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JP3177669B2 - Discoloration equipment - Google Patents
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JP3177669B2 - Discoloration equipment - Google Patents

Discoloration equipment

Info

Publication number
JP3177669B2
JP3177669B2 JP21713492A JP21713492A JP3177669B2 JP 3177669 B2 JP3177669 B2 JP 3177669B2 JP 21713492 A JP21713492 A JP 21713492A JP 21713492 A JP21713492 A JP 21713492A JP 3177669 B2 JP3177669 B2 JP 3177669B2
Authority
JP
Japan
Prior art keywords
color
heat
thermochromic
temperature
thermoelectric conversion
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.)
Expired - Fee Related
Application number
JP21713492A
Other languages
Japanese (ja)
Other versions
JPH0639152A (en
Inventor
種博 中川
勉 戸松
義明 小野
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.)
Pilot Ink Co Ltd
Original Assignee
Pilot Ink Co Ltd
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 Pilot Ink Co Ltd filed Critical Pilot Ink Co Ltd
Priority to JP21713492A priority Critical patent/JP3177669B2/en
Publication of JPH0639152A publication Critical patent/JPH0639152A/en
Application granted granted Critical
Publication of JP3177669B2 publication Critical patent/JP3177669B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、変色具に関する。さら
に詳細には、種々の熱変色性対象物の熱変色層に当接さ
せることにより、当接個所を冷熱変色させる変色具に関
する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color changing tool. More specifically, the present invention relates to a color-changing device that cools and thermally discolors a contact portion by contacting the thermochromic layer of various thermochromic objects.

【0002】[0002]

【従来の技術】従来、熱変色性対象物の熱変色層を変色
させる手段として、タングステン、ニッケル等の抵抗体
発熱体を装備した通電加熱具が開示され、動物玩具等の
表面に形成した熱変色素材に接触させ、該接触部位を色
変化させる試みが実開昭62−139573号公報に開
示されている。前記した如く、熱変色層を変色させるた
めの加熱手段に関する試みは、開示されているが、熱変
色層を冷熱変色させるための有効な冷熱手段は未だ開示
されておらず、冷水、氷片等の冷熱媒体の適用や、対象
の熱変色性要素を冷蔵庫内に入れ、庫内の冷気による変
色操作を余儀なくされていた。
2. Description of the Related Art Conventionally, as a means for discoloring a thermochromic layer of a thermochromic object, a current-carrying heater equipped with a resistance heating element such as tungsten or nickel has been disclosed, and a heat formed on the surface of an animal toy or the like has been disclosed. An attempt to contact a discolored material and change the color of the contact area is disclosed in Japanese Utility Model Laid-Open No. 62-139573. As described above, an attempt on a heating means for discoloring the thermochromic layer has been disclosed, but no effective cooling means for cooling and discoloring the thermochromic layer has been disclosed yet, such as cold water, ice chips and the like. In this case, it is necessary to apply a cooling medium or to put a thermochromic element of interest into a refrigerator and perform a color changing operation by cold air in the refrigerator.

【0003】[0003]

【発明が解決しようとする課題】前記冷熱手段は、家庭
等の特定場所において適用性があるとしても、必要時、
場所を選ばず即座に、対象物の熱変色層を変色させるこ
とができず、低温域に変色点を有する熱変色性要素の機
能を効果的に発現させることができなかった。又、前記
冷熱媒体の適用は、冷熱持続時間に限界があり、これら
の媒体をその都度、用意する面倒な手間を要していた。
又、非耐水性の熱変色性要素にあっては、前記冷熱媒体
による直接的な接触は勿論、冷熱媒体を容器に収容させ
て適用する間接的な接触操作に対しても、容器表面に発
生する結露層や水滴、或いは漏水等により熱変色性要素
を変質させがちであった。
The cooling / heating means is applicable to a specific place such as a home, but is required when necessary.
The thermochromic layer of the object could not be immediately discolored irrespective of the location, and the function of the thermochromic element having a discoloration point in a low temperature range could not be effectively exhibited. In addition, the application of the cooling medium has a limitation in the duration of cooling and heating, and it has been troublesome to prepare these media each time.
Further, in the case of the non-water-resistant thermochromic element, not only direct contact with the cooling medium but also indirect contact operation in which the cooling medium is accommodated in the container and applied to the container surface, The thermochromic element tends to deteriorate due to a condensed layer, water droplets, or water leakage.

【0004】本発明は前記した従来の冷熱手段の適用に
よる不具合を一挙に解消し、携帯性、即効性、冷熱持続
性、利便性等を満足させ、任意な時、任意な場所におい
て、簡便に熱変色層を冷熱変色させる変色具を提供しよ
うとするものである。
The present invention solves the above-mentioned problems caused by the application of the conventional cooling means at a glance, and satisfies portability, immediate effect, cold heat continuity, convenience, and the like. It is an object of the present invention to provide a discoloring device for discoloring a thermochromic layer by heat and heat.

