ejected. In the case of materials, the rotor of the A-layer material supply device is operated in a direction opposite to that when the A-layer material is discharged. When the B-layer material is stopped from being discharged in the B-layer material discharge stopping step, the B-layer material supply device is caused to operate. The rotor moves in a direction opposite to that when the B-layer material is ejected. 一種多層產品製造方法,其特徵在於,利用申請專利範圍第1至6項中任一項所述之多層產品製造裝置進行製造,於具備用於對前述外皮進行封裝之前述密封機構的前述多層產品製造裝置中,前述吐出機構經過包括下述步驟在內的步驟而實施吐出動作,即:B層材料吐出開始步驟,該步驟中,開始從前述吐出噴嘴吐出前述B層材料,A層材料吐出開始步驟,該步驟中,在前述B層材料吐出開始步驟之後經過了規定時間後,開始從前述吐出噴嘴吐出前述A層材料,A層材料吐出停止步驟,其在前述A層材料吐出開始步驟之後實施,該步驟中,使前述A層材料之吐出停止,以及B層材料吐出停止步驟,其在前述A層材料吐出停止步驟之後實施,該步驟中,使前述B層材料之吐出停止,當在前述A層材料吐出停止步驟中停止吐出A層材料時,使前述A層材料供給裝置之轉子朝向與吐出前述A層材料時相反之方向進行動作,當在前述B層材料吐出停止步驟中停止吐出B層材料時,使前述B層材料供給裝置之轉子朝向與吐出前述B層材料時相反之方向進行動作,在停止吐出前述多層物之狀態下,進行朝向下游側輸送形成前述外皮之薄膜的動作,使在內部收容有前述多層物的前述外皮利用前述密封機構而被封裝。A multi-layer product manufacturing method, characterized in that the multi-layer product manufacturing device described in any one of claims 1 to 6 is used for manufacturing, and the multi-layer product is provided with the sealing mechanism for packaging the outer skin. In the manufacturing apparatus, the discharge mechanism performs a discharge operation including the following steps, that is, a layer B material discharge start step. In this step, the layer B material is started to be discharged from the discharge nozzle, and the layer A material is started to be discharged. In this step, after a predetermined time has elapsed after the step of starting the discharge of the layer B material, the layer A material is started to be discharged from the discharge nozzle, and the step of stopping the layer A material discharge is performed after the step of starting the layer A material discharge In this step, the discharging of the A-layer material and the stopping of the B-layer material discharge are performed after the step of stopping the A-layer material discharge. In this step, the discharging of the B-layer material is stopped. When stopping the discharge of the layer A material in the step of stopping the discharge of the layer A material, orient the rotor of the device for supplying the layer A material. Operate in the opposite direction to the discharge of the layer A material. When stopping the discharge of the layer B material in the step of stopping the discharge of the layer B material, orient the rotor of the supply device of the layer B material in the direction opposite to the direction of discharge of the layer B material. An operation is performed to convey the film forming the sheath toward the downstream side while the discharge of the multilayer object is stopped, so that the sheath containing the multilayer object inside is sealed by the sealing mechanism. 一種多層產品,其特徵在於,利用申請專利範圍第1至6項中任一項所述之多層產品製造裝置進行製造,並使前述多層物不被包夾在對前述外皮進行封裝後的密封部中。A multi-layer product, characterized in that the multi-layer product is manufactured by using the multi-layer product manufacturing device according to any one of claims 1 to 6, and the multi-layer object is not sandwiched by a sealing portion after the outer skin is sealed. in.
TW104110689A 2014-04-08 2015-04-01 Multilayer product manufacturing apparatus and multilayer product manufacturing method TWI650239B (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2014079081A JP6396064B2 (en) 2014-04-08 2014-04-08 Multilayer product manufacturing apparatus and multilayer product manufacturing method
JP2014-079081 2014-04-08

Publications (2)

Publication Number Publication Date
TW201600332A TW201600332A (en) 2016-01-01
TWI650239B true TWI650239B (en) 2019-02-11

Family

ID=54267593

Family Applications (1)

Application Number Title Priority Date Filing Date
TW104110689A TWI650239B (en) 2014-04-08 2015-04-01 Multilayer product manufacturing apparatus and multilayer product manufacturing method

Country Status (4)

Country Link
JP (1) JP6396064B2 (en)
KR (1) KR102408286B1 (en)
CN (1) CN104970167B (en)
TW (1) TWI650239B (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101941593B1 (en) * 2017-06-09 2019-01-24 (주)건영제과 Film Covering Small Food Producing Device
JP6515241B1 (en) * 2018-03-02 2019-05-15 田中精密工業株式会社 Adhesive coating apparatus and adhesive coating method
CN109132984B (en) * 2018-09-30 2024-04-26 上海百雀羚生物科技有限公司 Multilayer dysmorphism cosmetic filling system
CN112237210B (en) * 2019-07-18 2022-03-15 九阳股份有限公司 Wheaten food machine with uniform strength
KR102386278B1 (en) * 2021-11-19 2022-04-18 (주)아남자동기 Liquid Raw Material Supply Apparatus
WO2024019146A1 (en) * 2022-07-22 2024-01-25 レオン自動機株式会社 Device for forming foldable food product, and method for molding foldable food product

