WO2014084104A1 - ロール状転写フィルムのプリントマーク転写システム - Google Patents
ロール状転写フィルムのプリントマーク転写システム Download PDFInfo
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- WO2014084104A1 WO2014084104A1 PCT/JP2013/081325 JP2013081325W WO2014084104A1 WO 2014084104 A1 WO2014084104 A1 WO 2014084104A1 JP 2013081325 W JP2013081325 W JP 2013081325W WO 2014084104 A1 WO2014084104 A1 WO 2014084104A1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F3/00—Cylinder presses, i.e. presses essentially comprising at least one cylinder co-operating with at least one flat type-bed
- B41F3/46—Details
- B41F3/54—Impression cylinders; Supports therefor
- B41F3/56—Devices for adjusting cylinders relative to type-beds and setting in adjusted position
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F16/00—Transfer printing apparatus
- B41F16/02—Transfer printing apparatus for textile material
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F16/00—Transfer printing apparatus
- B41F16/0006—Transfer printing apparatus for printing from an inked or preprinted foil or band
- B41F16/004—Presses of the reciprocating type
- B41F16/0046—Presses of the reciprocating type with means for applying print under heat and pressure, e.g. using heat activable adhesive
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F16/00—Transfer printing apparatus
- B41F16/0006—Transfer printing apparatus for printing from an inked or preprinted foil or band
- B41F16/0073—Transfer printing apparatus for printing from an inked or preprinted foil or band with means for printing on specific materials or products
Definitions
- the present invention relates to a print mark of a roll-shaped transfer film in which a plurality of print marks configured in an arbitrary shape of various colors are continuously arranged at equal intervals on a roll-shaped plastic base film wound in multiple layers.
- the present invention relates to a print mark transfer system for a roll-like transfer film that enables continuous and continuous transfer to various transfer objects such as fabrics and improves productivity.
- Conventional transfer film MF ′ (generic name for MFa ′, MFb ′, MFc ′, ⁇ ) is generally formed by cutting a plastic base film F ′ one by one into, for example, a 30 cm ⁇ 40 cm strip.
- Various print marks M ′ (a general term for Ma ′, Mb ′, Mc ′, and ⁇ ) are printed on each sheet so as to be commercialized. Then, as shown in FIG. 13, a fabric setting process for setting the fabric K ′ on the transfer table T ′, and the transfer film MF ′ so as to align the print mark M ′ with a predetermined position on the set fabric K ′.
- a mark setting process for setting the film a pressing process for pressing the transfer film MF ′ set on the fabric K ′ at the press part Td ′ of the transfer table T ′, and a plastic base film F ′ on the upper surface of the pressed transfer film MF ′.
- a print mark M ′ is formed on the cloth K ′ through the film peeling process to be peeled off (fabric transfer process).
- the conventional transfer film MF ′ disclosed in Patent Document 1 requires the plastic base film F ′ to be cut into strips for each sheet, and the print mark M ′ needs to be bonded together. Since it is necessary to place “transfer film MF” on each sheet at the position to be bonded using a pattern paper, laser pointer, etc., an advanced positioning sensor to ensure positioning accuracy such as bonding In addition to the need for technology, these manufacturing processes were difficult to automate and were inefficient.
- the present invention has been made in view of the above-described problems of the prior art, and the purpose thereof is a roll in which a plurality of print marks configured in various shapes of various colors are continuously formed on a roll-shaped film.
- a roll that improves the productivity by simplifying and automating the print mark transfer process by sequentially and continuously transferring the transfer marks on the film transfer film to various transfer objects such as fabrics made of fiber or leather. It is to provide a print mark transfer system for a film-like transfer film.
- a print mark transfer system for a roll-shaped transfer film of the present invention comprises a plurality of print marks formed in an arbitrary shape of various colors on a roll-shaped plastic base film wound in multiple layers.
- a print mark transfer system for a roll-like transfer film that sequentially and continuously heat-transfers to various transfer objects including a fabric made of leather, wherein the roll-like transfer film can be drawn out and rewound by a drawing means and a rewinding means.
- a pair of first guide roller and second guide roller which are horizontally guided across the transfer direction, and are arranged between the first guide roller and the second guide roller so as to be movable up and down.
