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JPS63242563A - Portable light-irradiation device - Google Patents

Portable light-irradiation device

Info

Publication number
JPS63242563A
JPS63242563A JP62077030A JP7703087A JPS63242563A JP S63242563 A JPS63242563 A JP S63242563A JP 62077030 A JP62077030 A JP 62077030A JP 7703087 A JP7703087 A JP 7703087A JP S63242563 A JPS63242563 A JP S63242563A
Authority
JP
Japan
Prior art keywords
light
heat
image area
irradiation device
light irradiation
Prior art date
Legal status (The legal status 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 status listed.)
Pending
Application number
JP62077030A
Other languages
Japanese (ja)
Inventor
Shiro Saito
史郎 齋藤
Kimio Taniguchi
谷口 喜三雄
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP62077030A priority Critical patent/JPS63242563A/en
Publication of JPS63242563A publication Critical patent/JPS63242563A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J3/00Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
    • B41J3/28Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for printing downwardly on flat surfaces, e.g. of books, drawings, boxes, envelopes, e.g. flat-bed ink-jet printers

Landscapes

  • Printers Characterized By Their Purpose (AREA)
  • Electronic Switches (AREA)

Abstract

PURPOSE:To enable required image information to be easily copied, regenerated, and colored with a desired size and layout, by a method wherein, in the state that a thermosensitive body having light transmission properties is laid over an original plate, a title device radiates light only to a required position of the original plate while depressing down the thermosensitive body to bring it into pressure contact with the original plate, thereby heating an image area. CONSTITUTION:A portable light-irradiation device 3 is so used as to trace horizontally, continuously, and depressingly a required image area of an original plate 1 through a thermosensitive body 2 or depress down vertically only a desired position. If, in a light-irradiated part of an original plate 1, for example, an image area 1a to be a black radiation source absorbs a light energy to generate heat, the thermosensitive body 2 is subjected to heat efficiently because it is in pressure contact with this heated image area 1b. Then, a coloring layer 2a is softened to adhere to the heated image area 1b, whereby the required image area is colored. The thermosensitive body 2 consists of the coloring layer 2a of the combination of dye, pigment, wax, resin, and others and a substrate 2b of polyester film, etc. supporting the coloring layer 2a.

Description

【発明の詳細な説明】 〔技術分野〕 本発明は、印刷物などの画像情報を被記録体に複写した
り、画像情報に着色を加えたりするための携帯用光照射
装置である。
DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention is a portable light irradiation device for copying image information such as printed matter onto a recording medium and adding color to image information.

〔従来技術〕[Prior art]

印刷物の画像情報を複写する場合、静電式複写装置や感
熱式複写装置を用いるのが一般的であるが従来の複写装
置は比較的太き(重いため手元で手軽に使用するには程
遠いものである。最近、持ち運び可能な静電式複写機が
安く発売されるようになったが価格や大きさに限度が有
り誰れでもが手軽に使えるものでない。又、複写したい
時に手軽に複写できる携帯用複写装置としてイメージス
キャナとサーマルプリンターを一体にした製品が商品化
され話題を呼んでいるが、複写できる被記録体の幅が製
品幅内に限定されるため携帯用としての用途を考慮する
と複写幅を広くとることはできないし常に一定の幅でし
か複写できないというのも何か物足りない気がする。こ
れら前述の従来の複写装置は前記欠点に加えて印刷物の
画像情報の所望の情報だけを被記録体に手軽に選別して
複写できるものでな(、まして幾枚かの印刷物の所望の
情報だけを1枚の被記録体に重ね合わせて複写する如き
はかなりの手間を要するか高額な複写装置を用いるしか
ない。これを満足するためにペン型イメージスキャナー
とプリンターとを分離したことを特徴とする携帯用複写
装置(商品名;ハンディコピーZ−HCI)が発売され
てきたが、プリンターの大きさで被記録体の複写幅が限
定されてしまうことと共に構成上価格の大幅な低下は期
待できないという欠点がある。一方印刷物の画像区域と
非画像区域との光線の吸収度の差を利用して印刷物の画
像情報を被記録体に複写するという考え方が、特許公報
昭36−14241、特許公報昭39−20299、公
開特許公報昭58−219084等古くから出願されて
いる。しかし、真に市場ニーズを満足する携帯性と実用
性を備えた考案や商品化は残念ながら成されていないの
が現状であり、電卓のように携帯に便利でいつでもどこ
でも手軽に所望の画像情報を所望のサイズとレイアウト
で複写再生したり着色したりする安価な装置が待たれて
いる。
When copying image information from printed matter, it is common to use electrostatic copying devices or thermal copying devices, but conventional copying devices are relatively thick (and heavy, so they are far from easy to use at hand). Recently, portable electrostatic copying machines have become available on the market at low prices, but they are limited in price and size, so not everyone can use them easily.Also, it is easy to make copies when you want to make copies. A product that combines an image scanner and a thermal printer has been commercialized as a portable copying device and is attracting attention, but since the width of the recording medium that can be copied is limited to the width of the product, it is difficult to consider its use as a portable copying device. I feel that something is missing in that it is not possible to make a wide copy width, and that copies can only be made at a constant width.In addition to the above-mentioned drawbacks, these conventional copying devices are unable to copy only the desired image information of printed matter. It is not possible to easily select and copy onto a recording medium (and it is even more difficult and expensive to overlap and copy only the desired information from several sheets of printed material onto a single recording medium). The only option is to use a copying device.In order to satisfy this requirement, a portable copying device (product name: Handy Copy Z-HCI) has been released that features a pen-type image scanner and a printer separated. The disadvantage is that the copying width of the recording medium is limited by the size of the recording medium, and a significant reduction in price cannot be expected due to the structure. The idea of copying the image information of a printed matter onto a recording medium by using this technology has been applied for a long time, such as in Patent Publication 14241-1982, Publication 20299-1982, and Publication of Japanese Patent Publication 219084-1984. Unfortunately, at present, there has been no invention or commercialization that is portable and practical enough to satisfy market needs. An inexpensive device for copying, reproducing, and coloring according to size and layout is awaited.

〔目的〕〔the purpose〕

本発明は、印刷物などの光線を吸収する画像区域を有す
る原版の所望の部分の画像区域のみを所望のレイアウト
で所望のサイズの被記録体に[したり、原版の所望の画
像区域のみを所望の色に着色したりできる携帯用光照射
装置を提供することを目的とする。
The present invention allows only the image area of a desired part of an original plate having an image area that absorbs light rays, such as a printed matter, to be recorded on a recording medium of a desired size in a desired layout, or only the desired image area of an original plate as desired. The purpose of the present invention is to provide a portable light irradiation device that can be colored in different colors.