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006193175A (en) * 2005-01-12 2006-07-27 Daiwa Can Co Ltd Packing and sealing method for viscous fluid containing solid
JP2013001398A (en) * 2011-06-13 2013-01-07 Fujimori Kogyo Co Ltd Cylindrical sealed package and method for manufacturing the same
CN103238914A (en) * 2012-02-14 2013-08-14 兵神装备株式会社 Multilayer food manufacturing apparatus, multilayer product manufacturing apparatus and manufacturing method of multilayer product

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63191771A (en) * 1987-01-29 1988-08-09 呉羽化学工業株式会社 Package and manufacture and production unit thereof
JPS63272612A (en) * 1987-04-30 1988-11-10 Kureha Chem Ind Co Ltd Package, method and apparatus for preparing the same
JP2516885B2 (en) * 1987-04-30 1996-07-24 呉羽化学工業株式会社 Package, manufacturing method and manufacturing apparatus thereof
JP2594068B2 (en) * 1987-10-30 1997-03-26 呉羽化学工業株式会社 Cylindrical film package filled with processed food
FR2778631B1 (en) * 1998-05-14 2002-08-23 Nordson Corp PROCESS AND INSTALLATION FOR PACKAGING A STICKY PRODUCT AND SIMILAR PRODUCTS
US5185455A (en) 1992-02-18 1993-02-09 Monsanto Company Method for improving the performance of VPO catalysts
JPH0698684A (en) 1992-09-21 1994-04-12 Masami Sangyo Kk Preparation of food stuffed with bean jam
JP4368588B2 (en) * 2003-01-16 2009-11-18 太陽インキ製造株式会社 Filling equipment
JP4972290B2 (en) * 2005-04-27 2012-07-11 ハイテック株式会社 Manufacturing method and manufacturing apparatus for filling material having twisted portion
US7726098B2 (en) * 2007-05-01 2010-06-01 Kraft Foods Global Brands Llc Method for manufacturing an ingredient package
JP2008295428A (en) * 2007-06-04 2008-12-11 Rheon Autom Mach Co Ltd Dividing apparatus for food dough
JP5399876B2 (en) 2009-12-07 2014-01-29 株式会社紀文食品 Bailing product manufacturing equipment
JP2012066827A (en) * 2010-09-22 2012-04-05 Wakou Shokuhin Co Ltd Device and method for producing small bag packed with fluid containing solid

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006193175A (en) * 2005-01-12 2006-07-27 Daiwa Can Co Ltd Packing and sealing method for viscous fluid containing solid
JP2013001398A (en) * 2011-06-13 2013-01-07 Fujimori Kogyo Co Ltd Cylindrical sealed package and method for manufacturing the same
CN103238914A (en) * 2012-02-14 2013-08-14 兵神装备株式会社 Multilayer food manufacturing apparatus, multilayer product manufacturing apparatus and manufacturing method of multilayer product

Also Published As

Publication number Publication date
CN104970167A (en) 2015-10-14
TW201600332A (en) 2016-01-01
JP2015198602A (en) 2015-11-12
CN104970167B (en) 2021-03-16
KR20150116779A (en) 2015-10-16
JP6396064B2 (en) 2018-09-26
KR102408286B1 (en) 2022-06-14

Similar Documents

Publication Publication Date Title
TWI650239B (en) Multilayer product manufacturing apparatus and multilayer product manufacturing method
JP5185455B1 (en) Multilayer food manufacturing apparatus, multilayer product manufacturing apparatus, and multilayer product manufacturing method
US20030207006A1 (en) Method and system for preparing multiple variety pouched products
JP2015526072A (en) Method and system for forming a food putty
JPH03200506A (en) Automatic packaging filling device for ground fishery product
JPH0471476A (en) Forming of food and equipment therefor
ITPI20060061A1 (en) DISTRIBUTOR FOR HOT FOOD PRODUCT
TWI388283B (en) Manufacture of solid food products
JP2011120511A (en) Apparatus for producing wrapped food
DK2358211T3 (en) Device for continuous production by extrusion cooking of a food product containing whole and solid pieces, as well as an extrusion machine equipped with such a device
JP4274569B2 (en) Method and apparatus for extruding food material
TWI468115B (en) A system in which the edible food of the liquid is filled in the center is
TWI699168B (en) Method and device for manufacturing stuffed food containing solid objects
JP7292275B2 (en) Fixed-quantity division unit, fixed-quantity division method, and food manufacturing method
CN211444181U (en) Sandwich fried ball blank discharging mechanism and processing equipment
TW201106876A (en) Polyphenols preparation excellent in preservation stability
KR101671412B1 (en) Manufacturing device of dumpling-shaped fish paste
EP1875806A1 (en) Method and device for manufacturing packing material with twisted part
JPH0239875A (en) Food forming apparatus and forming method
JP2012017140A (en) Constant quantity delivery device for food
CN116473200A (en) Chicken fillet processing method and device
JP6955728B2 (en) Gas filling nozzle holding device for packaging machines
JPH11206309A (en) Production of lump-like enfolded food comprising enfolded wet ingredient and device therefor
JP2003158989A (en) Production machine for corrugated noodle
KR20160002966U (en) Rice cake manufacturing equipment