- a pressure heating means that applies a pressure to the transferred material from above and has a heating function.
- One of the roll-shaped transfer films sequentially transferred via the position sensor and the positioning mark using a continuous transfer machine having a position sensor for detecting the positioning mark provided between the adjacent print marks.
- the print mark is continuously transferred to a transfer object which is positioned and repeatedly placed one by one on the transfer table so as to match with one print mark position.
- the roll mark transfer film print mark transfer system includes a pattern drawing on which a transferred object plane reference diagram adapted to the planar shape of the transferred object and a print mark outline reference figure adapted to the outline of the print mark are drawn.
- a pattern making process to create, a print mark outline reference hole opening process for making an outline reference hole of the print mark along the print mark outline reference frame on the pattern, and a print mark position on the roll-shaped transfer film A position sensor setting step for setting the position sensor of the transfer machine so as to match the pressure surface; and a sheet of paper is laid on a first thick silicon rubber provided on the transfer table, and the press unit
- a second thick silicon rubber setting step for placing the thick silicon rubber together, and a target for placing the transferred material on the
- the press part automatically peels off the plastic base film from the printed mark transferred to the transferred object after pressing the print mark position of the roll-shaped transfer film. Then, it moves upward and retracts.
- the print mark part is composed of a release layer obtained by uniformly applying a release agent made of an organic substance that can be removed by baking on the plastic base film, and an organic layer that can be removed by baking, and a pattern layer (ink layer) before baking. ),
- a pattern layer processed and formed into an arbitrary shape using printing techniques including screen, offset, ink jet, and color copying, and durability against washing, friction, and elongation including dry cleaning.
- a powdered hot melt having a particle size of approximately 50 to 300 ⁇ m selectively formed from a polymer material containing slag is sprayed, dried and fixed, and then heated after removing the excess powdered hot melt that is not fixed. , And an adhesive layer that adheres to the transfer object.
- a continuous transfer machine by using a continuous transfer machine, a plurality of print marks formed in an arbitrary color shape on a roll-shaped plastic base film wound in multiple turns are sequentially and continuously repeated on various objects to be transferred.
- conventional transfer mark systems require complicated manual operations such as strip-shaped cutting for each transfer film, positioning set by bonding print marks and patterns, and final base film removal.
- it is easy to automate by omitting these complicated manual operations, and there is an effect that it is possible to provide a print mark transfer system for a roll-shaped transfer film that greatly improves production efficiency.
- the positioning set of the print mark, the pattern and the transfer object in the continuous transfer machine of the present invention easily improves the positioning accuracy via the position sensor and the positioning mark of the roll-shaped transfer film, and once at the beginning.
- the transfer object can be continuously and thermally transferred to the same position of the transfer object repeatedly by placing it on the transfer object planar shape frame position of the pattern paper which is always a fixed position. Therefore, it has the effect of significantly increasing production efficiency.
- the plastic base film is accompanied and moved upwards and retracted, so that the manual operation is performed manually. There is an effect that it is easy to automatically perform the plastic base film peeling step from the print mark transferred to the transferred object.
- the adhesive layer in the print mark portion of the roll-shaped transfer film of the present invention is formed by a simple means of spraying and fixing a powdered hot melt, various image pattern layers (ink layers) and functional layers. Since an adhesive layer corresponding to (hiding layer, ink layer) can be formed, not only when producing a large amount of a roll-shaped transfer film of the same image ink layer, but also a roll-shaped transfer film of an ink layer of different images Even when a small amount is produced, the production cost can be reduced, and in particular, the thickness of the adhesive layer corresponding to the transfer object having an uneven surface such as cotton cloth can be easily adjusted.
- FIG. 1 is a photograph of a main part for explaining the transfer process of the embodiment of Fig.
- FIG. 6A is a main part photograph for explaining a transfer process subsequent to FIG. 6.
- FIG. 6A is a diagram illustrating a transfer step of a continuous transfer machine according to an embodiment of the present invention (Example 1) following FIG.
- FIG. 1 shows a roll-shaped transfer film setting step for setting a roll-shaped transfer film on a continuous transfer machine with a thick silicon rubber
- (b) shows a print mark position setting step for setting the position of a print mark on the transfer machine.