〔構成〕〔composition〕

光線のエネルギーを比較的よく吸収する例えば黒色印刷
部等の画像区域と前記画像区域に比べるとあまり光線の
エネルギーを吸収しない空白等の非画像区域とから成る
原版上に、熱で化学変化や物理変化をする要素を有し、
且つ光線を透過する感熱反応体を重ねた状態で、前記原
版の必要な箇所のみに手で感熱反応体を押接して原版に
圧着させながら光線を照射することによって所望の画像
区域を発熱させ、その熱でもって当接する感熱反応体に
変化を与えることにより前記目的を達成するものである
Chemical and physical changes caused by heat are applied to the original plate, which consists of an image area, such as a black printed area, which absorbs light energy relatively well, and a non-image area, such as a blank area, which absorbs less light energy than the image area. It has an element of change,
In addition, in a state in which heat-sensitive reactants that transmit light are stacked, heat is generated in a desired image area by irradiating the light rays while pressing the heat-sensitive reactants only on necessary parts of the original plate and pressing the heat-sensitive reactants against the original plate, The above object is achieved by using the heat to change the heat-sensitive reactant that comes into contact with it.

以下、本発明を実施例に基づいて具体的に説明する。第
1図は、本発明の一実施例の概略説明図である。1は、
原版で、書籍や複写コピーしたゼロックス用紙や手書き
ノート等の印刷物であり文字や図形等の画像区域1aか
ら成る情報が記録されている。2は、熱で変化する要素
を含む感熱反応体である。3は、ハンディタイプの携帯
用光照射装置であり感熱反応体2が原版1に圧着するよ
うに携帯用光照射装置3を感熱反応体2に手で押接して
光線を発生させる。携帯用光照射装置3は、原版1の所
望の画像区域の感熱反応体2上を、矢印Aの水平方向に
連続して押接しながらなぞって使用したり、なぞること
なく所望の箇所のみ垂直方向にスタンプ式に押接して使
用したりする。原版Iの光照射部の例えば黒色放射源と
なるような態にあるので効率良く熱を受け、感熱反応体
2の熱の影響を受ける要素は発熱画像区域1bに応じて
変化を起こす。ここで、携帯用光照射装置3がハンディ
タイプであるが故に、携帯用光照射装置3が感熱反応体
2を押接する面積が比較的小さく均一な圧着状態を得や
すいというメリットと共に光照射する作用面積が小さい
と画像区域1aを小区域単位で複写したり着色したりで
きるというメリットがある。又、携帯用光照射装置3は
、ハンディタイプで自由度があり原版1や感熱反応体2
のサイズの大小にかかわらず任意の位置の画像区域1a
を選定できるという特徴があり原版1や感熱反応体2の
サイズはどれだけ大きくても良くサイズを限定しないと
いうメリットがある。原版1と感熱反応体2は、構成上
地かの原版や感熱反応体と容易に交換でき、1枚の原版
1と複数の感熱反応体又は1枚の感熱反応体2と複数の
原版というように使用用途に応じて組み合わせを自由に
替えることができる。第1図の実施例の感熱反応体2は
、染料、顔料、ワックス、樹脂等の組み合わせから成る
着色層2aと着色層2aを支持するポリエステルフィル
ム等の支持体2bとから成り、圧着状態にある発熱した
画像区域1bの熱を受けて着色層2aが軟化して発熱画
像区域1bに付着し所望の画像区域は着色される。着色
層2aと支持体2bの間に離型層を設けても光線や画像
区域1bの熱により離型層での結合力が弱まるようにす
れば発熱画像区域1bに着色層2aを付着することがで
きる。又、支持体2b、着色層2a、接着層の順の構成
としても熱により接着層が圧着状態にある発熱画像区域
1bに付着し支持体2bと着色層2aとの結合力に打ち
勝って発熱画像区域1bを着色することができる。感熱
反応体2は、幅の広いシートであっても幅の狭いテープ
であっても良い。幅の広いシートの場合、着色層2aに
より原版1上の画像区域1aが識別しにくいことが考え
られるが、これは第2図の感熱反応体の実施例のように
着色層2aがある部分2Cと着色層2aがない透明な部
分2dとを交互に配置し着色層2aがない部分2dより
原版1の画像区域1aの情報を得れば良い。ここで、感
熱反応体2は、画像区域1aの光照射による発熱があっ
て始めて着色層2aが発熱した画像区域1bに付着する
という条件を満たすよう光線を吸収しすぎることなく透
過する必要がある。即ち、光線が感熱反応体2の着色層
等を通過する際に吸収されるエネルギーにより着色層2
aが原版1の光照射の画像区域1aに関係なく原版1に
付着することがなく、光照射による画像区域1aの発熱
が加わって始めて着色層2aが発熱した画像区域1bに
付着するエネルギーレベルに達することを意味する。又
、感熱反応体2の着色層2aによっては光線吸収により
光照射の画像区域と無関係に転写付着してしまうことが
考えられるが、これは携帯用光照射装置3に例えば可視
光線域を主に吸収し赤外線を透過するようなフィルタを
設ければ解決される。このように、これまで白黒情報で
あるのが一般的であったような原版を誰れでもが手軽に
所望の所のみカラー情報に編集できる携帯用光照射装置
3を本発明は提供する。又、発熱画像区域1bのみに着
色層2aが付着するので、感熱反応体2は着色層2aの
抜けという形で光照射した所望の画像区域を複写してお
り原版1が汚れても良いなら画像区域の複写の実施例と
いうこともできる。
Hereinafter, the present invention will be specifically explained based on Examples. FIG. 1 is a schematic explanatory diagram of an embodiment of the present invention. 1 is
The original version is a printed matter such as a book, a copy of Xerox paper, or a handwritten notebook, and information consisting of an image area 1a such as characters and figures is recorded therein. 2 is a thermosensitive reactant containing a thermally variable element. Reference numeral 3 is a handy type portable light irradiation device, and the portable light irradiation device 3 is manually pressed against the heat-sensitive reactant 2 so that the heat-sensitive reactant 2 is pressed against the original plate 1 to generate a light beam. The portable light irradiation device 3 can be used by tracing the heat-sensitive reactant 2 in the desired image area of the original plate 1 while continuously pressing it in the horizontal direction of arrow A, or by tracing only the desired area in the vertical direction without tracing. It is also used by pressing it in a stamp style. Since the light-irradiated portion of the original plate I is in a state where it becomes, for example, a black radiation source, it receives heat efficiently, and the elements of the heat-sensitive reactor 2 that are affected by the heat change depending on the heat-generating image area 1b. Here, since the portable light irradiation device 3 is a handy type, the area that the portable light irradiation device 3 presses against the heat-sensitive reactant 2 is relatively small, making it easy to obtain a uniform crimped state, and the effect of light irradiation is obtained. A small area has the advantage that the image area 1a can be copied or colored in small area units. In addition, the portable light irradiation device 3 is a handy type and has a high degree of flexibility, and can be used for the original plate 1 and the heat-sensitive reactor 2.
Image area 1a at any position regardless of the size of
It has the advantage that the size of the original plate 1 and the heat-sensitive reactant 2 can be any size and there is no limitation on the size. The master plate 1 and the heat-sensitive reactant 2 can be easily exchanged for other master plates or heat-sensitive reactants due to their construction, such as one master plate 1 and a plurality of heat-sensitive reactants or one heat-sensitive reactant 2 and a plurality of master plates. The combination can be changed freely depending on the intended use. The heat-sensitive reactor 2 of the embodiment shown in FIG. 1 consists of a colored layer 2a made of a combination of dyes, pigments, waxes, resins, etc. and a support 2b such as a polyester film that supports the colored layer 2a, and is in a pressed state. The colored layer 2a is softened by the heat of the heated image area 1b and adheres to the heated image area 1b, thereby coloring the desired image area. Even if a release layer is provided between the colored layer 2a and the support 2b, the coloring layer 2a can be attached to the heat-generating image area 1b if the bonding force in the release layer is weakened by light rays or heat in the image area 1b. Can be done. Further, even if the support 2b, the colored layer 2a, and the adhesive layer are arranged in this order, the adhesive layer adheres to the heat-generating image area 1b in a pressed state due to heat, and overcomes the bonding force between the support 2b and the colored layer 2a to form a heat-generating image. Area 1b can be colored. The thermosensitive reactant 2 may be a wide sheet or a narrow tape. In the case of a wide sheet, it may be difficult to distinguish the image area 1a on the original plate 1 due to the colored layer 2a, but this is due to the area 2C where the colored layer 2a is located, as in the example of the thermosensitive reactor in FIG. and transparent portions 2d without the colored layer 2a are arranged alternately, and information on the image area 1a of the original plate 1 can be obtained from the portion 2d without the colored layer 2a. Here, the heat-sensitive reactant 2 needs to transmit light without absorbing too much light so as to satisfy the condition that the colored layer 2a adheres to the heated image area 1b only after the image area 1a generates heat due to light irradiation. . That is, the colored layer 2 is absorbed by the energy absorbed when the light beam passes through the colored layer etc.
a does not adhere to the original plate 1 regardless of the image area 1a of the original plate 1 that is irradiated with light, and it is not until the heat generation of the image area 1a due to the light irradiation is added that the colored layer 2a reaches an energy level that adheres to the heated image area 1b. It means to reach. Furthermore, depending on the colored layer 2a of the thermosensitive reactant 2, it may be transferred and adhered due to light absorption regardless of the image area irradiated with light. This problem can be solved by providing a filter that absorbs infrared rays and transmits infrared rays. In this way, the present invention provides a portable light irradiation device 3 that allows anyone to easily edit an original plate, which has conventionally been black and white information, into color information only in desired areas. Further, since the colored layer 2a adheres only to the exothermic image area 1b, the heat-sensitive reactor 2 copies the desired image area irradiated with light in the form of omission of the colored layer 2a, and if the original plate 1 is smeared, the image cannot be reproduced. It can also be referred to as an example of area duplication.