- 7 (a) is a photograph of the main part for explaining the transfer process following FIG. 7.
- (a) is the same as FIG. 7 (b) so that the print mark position of the roll-shaped transfer film matches the press pressure surface of the continuous transfer machine.
- B) is the press of the continuous transfer machine by lowering the press part of the continuous transfer machine in the state where the position of the print mark is rewound by one frame following (a).
- FIG. 8A is a photograph of the main part for explaining the transfer process subsequent to FIG. 8, and FIG. 8A is a continuous transfer by placing a sheet of paper on the first thick silicon rubber on the transfer stand, following FIG. 8B. Pressing the print mark part of the roll-shaped transfer film with the press part of the machine, (b) is the lower paper transfer process in which the press part is pulled up and the print mark is transferred to the lower paper following (a).
- Show. 9A is a photograph of the main part for explaining the transfer process subsequent to FIG. 9.
- FIG. 9A shows a pattern on the lower paper on which the print mark is transferred, and the print mark on the lower paper.
- (B) is a second thick plate for placing the second thick plate silicon rubber on the print mark outer shape reference holes of the pattern following (a).
- the silicon rubber setting process is shown.
- 10A is a photograph of the main part for explaining the transfer process subsequent to FIG. 10.
- FIG. 10A shows the pattern printing after removing the second thick silicon rubber from the reference mark outer shape reference hole of the pattern after FIG. 10B.
- (B) is the same as the outer shape reference plane of the cloth on the template on the transfer table.
- the dough setting process which mounts according to a figure frame is shown.
- 11B is a main part photograph for explaining the transfer process subsequent to FIG. 11B, in which the print mark position of the roll-shaped transfer film is pressed onto the cloth on the transfer table by the press unit of the continuous transfer machine. The dough transfer process in the transferred state is shown. It is a conceptual diagram for demonstrating the transfer process of the conventional transfer mark system.
- the print mark transfer system for a roll-shaped transfer film includes a plurality of print marks M (Ma, Mb) formed in an arbitrary shape of various colors on a roll-shaped plastic base film F that is wound in multiple layers.
- Mc ---) is a print mark transfer system for a roll-shaped transfer film that sequentially and continuously transfers heat to various transfer materials K including fabrics made of fibers or leather.
- a print mark transfer system for a roll-shaped transfer film is a roll-shaped transfer film that can be drawn and rewound by unillustrated drawing means and rewinding means.
- a pressurizing and heating unit that applies pressure to the film MF and the transfer target K from above and has a heating function, and a press part Td that protrudes downward from the pressurization surface Tp that covers the outer shape of the print mark M; And a transfer stand Te that receives a pressing force facing the pressing surface Tp of the press portion Td, and each adjacent pre-set of the roll-shaped transfer film MF.
- a continuous transfer machine T having a position sensor Tc for detecting a positioning mark H (see FIG. 1) provided between the marks Ma, Mb, Mc ---, and passing through the position sensor Tc and the positioning mark H.
- the transfer table is positioned so as to be aligned with the position of one of the print marks Ma, Mb, Mc --- (usually the first print mark Ma, for example) of the roll-shaped transfer film MF that is sequentially transferred.
- Print marks M (Ma, Mb, Mc ---) are continuously transferred to the transfer object K which is repeatedly placed one by one on Te.
- the print mark M portion of the roll-shaped transfer film MF can be applied with a known thermal transfer technique, and thus detailed description thereof is omitted, but as shown in a conceptual cross-sectional view in FIG.
- a plastic base film F made of PET (polyethylene terephthalate) film or the like
- a release layer 2 made of an organic material that can be baked and removed
- a pattern layer 4 made of an organic material that can be baked and removed to reinforce the polishing layer
- Protective layer 3 that imparts and protects wearability, washing resistance, etc.
- K Adhesive layer 7 Made of the same organic material as the protective layer, and heat-processed from the resin layer 6 that promotes adhesion between the functional layer and the adhesive layer, and further from the powdery hot melt 7a, and comes into contact with the transferred material K Adhesive layer 7, but is formed by sequentially stacking.