第3図〜第5図は、原版1の所望の画像区域を感熱反応
体に複写する実施例である。第3図の感熱反応体4は、
携帯用光照射装置3による光照射で発熱した画像区域1
bの熱を受けて発色する熱発色体4aを塗布した支持シ
ート4bから成り、画像区域1bの発熱状態に応じて圧
着状態にある熱発色体4aの発色状態が変わり原版1上
の所望の画像区域を被記録体である感熱反応体4に複写
することができる。4Cは、熱発色体4aが熱を受けた
発色部分である。ここで、支持シー)4bは光線を透過
する例えば紙や合成樹脂シート等でできている。
Figures 3 to 5 are examples of copying desired image areas of master 1 onto a heat-sensitive reactor. The thermosensitive reactant 4 in FIG.
Image area 1 that generates heat due to light irradiation by portable light irradiation device 3
It consists of a support sheet 4b coated with a thermochromic material 4a that develops color when exposed to heat b, and the color development state of the thermochromic material 4a in a pressed state changes depending on the heat generation state of the image area 1b, forming a desired image on the original plate 1. The area can be copied onto a thermosensitive reactor 4 which is a recording medium. 4C is a colored portion where the thermochromic body 4a receives heat. Here, the support sheet 4b is made of, for example, paper or a synthetic resin sheet that transmits light.

第4図の感熱反応体5は、保護膜層5aと着色層5bと
被記録シート5Cとから成り、携帯用光照射装置3によ
る光照射で発熱した画像区域1bの熱で着色層5bが被
記録シート5Cに強く付着し、感熱反応体5の被記録シ
ート5Cを引き剥しても前記強く付着した着色層5bの
みが一緒に引き剥され、他の着色層5bは保護膜層5a
に結合したまま残る。このように光照射した所望の画像
区域のみが感熱反応体5の被記録シー)5Cに着色層5
bの付着という形で複写される。一方、保護膜層5aの
側では、所望の前記画像区域のみが着色層5bの抜けと
いう形で複写されたことになる。保護膜層5aは、着色
層5bが原版1に付着し汚すことを防止すると共に着色
層5bを保持する役割を果たしており、耐熱性があり薄
いものが好ましい。被記録シー)5cは感熱反応体5の
構成上、着色層5bと接合して一体となっていても別体
として分離されていても使用時に重ね合せられるならど
ちらでも良い。使用者が被記録シート5Cの代替として
複写するための紙や合成樹脂シートを準備し着色層5b
に重ねて使用するなら。
The heat-sensitive reactor 5 shown in FIG. 4 is composed of a protective film layer 5a, a colored layer 5b, and a recording sheet 5C. Even if the recording sheet 5C of the heat-sensitive reactor 5 that is strongly adhered to the recording sheet 5C is peeled off, only the strongly adhered colored layer 5b is peeled off together with the other colored layers 5b and the protective film layer 5a.
remains attached to. Only the desired image area irradiated with light is coated with the colored layer 5 on the recording sheet 5C of the thermosensitive reactant 5.
It is copied in the form of attachment of b. On the other hand, on the side of the protective film layer 5a, only the desired image area is copied in the form of omission of the colored layer 5b. The protective film layer 5a plays a role of preventing the colored layer 5b from adhering to the original plate 1 and contaminating it and also holding the colored layer 5b, and is preferably heat resistant and thin. Due to the structure of the heat-sensitive reactor 5, the recording layer 5c may be integrated with the colored layer 5b, or may be separated as a separate body, as long as they can be overlapped during use. A user prepares paper or a synthetic resin sheet for copying as a substitute for the recording sheet 5C, and applies the colored layer 5b.
If you want to use it over the

準備したものが被記録シート5Cと考えられる。The prepared sheet is considered to be the recording sheet 5C.