- the roll transfer film manufacturing apparatus E is an appearance photograph of FIG. As shown in FIG. 2, an inkjet printer unit, a plastic base film cassette mechanism unit, and a computer control unit for controlling them are provided.
- a plurality of, for example, five rows are sequentially baked and removed on a wide plastic base film F made of PET film or the like. Protection that protects by providing a release layer 2 uniformly coated with a release agent made of an organic material, an organic material that can be baked and removed, and reinforcing a pattern layer 4 before baking to provide abrasion resistance and washing resistance.
- Layer 3 design layer (ink layer) 4 processed and formed into an arbitrary shape using printing techniques including screen, offset, ink jet, color copy, durable against washing, friction and elongation including dry cleaning
- a functional layer (hiding layer, ink layer) 5 in which a synthetic resin containing water-based urethane and acrylic is processed by screen printing is laminated (print mark color marking Step S1).
- an organic material similar to the protective layer is processed by screen printing, the resin layer 6 that promotes adhesion between the functional layer 5 and the adhesive layer 7, and the transferred material on the processed wet resin layer 6.
- Ink layer which does not fix after spraying powdery hot melt 7a with a particle size of approximately 50-300 ⁇ m selectively formed from polymer material such as urethane, nylon, polyester, EVA, etc. by K material, drying and fixing 4.
- Adhesive layer 7 that is formed by removing excess powdery hot melt 7b around 4 and 5 with air and a rotating brush and then fixing by heating (baking), for example, at 150 ° C. for 120 seconds, Are sequentially laminated (resin layer, adhesive layer printing step S2).
- the number of times of screen printing is selected according to the required strength and conditions.
- thermoplastic resin The type, particle size, and thickness of the thermoplastic resin are selected for the adhesive layer 7 in accordance with the material of the transfer target K in order to maintain appropriate adhesive strength.
- a plurality of print marks M ( Ma, Mb, Mc ---) are connected to the middle portion of the positioning mark H (FIG. 1) provided at equal intervals in each row at the same time, and finally the rows are slit in the longitudinal direction (slit process S3 ), Through the inspection process S4, a roll-shaped transfer film MF having a plurality of rolls, for example, 5 rolls, is manufactured (roll-up finishing process S5) and shipped.
- Print mark transfer method In the following, in the print mark transfer system for a roll-shaped transfer film of Example 1, a continuous transfer machine T is used, and a plurality of roll-shaped transfer films MF are sequentially transferred one by one to a fabric K made of, for example, fibers as a transfer object K. A method for continuously transferring the print marks M one by one will be described with reference to FIG. 1 and FIGS.
- the print mark M of this embodiment is formed by forming, for example, a brand name, a size name, a care label, etc. in an arbitrary color shape on a fabric K as a transfer object.
- a paper pattern P on which a plane reference diagram Pa matched to the planar shape of the material K, which is a transfer object, and a print mark outline reference diagram Pb matched to the outline of the print mark M is drawn. Create (pattern making process).
- the print mark outer shape reference hole Pb1 that matches the print mark outer shape reference diagram Pb is formed in the pattern P (print mark outer shape reference hole opening step).
- the first thick silicon rubber Si1 is laid on the transfer stand Te of the continuous transfer machine T according to one embodiment of the present invention, and the roll transfer is performed on the continuous transfer machine T.
- the film MF is set (rolled transfer film setting step).
- the position of the roll-shaped transfer film MF is set so that the position of the first print mark Ma of the roll-shaped transfer film MF matches the press-pressing surface Tp of the continuous transfer machine T. (Print mark alignment setting process).
- the position sensor Tc of the continuous transfer machine T in the print mark alignment set state of the roll-shaped transfer film MF is set (position sensor setting step).
- the press portion Td of the continuous transfer machine T is lowered and idle-pressed in a state where the position of the first print mark Ma of the roll-shaped transfer film MF is rewound by one frame.
- the print mark position correction is automatically performed at the normal start (print mark position correction idle press process).
- the lower sheet P1 is laid on the first thick silicon rubber Si1 provided on the transfer table Te, and the print mark Ma on the roll-shaped transfer film MF is pressed by the press portion Td. The position is pressed to transfer the print mark Ma to the lower paper P1 (lower paper transfer process).