ここで、被記録シー)5Cに着色層5bの抜けという形
で画像情報を複写したいなら、着色層5bを被記録シー
)5cに保持し着色層5bの保護膜層5aの側に接着層
を設ければ発熱した画像区域1bに対応した着色層5b
を保護膜層5aに強く付着させて抜くことができる。
Here, if you want to copy image information in the form of omission of the colored layer 5b on the recording sheet 5C, hold the colored layer 5b on the recording sheet 5c and add an adhesive layer to the protective film layer 5a side of the colored layer 5b. If provided, a colored layer 5b corresponding to the heated image area 1b
can be strongly adhered to the protective film layer 5a and removed.

第5図の感熱反応体6は、保護膜層6aと熱昇法の実施
例である。熱昇華層6bは昇華性染料6d等から成って
おり、光照射による原版1上の画像区域1bの発熱量に
応じた量の昇華蒸気を発生して染料吸着性と耐熱性に優
れた被記録シート6Cに吸着しアナログ階調で所望の画
像区域を被記録体シー)6cに複写できる。又、熱昇華
層6bから熱により昇華される化学成分が被記録体シー
ト6Cに塗布された成分と化学反応を起こし発色するよ
うな構成としても同様にアナログ階調で複写することは
明らかである。その他の感熱反応体の実施例として、嫌
油性を示す熱収縮性の合成樹脂の粒子とその粒子を均一
に分散した状態で保持する薄い多孔質体から感熱反応体
が成っていると、光照射による画像区域の発熱に応じて
前記粒子が熱収縮を起こして感熱反応体に貫通孔という
形で所望の画像区域を複写できる。紙などの被記録体上
に前記感熱反応体を重ねてインクローラ等で油性インク
を感熱反応体上に押接してなぞると貫通孔を通って油性
インクが被記録体に貫通孔の情報に応じて付着する。感
熱反応体は嫌油性成分を有するので、油性インクが感熱
反応体になじみにくくシャープな画像の印刷が得られる
。又、水性インクを使用する場合は疎水性を示す熱収縮
性の合成樹脂の粒子を用いれば同様の効果が得られるこ
とは明らかである。
The thermosensitive reactor 6 shown in FIG. 5 is an example of a protective film layer 6a and a heat raising method. The thermal sublimation layer 6b is made of a sublimable dye 6d, etc., and generates sublimation vapor in an amount corresponding to the amount of heat generated in the image area 1b on the original plate 1 when irradiated with light, thereby creating a recording material with excellent dye adsorption properties and heat resistance. It is possible to adsorb onto the sheet 6C and copy a desired image area onto the recording medium sheet 6c in analog gradation. Furthermore, it is clear that analog gradation copying can be achieved in the same manner even if the chemical component sublimated by heat from the thermal sublimation layer 6b undergoes a chemical reaction with the component coated on the recording medium sheet 6C to produce color. . As another example of a heat-sensitive reactant, if the heat-sensitive reactant is made of particles of heat-shrinkable synthetic resin that exhibits oleophobic properties and a thin porous body that holds the particles in a uniformly dispersed state, it is possible to In response to the heating of the image area by the heat treatment, the particles undergo thermal contraction, thereby replicating the desired image area in the form of a through-hole in the heat-sensitive reactor. When the heat-sensitive reactant is placed on a recording material such as paper and an ink roller or the like is used to press and trace the oil-based ink onto the heat-sensitive reactor, the oil-based ink passes through the through-holes and is applied to the recording material according to the information on the through-holes. It sticks to the surface. Since the heat-sensitive reactant has an oleophobic component, the oil-based ink does not easily blend into the heat-sensitive reactant, and sharp images can be printed. Furthermore, when using a water-based ink, it is clear that the same effect can be obtained by using heat-shrinkable synthetic resin particles that exhibit hydrophobicity.

第6図は、本発明の携帯用光照射装置の一実施例の概略
説明図である。3は、ハンディタイプの携帯用光照射装
置であり、光線を発生する光源3aと電源手段3bと光
線を有効に利用するための光線反射体3Cと感熱反応体
に押接して使用する光透過体3dとを備えている。3b
は、蓄電池等の電源手段であり必要に応じて電源制御回
路を有する。コンパクトで手で操作しやすいように光透
過体3d、光源3a、光線反射体3C1電源手段3bの
順に縦方向に配置しである。3fは、光照射用スイッチ
で指先で制御しやすいように携帯用光照射装置3の側面
に配置してあり、携帯用光照射装置3を感熱反応体上に
押接した状態で光照射用スイッチ3fをオンすることに
より光源3aに電源手段3bから電気エネルギーが供給
される。
FIG. 6 is a schematic explanatory diagram of an embodiment of the portable light irradiation device of the present invention. Reference numeral 3 denotes a hand-held portable light irradiation device, which includes a light source 3a that generates a light beam, a power supply means 3b, a light reflector 3C for effectively utilizing the light beam, and a light transmitting body that is used in press contact with a heat-sensitive reactor. 3d. 3b
is a power supply means such as a storage battery, and has a power supply control circuit as required. The light transmitting body 3d, the light source 3a, the light reflecting body 3C1, and the power source means 3b are arranged in the vertical direction in this order to make it compact and easy to operate by hand. 3f is a light irradiation switch, which is placed on the side of the portable light irradiation device 3 so that it can be easily controlled with a fingertip. By turning on 3f, electric energy is supplied to the light source 3a from the power supply means 3b.

光照射用スイッチ3fを手でオンしている間、連続して
光照射しても間欠的に光照射しても良い。
While the light irradiation switch 3f is turned on by hand, light may be irradiated continuously or intermittently.