- the pattern paper P is placed on the lower paper P1 to which the print mark Ma is transferred, and the print mark outer shape reference hole Pb1 is placed on the print mark Ma on the lower paper P1. (Pattern setting process).
- the second thick silicon rubber Si2 is placed on the print mark outer shape reference hole Pb1 of the pattern P (second thick silicon rubber setting step).
- the second thick silicon rubber Si2 on the print mark outline reference hole Pb1 of the pattern P is removed, and the lower sheet P1 that matches the print mark outline reference hole Pb1 of the pattern P is removed.
- a thin silicon rubber Si3 is placed on the print mark Ma (thin silicon rubber setting step).
- the first thick plate silicon rubber Si1, the second thick plate silicon rubber Si2, and the thin plate silicon rubber Si3 are all pressurizing and heating means for portions other than the print mark M portion of the pattern paper P, the lower paper P1, and the fabric K.
- a function of preventing press traces and thermal damage due to the portion Td and preventing lateral misalignment of the pattern paper P, the lower paper P1, and the fabric K is expected.
- the fabric K is placed on the pattern P on the transfer table Te in accordance with the fabric outline reference plan view Pa frame (fabric setting step).
- the next print mark position MFb which is drawn out from the roll-shaped transfer film MF by a drawing means (not shown) of the continuous transfer machine T, is printed on the cloth K on the transfer table Te by the press portion Td. And the print mark Mb is transferred (material transfer step).
- the above-described print mark transfer system for a roll-shaped transfer film according to the present invention can be arbitrarily applied to a roll-shaped plastic base film F wound in a multiple manner by using a continuous transfer machine T as conceptually shown in FIG.
- a conventional transfer mark system a plurality of print marks M formed in a color shape are repeatedly and continuously thermally transferred to various transferred materials K, so that in a conventional transfer mark system, strip-shaped cutting, print marks and patterns for each transfer film.
- operations such as positioning set by pasting and peeling of the final base film are complicated and require manual intervention (see FIG. 12). However, these complicated manual operations can be easily omitted and automated.
- the positioning set of the print mark M, the pattern paper P, and the transfer object K in the continuous transfer machine T of the present invention easily improves the positioning accuracy via the position sensor Tc and the positioning mark H of the roll-shaped transfer film MF.
- the transfer object K is repeatedly and sequentially placed by placing the transfer object K in accordance with the frame reference position of the transfer object outline reference plan view Pa of the pattern P, which is always a fixed position. It is possible to perform thermal transfer continuously at the same position, greatly increasing production efficiency.
- the transfer material K in the roll transfer film print mark transfer system of the present invention is not limited to the fabric of Example 1 above, but includes an apron, a bee, a towel, a handkerchief, an arm cover, and a happy coat. , Shirts, jackets, kimono, cosplay, various clothing items including armbands, banners, warmth, table covers, banner stands, textiles or fabric products including tents, leather, vinyl, plastic, rubber, paper, etc. It can be applied to a wide variety of other transferred materials such as bags made of materials or bag products.
- the roll transfer film print mark transfer system of the present invention uses a continuous transfer machine T to form a plurality of print marks M formed in an arbitrary color shape on a roll-shaped plastic base film F that is wound in multiple layers. Is repeatedly and continuously thermally transferred to various transferred materials K, thereby facilitating automation without complicated manual work. And the positioning set of the print mark M, the pattern paper P, and the transfer object K in the continuous transfer machine T of the present invention easily improves the positioning accuracy via the position sensor Tc and the positioning mark H of the roll-shaped transfer film MF. At the same time, after the initial positioning and setting, the transfer object K is repeatedly and sequentially placed by placing the transfer object K in accordance with the frame reference position of the transfer object outline reference plan view Pa of the pattern P, which is always a fixed position.
- the transferred material K is not limited to fabrics and the like, but also includes various items of clothing including apron, bee maki, towels, handkerchiefs, arm covers, happis, shirts, jackets, kimonos, cosplay, armbands, etc.
- Applicable to a wide variety of transfer materials such as banners, warmth, table covers, banner stands, textile or fabric products including tents, bags or bag products made of various materials such as leather, vinyl, plastic, rubber, paper, etc. Therefore, the present invention can be suitably applied to a sporting goods company, a textile company, a printing company, and other sheet product industries that handle a wide variety of sheet products.