又、一度のオンに対し閃光するなど一定時間のみ光照射
するようにしても良い。人の目に向けて光照射されると
目に障害を及ぼすことも考えられるので、携帯用光照射
装置3は感熱反応体3gに押接した状態で光照射用スイ
ッチ3fを指先でオンして始めて光照射するようにする
と良い。このような構成にすると、携帯用に光照射用ス
イッチ3fが何かに接触してオンし、知らぬ間に電池が
消耗してしまうとか、他かの物に光照射し品質を損なわ
せるとかのトラブルを防止できる。しかも、押接により
圧着状態が確保された時点で光照射するので、より安定
した着色や複写が得られる。又、光照射用スイッチ3f
の換りに感熱反応体3gへの押接のみで電気配線がつな
がる押接式光照射用スイッチを備えても同様の効果が得
られる。3Cは光線反射体であり、実施例では一部品と
なっているが光源3aや光源3a等の支持フレームに光
線反射体3Cを塗布したりメッキしたりしても同様の効
果が得られるのは明らかである。3dは、光透過体であ
り携帯用光照射装置3のフレームと一体又は脱着可能に
支持されている。3eは、光透過体3dの光線透過部で
あり、耐熱性、耐光性に優れていることが好ましくガラ
スや合成樹脂等からできている。又、光線透過部3eの
形状は、画像区域への光照射を均一にするため四角形で
ある。第6図の実施例の携帯用光照射装置は、ハンディ
タイプであるが故に光照射する作用面積が小さい為、光
照射量が少なく光源3a等に対する性能要求もゆるくて
済むというメリットがある。又、原版1と感熱反応体3
gの圧着部での光照射による空気や水分等の急激な熱膨
張によって発生する複写品質不良は、圧着部の面積が少
ない程発生しにくくなるというメリットもある。光源3
aや光反射体3Cからの光線を光線透過部3eに収束す
る収束レンズを備えれば低エネルギー化が期待でき光源
3a等の負担は更に軽くなる。低エネルギー化は携帯用
という要望にとっては不可欠な要素であり付加価値とし
て操作性や実用性を高めることができる。感熱反応体は
光線の透過と光線の吸収による画像区域の熱の有効利用
と感熱反応体のコストを最少限に抑える関係上、通常薄
いものである為、携帯用光照射装置を押接しながらなぞ
って移動すると強度不足で引き伸ばされてしまうような
感熱反応体に対しては、光透過体が感熱反応体上を相対
的にすべることなくころがるように光透過体を回転可能
に支持すると感熱反応体が歪むことなく良好な着色や複
写が得られる。この際光透過体はベルト形状であっても
良い。又、原版を着色するための感熱反応体など幅の狭
いロール状の感熱反応体に対しては、携帯用光照射装置
にカセット式に脱着可能に支持すると所望の色の着色層
を有する感熱反応体のカセットと容易に交換でき便利で
ある。又、カセット内に収納されているため感熱反応体
は持運び等で傷付いたり手を汚すこともない。原版の画
像区域を複写するような感熱反応体の場合でも、感熱反
応体の輻が狭くても良いならば同様にロール状にしてカ
セットに収納すれば良い。この際も光透過体が携帯用光
照射装置に回転可能に支持されているとロール状に巻か
れた感熱反応体を光透過体の回転を利用してカセットか
ら引き出して供給することができる。
Alternatively, the light may be irradiated only for a certain period of time, such as by flashing each time the light is turned on. If the light is irradiated towards people's eyes, it may cause damage to the eyes, so while the portable light irradiation device 3 is pressed against the heat-sensitive reactor 3g, turn on the light irradiation switch 3f with your fingertip. It is a good idea to irradiate it with light for the first time. With such a configuration, the light irradiation switch 3f for portable devices may come into contact with something and turn on, causing the battery to run out before you know it, or the light may irradiate onto other objects, damaging the quality. problems can be prevented. Moreover, since the light is irradiated once the crimped state is secured by pressing, more stable coloring and copying can be obtained. In addition, the light irradiation switch 3f
Instead, the same effect can be obtained by providing a push-type light irradiation switch that connects electrical wiring only by pushing against the heat-sensitive reactor 3g. 3C is a light reflector, and although it is a single component in the example, the same effect can be obtained by coating or plating the light source 3a or the support frame of the light source 3a, etc. it is obvious. 3d is a light transmitting body and is supported integrally with or detachably from the frame of the portable light irradiation device 3. 3e is a light transmitting part of the light transmitting body 3d, which is preferably made of glass, synthetic resin, etc., and has excellent heat resistance and light resistance. Further, the shape of the light transmitting portion 3e is a rectangle in order to uniformly irradiate the image area with light. Since the portable light irradiation device of the embodiment shown in FIG. 6 is a handy type, the active area for light irradiation is small, so there is an advantage that the amount of light irradiation is small and the performance requirements for the light source 3a etc. can be relaxed. In addition, the original plate 1 and the thermosensitive reactant 3
Another advantage is that copy quality defects caused by rapid thermal expansion of air, moisture, etc. due to light irradiation at the crimping part g are less likely to occur as the area of the crimping part is smaller. light source 3
If a converging lens is provided to converge the light rays from a and the light reflector 3C onto the light transmitting part 3e, it can be expected that the energy will be reduced, and the burden on the light source 3a etc. will be further reduced. Low energy consumption is an essential element for portable devices, and can improve operability and practicality as an added value. Thermal reactants are usually thin, in order to effectively utilize the heat in the image area through light transmission and absorption, and to minimize the cost of the heat-sensitive reactor, so it is easy to trace while pressing the portable light irradiation device against it. For heat-sensitive reactants that would be stretched due to insufficient strength if moved by hand, it is recommended to rotatably support the light-transmitting member so that the light-transmitting member can roll on the heat-sensitive reactor without sliding relative to the heat-sensitive reactor. Good coloring and copying can be obtained without distortion. In this case, the light transmitting body may be belt-shaped. In addition, for a narrow roll-shaped heat-sensitive reactant such as a heat-sensitive reactant for coloring an original plate, if it is removably supported in a cassette type on a portable light irradiation device, the heat-sensitive reactor has a colored layer of the desired color. It is convenient because it can be easily replaced with the body cassette. Furthermore, since the thermosensitive reactant is housed in a cassette, it will not get damaged or get your hands dirty when being carried around. Even in the case of a heat-sensitive reactant for copying an image area of an original plate, if the narrow convergence of the heat-sensitive reactant is acceptable, it can be similarly rolled and stored in a cassette. At this time, if the light transmitting body is rotatably supported by the portable light irradiation device, the rolled heat-sensitive reactant can be drawn out from the cassette and supplied by utilizing the rotation of the light transmitting body.

携帯用光照射装置を手で感熱反応体上に押接しながら原
版をなぞる際、連続して光照射したり等しい時間間隔で
光照射したりすると原版を手動でなぞる時のスピードに
ムラがある為、光照射の光量にもムラが生じ原版への着
色品質や感熱反応体への複写品質が落ちる。特に始点や
終点と中間点との間に品質に差が生じる。これを解決す
る為、本発明では原版との相対位置の変化量に同期して
光線を間欠的に発生することを特徴とする携帯用光照射
装置を提案する。原版との相対位置の変化量を検知し光
照射を同期させる実施例としては、携帯用光照射装置に
、例えば、ベルトやローラーの形状をした光透過体を回
転可能に支持し原版をなぞる時の光透過体の回転量番こ
同期して光照射する方法と等間隔1こ凹凸形状のある案
内定規を別途準備し携帯用光照射装置を前記案内定規に
案内されながら原版をなぞる時の前記案内定規の凹又は
凸形状に同期して光照射する方法等が考えられる。
When tracing the original plate while pressing the portable light irradiation device against the heat-sensitive reactor by hand, if the light is irradiated continuously or at equal time intervals, the speed of manually tracing the original plate will be uneven. Also, the amount of light irradiated becomes uneven, and the quality of coloring the original plate and the quality of copying to the heat-sensitive reactor deteriorate. In particular, there is a difference in quality between the start point, end point, and intermediate point. In order to solve this problem, the present invention proposes a portable light irradiation device characterized by intermittently generating a light beam in synchronization with the amount of change in the relative position with respect to the original. An example of synchronizing light irradiation by detecting the amount of change in the relative position with respect to the original is when a portable light irradiation device rotatably supports a light transmitting body in the shape of a belt or roller and traces the original. A method of irradiating light in synchronization with the rotation amount of the light transmitting body, and a method of irradiating light in synchronization with the number of rotations of the light transmitting body, and a method of separately preparing a guide ruler with uneven shapes at equal intervals and tracing the original while being guided by the guide ruler with a portable light irradiation device. A possible method is to irradiate light in synchronization with the concave or convex shape of the guide ruler.

第7図の実施例の携帯用光照射装置は、光源を有する小
形軽量化された光照射装置の本体7aと光照射装置の本
体7aと分離して設けられた電源手段7bとがケーブル
7Cを介して接続されることを特徴とする。7dは、原
版1上に重ねられた感熱反応体である。重量比の大きい
電源手段7bを分離することによって光照射装置の本体
7aは、手軽に操作できると共に長時間使用しても疲れ
ないというメリットがある。又、電源手段7bが少々重
くても大きくても光照射装置の本体7aの操作性には影
響を与えないというメリットがあるので光源への電気エ
ネルギーの供給タイミングや供給量を制御する手段等を
市場ニーズに合わせて電源手段7bに付加する際の設計
上の自由度が増すことができる。ゼンマイ等の機械エネ
ルギーを電気エネルギーに交換する構成を電源手段7b
が有すると充電や電池の交換等の配慮をしなくて済み経
済的である。ケーブル7Cは光照射装置の本体7aと電
源手段7bの片方又は両方と脱着可能な状態で接続され
る構造とすると携帯に便利である。
The portable light irradiation device of the embodiment shown in FIG. 7 has a light irradiation device main body 7a that is small and lightweight and has a light source, and a power supply means 7b that is provided separately from the light irradiation device main body 7a, and a cable 7C. It is characterized by being connected through. 7d is a thermosensitive reactant superimposed on the original plate 1. By separating the power supply means 7b, which has a large weight ratio, the main body 7a of the light irradiation device has the advantage that it can be easily operated and can be used for a long time without getting tired. Furthermore, even if the power supply means 7b is a little heavy or large, it has the advantage that it does not affect the operability of the main body 7a of the light irradiation device. It is possible to increase the degree of freedom in design when adding it to the power supply means 7b in accordance with market needs. The power supply means 7b has a configuration for exchanging mechanical energy such as a mainspring into electrical energy.
If you have one, you don't have to worry about charging or replacing batteries, which is economical. It is convenient to carry the cable 7C if it is detachably connected to one or both of the main body 7a and the power supply means 7b of the light irradiation device.

第8図の実施例の携帯用光照射装置8は、光源8aと光
透過体8dの光線透過部8eの間の光線通過路8bに遮
光板8Cを備えて、光線透過部8eでの光線の通過領域
を調節することにより、感熱反応体8gや原版1に関与
する光照射領域を可変できることを特徴とする。光線透
過部8eの光線通過領域を遮光板8Cで調節する実施例
としては、例えば絞り機構のように遮光板の位置をかえ
て光線通過領域をコントロールする方法と光線通過用の
開口や切欠きを有する遮光板を用いて、開口や切欠き形
状の異なった遮光板と交換することにより光線通過領域
をコントロールする方法とがある。第8図の実施例では
、光線通過開口8fの形状の違いで光線通過領域をコン
トロールする。
The portable light irradiation device 8 of the embodiment shown in FIG. 8 includes a light blocking plate 8C in the light passing path 8b between the light source 8a and the light transmitting part 8e of the light transmitting body 8d, so that the light at the light transmitting part 8e is blocked. A feature is that the light irradiation area that affects the heat-sensitive reactant 8g and the original plate 1 can be varied by adjusting the passage area. Examples of adjusting the light passing area of the light transmitting portion 8e with the light shielding plate 8C include a method of controlling the light passing area by changing the position of the light shielding plate, such as using an aperture mechanism, and a method of controlling the light passing area by changing the position of the light shielding plate, such as using an aperture mechanism; There is a method of controlling the light beam passage area by using a light shielding plate that has a different shape and replacing it with a light shielding plate that has a different opening or notch shape. In the embodiment shown in FIG. 8, the light passing area is controlled by changing the shape of the light passing aperture 8f.

遮光板8Cの交換は、実施例では光透過体8dの脱着で
簡単に交換できるが、携帯用光照射装置8の側面に遮光
板8Cを挿入する開口部を設けて光透過体8dを脱着す
ることなく交換できるようにしても良い。このように光
照射の作用領域が遮光板8Cにより調節できることは、
原版lの局所的な画像区域のみ光照射するケースから幅
広い画像区域を同時に光照射するケースまでの使用用途
に簡単に対応できるという効果があり、画像区域の融通
性や作業効率の向上に役立つ。
In the embodiment, the light shielding plate 8C can be easily replaced by attaching and detaching the light transmitting body 8d, but an opening for inserting the light transmitting body 8C is provided on the side of the portable light irradiation device 8, and the light transmitting body 8d is attached and detached. It may also be possible to exchange it without any trouble. The fact that the area of action of light irradiation can be adjusted by the light shielding plate 8C in this way is as follows.
It has the effect of being easily adaptable to applications ranging from cases in which only a local image area of the original plate is irradiated to light irradiation to cases in which a wide range of image areas are simultaneously irradiated, and is useful for improving the flexibility of image areas and work efficiency.

第9図の実施例の携帯用光照射装置9は、光線透過部9
bを複数備えたことを特徴とする。実施例では、1回の
操作で何行かの文字等を着色又は複写するための細長い
長方形の光線透過部と文字等を部分的に着色又は複写す
るための比較的に小さな長方形の光線透過部とから光線
透過部9bは成っており、遮光板等により各々の光線透
過部を独立して光線の通過を制御すれば使用勝手上の自
由度を増すことができる。ここで、複数の光線透過部又
は光線通過路の各々に専用の光源を備えた構成とすれば
、各々の光源を独立して制御することにより遮光板がな
くても第8図、第9図の実施例と同様の効果は得られる
The portable light irradiation device 9 of the embodiment shown in FIG.
It is characterized by having a plurality of b. In the embodiment, a long and thin rectangular light transmitting section is used for coloring or copying several lines of characters, etc. in one operation, and a relatively small rectangular light transmitting section is used for partially coloring or copying characters, etc. The light transmitting section 9b is made up of a light transmitting section 9b, and the degree of freedom in use can be increased by controlling the passage of light rays through each light transmitting section independently using a light shielding plate or the like. Here, if a configuration is adopted in which a dedicated light source is provided for each of the plurality of light transmitting sections or light beam passing paths, each light source can be controlled independently, thereby allowing the light beams shown in FIGS. The same effects as in the embodiment can be obtained.