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Abstract
Description
ロール状転写フィルムMFの製造方法は、公知の熱転写技術を適用することもできるので詳細な説明は省略するが、本発明の一実施形態のロール状転写フィルム製造装置Eは、図5の外観写真に示すように、いずれも符号を付記しないインクジェットプリンター部、プラスチックベースフィルムカセット機構部、それらを制御するコンピュータ制御部などを備えている。
以下に、実施例1のロール状転写フィルムのプリントマーク転写システムにおいて、連続式転写機Tを用い、被転写物Kとして例えば繊維からなる生地Kに順次1枚ずつロール状転写フィルムMFの複数のプリントマークMを一つずつ連続的に転写する方法を、図1及び図6~図12を参照して説明する。この実施例のプリントマークMは、被転写物である生地Kなどに例えばブランドネーム、サイズネーム、ケアラベルなどが任意色彩の形状に構成され形成される。
3 保護層
4 図柄層(インキ層)
5 機能層(隠蔽層、インキ層)
6 樹脂層
7 接着層
7a 粉末状ホットメルト(定着した粉末状ホットメルト)
7b (定着しない)粉末状ホットメルト
E ロール状転写フィルム製造装置
F、F’ プラスチックベースフィルム
H 位置決めマーク
J ベースフィルム当接具
K、 被転写物(生地)
M、Ma、Mb、Mc、‐‐‐、M’、Ma’、Mb’、Mc’、‐‐‐ プリントマーク
MF ロール状転写フィルム
MF’、MFa’、MFb’、MFa’、‐‐‐ 転写フィルム
P 型紙
Pa 被転写物(生地)外形平面基準図
Pb プリントマーク外形基準図
Pb1 プリントマーク外形基準孔
P1 下紙
Si1 第1の厚板シリコンゴム
Si2 第2の厚板シリコンゴム
Si3 薄板シリコンゴム
T 連続式転写機
Ta 第1ガイドローラ
Tb 第2ガイドローラ
Tc 位置センサ
Td プレス部
Te 転写台
Tp 加圧面
Claims (4)
- 多重に回巻されたロール状のプラスチックベースフィルムに各種色彩の任意形状に形成された複数のプリントマークを繊維あるいは皮革からなる生地を含む各種被転写物に順次繰返し連続的に熱転写するロール状転写フィルムのプリントマーク転写システムであって、
引出し手段及び巻戻し手段により引き出し及び巻戻し可能な前記ロール状転写フィルムを水平方向に掛け渡して転送ガイドする一対の第1ガイドローラ及び第2ガイドローラと、
前記第1ガイドローラ及び第2ガイドローラの間に上下移動自在に配置され、前記ロール状転写フィルム及び前記被転写物に上から圧力を加えるとともに加熱機能を備える加圧加熱手段であり、前記プリントマークの外形をカバーする加圧面が下方に突出するプレス部と、
前記被転写物が載置され、前記プレス部の加圧面に対向して加圧力を受ける転写台と、
前記ロール状転写フィルムの各隣接するプリントマークの間に設けられた位置決めマークを検知する位置センサと、を有する連続式転写機を用い、
前記位置センサ及び位置決めマークを介して、順次転送される前記ロール状転写フィルムの一つのプリントマーク位置に合わせるように、位置決めされて前記転写台上に順次1つずつ繰返し載置される被転写物に連続的に前記プリントマークを転写することを特徴とするロール状転写フィルムのプリントマーク転写システム。 - 前記被転写物の平面形状に合わせた被転写物平面基準図及びプリントマークの外形に合わせたプリントマーク外形基準図を描いた型紙を作成する型紙作成工程と、
前記型紙に前記プリントマーク外形基準図枠に沿ってプリントマークの外形基準孔を明けるプリントマーク外形基準孔開明工程と、
前記ロール状転写フィルムのプリントマーク位置が前記プレスの加圧面に合致するように前記転写機の位置センサをセットする位置センサセット工程と、
前記転写台上に設けられた第1の厚板シリコンゴムの上に下紙を敷いて前記プレス部により前記ロール状転写フィルムのプリントマーク位置をプレスして下紙にプリントマークを転写する下紙転写工程と、
前記プリントマークが転写された下紙の上に型紙をプリントマーク外形基準孔に合わせて敷く型紙セット工程と、
前記型紙のプリントマーク外形基準孔上に第2の厚板シリコンゴムを合わせて載置する第2の厚板シリコンゴム板セット工程と、
前記転写台上の型紙の上に前記被転写物を被転写物外形基準平面図枠に合わせて載置する被転写物セット工程と、
前記連続式転写機の引出し手段により前記ロール状転写フィルムの一コマ引出された次のプリントマーク位置を前記プレス部により前記転写台上の被転写物上にプレスして前記プリントマークを転写する被転写物転写工程と、を有することを特徴とする請求項1に記載のロール状転写フィルムのプリントマーク転写システム。 - 前記各被転写物転写工程の最終段階で、
前記プレス部が前記ロール状転写フィルムのプリントマーク位置プレス後に、被転写物に転写されたプリントマークからプラスチックベースフィルムを自動的に剥離し同伴して上方に移動し退避することを特徴とする請求項1又は請求項2に記載のロール状転写フィルムのプリントマーク転写システム。 - 前記プリントマーク部は、
前記プラスチックベースフィルム上に、
焼成除去可能な有機物からなる離型剤を均一に塗布した剥離層と、
焼成除去可能な有機物からなり、焼成前の図柄層を保護する保護層と、
スクリーン、オフセット、インクジェット、カラーコピーを含む印刷技法を用いて任意形状に加工され形成された図柄層と、
ドライクリーニングを含む洗濯、摩擦、伸びに対して耐久性を有するウレタン、アクリルを含む合成樹脂がスクリーン印刷にて加工された機能層(隠蔽層、インキ層)と、
保護層と同様の有機物がスクリーン印刷にて加工され、機能層(隠蔽層、インキ層)と接着層の間の接着を助長する樹脂層と、
前記加工されたウエット状態の樹脂層上に前記被転写物の素材によりウレタン、ナイロン、ポリエステル、EVAを含む高分子材料から選択的に形成される粒度が略50~300μmの粉末状ホットメルトを散布し乾燥して定着させた後、前記定着しない余分な粉末状ホットメルトを除去して加熱し形成され、前記被転写物に接着する接着層と、が順次積層されて形成されることを特徴とする請求項1乃至請求項3のいずれか1項に記載のロール状転写フィルムのプリントマーク転写システム。
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JP2014550144A JP6023215B2 (ja) | 2012-11-30 | 2013-11-20 | ロール状転写フィルムのプリントマーク転写方法 |
US14/647,941 US20150306865A1 (en) | 2012-11-30 | 2013-11-20 | Print-mark transfer system for roll-shaped transfer film |
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WO2021029003A1 (ja) * | 2019-08-10 | 2021-02-18 | 株式会社松井色素化学工業所 | 布状製品類用印刷転写装置及び方法 |
WO2022075589A1 (ko) * | 2020-10-07 | 2022-04-14 | (주)아셈스 | 원사의 무수 염색 시스템 |
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CN103332003B (zh) * | 2012-11-30 | 2016-06-22 | 尾崎正博 | 卷筒状转印膜的印刷标签转印系统 |
CN104149506B (zh) * | 2014-04-22 | 2016-05-11 | 上海紫江喷铝环保材料有限公司 | 一种适合凹印定位套印的全息防伪图案的转移方法 |
CN112223893A (zh) * | 2020-09-25 | 2021-01-15 | 鹤山市新易高鞋业有限公司 | 一种鞋垫转印机 |
TWI831141B (zh) * | 2022-03-03 | 2024-02-01 | 捷欣企業股份有限公司 | 皮件的製作方法 |
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- 2013-11-20 US US14/647,941 patent/US20150306865A1/en not_active Abandoned
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CN103332003A (zh) | 2013-10-02 |
CN103332003B (zh) | 2016-06-22 |
JPWO2014084104A1 (ja) | 2017-01-05 |
US20150306865A1 (en) | 2015-10-29 |
CN203305646U (zh) | 2013-11-27 |
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