感度反応体や原版に関与する光照射の作用領域を可変す
る他の実施例として、形状の異なった光線透過部を有す
る光透過体を携帯用光照射装置に交換して取付けること
により光照射領域を可変する方法があげられる。光透過
体は、携帯光照射装置の本体にネジ構造取付けや凹凸嵌
合等により脱着可能に取付けられていることを特徴とす
る。第6図を用いて説明すると、第6図の実施例は、ツ
メ形状による凹凸に合の例でありワンタッチで脱着でき
る。光透過体3dは光線を通過させる光線透過部3eと
光線を通過させない光線非透過部とから成っており、光
線透過部3eの形状や大きさの異なる光透過体3dを携
帯用光照射装置3の本体に交換して取り付けることによ
り光照射領域をコントロールすることができる。光線透
過部3eは光線を透過するガラスや合成樹脂等からでき
ており感熱反応体3gを原版lに圧着する役割を果たす
。光線透過部の幅が狭い時などは、光線透過部の周囲の
光線非透過部の押接により、光線透過部3eの押接がな
くても光照射される感熱反応体3gと原版1との圧着状
態が良好となるので光透過部3eは単なる開口でガラス
等なくすこともできる。又、光線透過部3eにある波長
領域の光を主に吸収してしまうフィル7゛−の役割を担
わせると原版1の画像情報に関係なく着色されたり複写
されたりするのを防ぐのに役立つと共に異なるフィルタ
ー性能を持つ光透過体と簡単に交換できるというメリッ
トにもなる。
As another example of varying the area of action of light irradiation related to the sensitivity reactant and the original plate, the light irradiation area can be changed by replacing and attaching a light transmitting body having light transmitting parts of different shapes to a portable light irradiation device. One way is to vary the . The light transmitting body is characterized in that it is removably attached to the main body of the portable light irradiation device by screw structure attachment, concave-convex fitting, or the like. To explain using FIG. 6, the embodiment shown in FIG. 6 is an example in which the unevenness due to the shape of the claw is corrected, and it can be attached and detached with one touch. The light transmitting body 3d consists of a light transmitting part 3e that allows light to pass through and a light non-transmitting part that does not allow the light to pass through. By replacing and attaching it to the main body, you can control the light irradiation area. The light transmitting portion 3e is made of glass, synthetic resin, or the like that transmits light, and serves to press the heat-sensitive reactant 3g onto the original plate l. When the width of the light-transmitting area is narrow, the pressure of the non-light-transmitting area around the light-transmitting area prevents the heat-sensitive reactant 3g and the original plate 1 from being irradiated with light even without the light-transmitting area 3e being pressed. Since the crimped state is improved, the light transmitting portion 3e can be simply an opening without glass or the like. Furthermore, if the light transmitting portion 3e plays the role of a filter 7'- which mainly absorbs light in a certain wavelength range, it is useful to prevent coloring or copying regardless of the image information of the original plate 1. At the same time, it also has the advantage that it can be easily replaced with a light transmitting body that has a different filter performance.

又、光線の強度調節や光源の点燈時間の調節の付加手段
を設ければ、原版や感熱反応体の種類や使用勝手に応じ
て光照射量を調節でき、更に製品価値が高まる。着色や
複写の品質を高める実施例として、感熱反応体とは反対
側の原版の下に弾性と断熱性を有する下敷シートを敷い
て携帯用光照射を感熱反応体に押接すればより安定した
原版と感熱反応体間の圧着性と光線エネルギーの有効利
用が得られる。下敷シートも携帯に便利なようにロール
状に巻いて持運びできるようロール状態を保持するマジ
ックテープを下敷シートに備えれば便利である。
Furthermore, if additional means for adjusting the intensity of the light beam and the lighting time of the light source are provided, the amount of light irradiation can be adjusted according to the type of original plate or heat-sensitive reactant and ease of use, further increasing the product value. As an example of improving the quality of coloring and copying, a more stable original can be created by placing an elastic and heat-insulating underlay sheet under the original on the opposite side from the heat-sensitive reactor and pressing a portable light irradiation against the heat-sensitive reactor. Pressure bonding properties between the heat-sensitive reactants and the effective use of light energy can be obtained. It would be convenient if the undersheet is provided with a Velcro tape that maintains the rolled state so that the undersheet can be rolled up and carried.

〔発明の効果〕〔Effect of the invention〕

以上詳細に説明したように本発明の携帯用光照射装置は
、原版の所望の画像区域のみ部分的に手軽に選択して着
色又は複写できる手段を提供するものであり、原版や感
熱反応体のサイズに限定されることなく使用することが
できる。又、構成要素が少な(て着色や複写の目的を達
成できるので、手軽に持ち渾びできて操作性に優れる効
果と共にかなり安い価格でユーザーが人手できるという
メリットがある。更に、本発明の各実施例に示した機能
を携帯用光照射装置が備えることにより、使用用途の拡
大や使用勝手上の要求に容易に対応することができる。
As explained in detail above, the portable light irradiation device of the present invention provides a means for easily selecting and coloring or copying only a desired image area of an original plate, and it also provides a means for easily selecting and coloring or copying only a desired image area of an original plate and a heat-sensitive reactor. It can be used without being limited by size. In addition, since the purpose of coloring and copying can be achieved with a small number of components, it has the advantage of being easy to carry around and having excellent operability, as well as being able to be done manually by the user at a fairly low price. By providing the portable light irradiation device with the functions shown in the embodiments, it is possible to easily meet demands for expanded usage and ease of use.

【図面の簡単な説明】[Brief explanation of drawings]

第1図、第3図、第4図、第5図は、本発明の実施例を
示す説明図であり、原版と感熱反応体は、断面を拡大し
たものでその一部を示す。 第2図は、感熱反応体の一実施例を示す説明図である。 第6図、第8図は、本発明に係る携帯用光照射装置の実
施例を示す断面図である。 第7図、第9図は、本発明に係る携帯用光照射装置の実
施例の斜視図である。 1・・・原版 1a・・・原版の画像区域 1b・・・
光線を吸収し発熱した画像区域 2.3g、4.5.6
.7d、8g・・・感熱反応体 3.7.8.9・・・
携帯用光照射装置 3a、8a・・・光源 3b、7b
・・・電源手段 3d、8d・・・光透過体 3C・・
・光、デb 線反射体 3 e 、s キイ箋線透過部 2a、5b
・・・着色層 4a・・・熱発色体 6b・・・熱昇華
層11図 鼎広HA青砥L]”i”=、○
FIG. 1, FIG. 3, FIG. 4, and FIG. 5 are explanatory diagrams showing examples of the present invention, in which the original plate and the heat-sensitive reactor are partially shown in enlarged cross-sections. FIG. 2 is an explanatory diagram showing an example of a thermosensitive reactant. 6 and 8 are cross-sectional views showing embodiments of the portable light irradiation device according to the present invention. 7 and 9 are perspective views of embodiments of the portable light irradiation device according to the present invention. 1...Original plate 1a...Image area of the original plate 1b...
Image area that absorbs light and generates heat 2.3g, 4.5.6
.. 7d, 8g...Thermosensitive reactant 3.7.8.9...
Portable light irradiation device 3a, 8a...light source 3b, 7b
...Power supply means 3d, 8d...Light transmitting body 3C...
・Light, deb line reflector 3 e, s key line transmission part 2a, 5b
... Colored layer 4a ... Thermochromic body 6b ... Heat sublimation layer 11 Figure Dingguang HA Aoto L] "i" =, ○

Claims (12)

【特許請求の範囲】[Claims] (1)光線を吸収する画像区域と前記画像区域に比べる
とあまり光線を吸収しない非画像区域とを有する原版上
に、熱で変化する要素を有し、且つ光線を透過する感熱
反応体を重ねた状態で、前記感熱反応体上の一部を押接
し、且つ前記原版の画像区域のうち所望の画像区域のみ
部分的に選択して光線を照射できることを特徴とする携
帯用光照射装置。
(1) A thermosensitive reactant having a heat-changeable element and transmitting light is superimposed on an original having an image area that absorbs light and a non-image area that absorbs less light than the image area. A portable light irradiation device characterized in that it can press a part of the heat-sensitive reactor into contact with the heat-sensitive reactor in a state in which it is held in place, and selectively irradiate only a desired image area of the original plate with a light beam.
(2)光照射部の画像区域の光線の吸収による発熱で感
熱反応体の着色層が、前記発熱した画像区域に付着する
ことにより、原版の所望の画像区域のみ選択して着色で
きることを特徴とする特許請求の範囲第(1)項記載の
携帯用光照射装置。
(2) The colored layer of the heat-sensitive reactant adheres to the heated image area due to heat generated by absorption of light in the image area of the light irradiation part, so that only the desired image area of the original plate can be selectively colored. A portable light irradiation device according to claim (1).
(3)光照射部の画像区域の光線の吸収による発熱で感
熱反応体が変化を起こすことにより、原版の所望の画像
区域のみ選択して感熱反応体に識別可能な状態で複写で
きることを特徴とする特許請求の範囲第(1)項記載の
携帯用光照射装置。
(3) By causing a change in the thermosensitive reactant due to the heat generated by the absorption of light in the image area of the light irradiation part, it is possible to select only the desired image area of the original plate and copy it in an identifiable state on the thermosensitive reactant. A portable light irradiation device according to claim (1).
(4)感熱反応体に押接して使用する光透過体と光源と
電源手段とを備えていることを特徴とする特許請求の範
囲第(1)項記載の携帯用光照射装置。
(4) A portable light irradiation device as set forth in claim (1), comprising a light transmitting member, a light source, and a power source means, which are used in pressed contact with a heat-sensitive reactant.
(5)感熱反応体への押接が、光源に電気エネルギーを
供給して光照射できるための条件であることを特徴とす
る特許請求の範囲第(4)項記載の携帯用光照射装置。
(5) The portable light irradiation device according to claim (4), wherein the pressing against the heat-sensitive reactant is a condition for supplying electric energy to the light source and irradiating light.
(6)光透過体が回転可能な状態で支持されていること
を特徴とする特許請求の範囲第(4)項記載の携帯用光
照射装置。
(6) The portable light irradiation device according to claim (4), wherein the light transmitting body is rotatably supported.
(7)原版との相対位置の変化量に同期して光線を間欠
的に発生することを特徴とする特許請求の範囲第(4)
項記載の携帯用光照射装置。
(7) Claim (4), characterized in that the light beam is intermittently generated in synchronization with the amount of change in the relative position with respect to the original plate.
Portable light irradiation device described in Section 1.
(8)感熱反応体を脱着可能な状態で支持することを特
徴とする特許請求の範囲第(4)項記載の携帯用光照射
装置。
(8) The portable light irradiation device according to claim (4), wherein the heat-sensitive reactant is supported in a detachable manner.
(9)電源手段が光源を有する携帯用光照射装置の本体
と分離して設けられ、ケーブルを介して接続されている
ことを特徴とする特許請求の範囲第(4)項記載の携帯
用光照射装置。
(9) The portable light according to claim (4), wherein the power source means is provided separately from the main body of the portable light irradiation device having a light source and is connected via a cable. Irradiation device.
(10)光源と光透過体の光線透過部との間の光線通過
路に遮光板を備えて光線の通過や遮断を制御することに
より、感熱反応体と原版に関与する光照射領域を可変で
きることを特徴とする特許請求の範囲第(4)項記載の
携帯用光照射装置。
(10) By providing a light blocking plate in the light passing path between the light source and the light transmitting portion of the light transmitting body and controlling the passage or blocking of the light beam, the light irradiation area that affects the thermosensitive reactant and the original plate can be varied. A portable light irradiation device according to claim (4), characterized in that:
(11)光線透過部を複数有し、且つ前記光線透過部で
の光線の通過や遮断を各々独立して制御できることを特
徴とする特許請求の範囲第(4)項記載の携帯用光照射
装置。
(11) The portable light irradiation device according to claim (4), wherein the portable light irradiation device has a plurality of light transmitting parts, and the passage or blocking of the light beam in each of the light transmitting parts can be independently controlled. .
(12)光透過体を脱着可能な状態で支持し、且つ光線
透過部の形状の異なる光透過体を交換して取り付けるこ
とにより感熱反応体と原版に関与する光照射領域を可変
できることを特徴とする特許請求の範囲第(4)項記載
の携帯用光照射装置。
(12) The light transmitting body is supported in a removable manner, and the light irradiation area relating to the thermosensitive reactor and the original plate can be varied by replacing and attaching light transmitting bodies with different shapes of light transmitting parts. A portable light irradiation device according to claim (4).
JP62077030A 1987-03-30 1987-03-30 Portable light-irradiation device Pending JPS63242563A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP62077030A JPS63242563A (en) 1987-03-30 1987-03-30 Portable light-irradiation device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP62077030A JPS63242563A (en) 1987-03-30 1987-03-30 Portable light-irradiation device

Publications (1)

Publication Number Publication Date
JPS63242563A true JPS63242563A (en) 1988-10-07

Family

ID=13622351

Family Applications (1)

Application Number Title Priority Date Filing Date
JP62077030A Pending JPS63242563A (en) 1987-03-30 1987-03-30 Portable light-irradiation device

Country Status (1)

Country Link
JP (1) JPS63242563A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016215599A (en) * 2015-05-26 2016-12-22 ローランドディー.ジー.株式会社 Foil pressing device
US20180111402A1 (en) * 2016-10-26 2018-04-26 Roland Dg Corporation Foil transfer method
US10625528B2 (en) * 2016-10-26 2020-04-21 Roland Dg Corporation Foil transfer method
US20190001739A1 (en) * 2017-06-30 2019-01-03 Roland Dg Corporation Thermal transfer light pen and thermal transfer apparatus
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