【0005】殊に、対象の熱変色性要素が、色彩記憶性
感温変色性色素(温度変化により大きなヒステリシス特
性を示して変色し、低温側変色点と高温側変色点の二つ
の変色点をもち、着色状態と無色状態又は有色〔1〕と
有色〔2〕間の互変性を呈し、前記低温側変色点以下の
冷熱又は高温側変色点以上の温度の熱の適用により、常
態と異なる様相に変化させることができ、その様相を常
温域で互変的に記憶保持させることができる機能を有す
る色素)を含む色材で彩色された熱変色層を備えた系と
組み合わせ適用することにより、前記色彩記憶性感温色
素の機能を効果的に発現させて、商品の多様化、多分野
への応用展開を可能となす変色具を提供しようとするも
のである。
In particular, the thermochromic element of interest is a color-memorizing thermochromic dye (discoloring showing a large hysteresis characteristic due to temperature change, and has two discoloring points, a low-temperature discoloring point and a high-temperature discoloring point. The coloration state and the colorless state or the alternation between the colored [1] and the colored [2] are exhibited, and by application of heat at a temperature lower than the low-temperature side discoloration point or at a temperature higher than the high-temperature side discoloration point, the appearance differs from the normal state. A pigment having a thermochromic layer colored with a coloring material containing a pigment having a function of being able to change and change the appearance of the aspect in a normal temperature range. An object of the present invention is to provide a discoloring device that enables the diversification of products and the application and development to various fields by effectively exhibiting the function of a color memory thermosensitive dye.

【0006】[0006]

【課題を解決するための手段】本発明変色具1を図面に
ついて説明する。本発明は、熱変色層が形成されている
熱変色性要素に接触させることにより、接触部位を熱変
色させる変色具において、P型半導体素子21とN型半
導体素子22とを金属片23で交互に接合し、上下両面
を熱伝導性絶縁板24で挟持してユニット化した構成の
ペルチエ効果を有する熱電変換素子2を熱源として利用
した変色具であって、前記熱電変換素子2の吸熱側Aに
伝熱部材4を連接し、発熱側Aには金属片よりなる放熱
器3を連接してなり、前記放熱器3は基底面31aと該
基底面31aに延設される放熱脚片31bにより構成さ
れており、直流電圧の印加により作動可能に構成されて
なる変色具1を要件とする。更には、熱変色性要素の熱
変色層が温度変化により大きなヒステリシス特性を示し
て、着色状態と無色状態又は有色〔1〕と有色〔2〕状
態間の互変性を呈し、常温域で前記二状態の何れかを選
択的に記憶保持可能な色彩記憶性感温変色性色素を含む
色材で彩色されてなる系と組合わせて適用される変色具
1を要件とする。
The discoloring device 1 of the present invention will be described with reference to the drawings. The present invention relates to a color-changing device for thermally discoloring a contact portion by contacting a thermochromic element on which a thermochromic layer is formed, wherein a P-type semiconductor element 21 and an N-type semiconductor element 22 are alternately formed by metal pieces 23. And a thermoelectric conversion element 2 having a Peltier effect as a heat source, wherein the thermoelectric conversion element 2 has a Peltier effect as a heat source. A heat radiator 3 made of a metal piece is connected to the heat generation side A, and the radiator 3 is composed of a base surface 31a and a heat radiation leg piece 31b extending from the base surface 31a. The color changing device 1 is configured to be operable by application of a DC voltage. Further, the thermochromic layer of the thermochromic element exhibits a large hysteresis characteristic due to a temperature change, and exhibits a coloring state and a colorless state or a tautomerism between the colored state [1] and the colored state [2]. A color changing device 1 applied in combination with a system that is colored with a color material containing a color-memory thermosensitive color-changing dye capable of selectively storing and holding any of the states is required.

【0007】前記において、ペルチエ効果を有する熱電
変換素子2は、従来より汎用されているものが有効であ
る。前記熱電変換素子2は、不足電子P型と、過剰電子
N型の半導体素子からなるカプルを金属片23(電極)
で交互に接合し、上面及び下面をアルミナ、セラミック
等の熱伝導性絶縁板24で挟持しユニット化してなる構
成であって、N側端子からP側端子に電流を流すとペル
チエ効果により上面で吸熱、下面で発熱する(図7、図
8参照)。
In the above, as the thermoelectric conversion element 2 having the Peltier effect, a thermoelectric conversion element which has been widely used conventionally is effective. The thermoelectric conversion element 2 includes a couple of semiconductor elements of insufficient electron P-type and excess electron N-type, and a metal piece 23 (electrode).
The upper and lower surfaces are sandwiched by a thermally conductive insulating plate 24 made of alumina, ceramics or the like to form a unit. When a current flows from the N-side terminal to the P-side terminal, the Peltier effect causes It absorbs heat and generates heat at the lower surface (see FIGS. 7 and 8).

【0008】前記におけるP型或いはN型半導体素子2
1、22は、Bi2 Te3 、Bi2Se3 、Sb2 Te
3 等が例示できる。半導体素子の対数は、1〜511
対、より実用的には4〜127対、好ましくは4〜31
対の系が有効である。
[0008] P-type or N-type semiconductor element 2 in the above
1, 22 are Bi 2 Te 3 , Bi 2 Se 3 , Sb 2 Te
3 etc. can be exemplified. The logarithm of the semiconductor element is 1 to 511
Pairs, more practically 4-127 pairs, preferably 4-31
Paired systems are valid.

【0009】本発明における放熱器3は、金属片からな
り、熱電変換素子2の発熱側Bに密接させる基底面31
aと、該基底面31aより延設される放熱脚片31bを
有するものである。具体的には例えば、金属片の折り曲
げ加工により一体的に基底面31aと放熱脚片31bを
構成するもの、金属材料の鋳造又は切削加工により基底
面31aと放熱脚片31bを一体的に構成するもの、あ
るいは基底面31aと放熱脚片31bのそれぞれ別部材
を、係合、嵌着、あるいは接着させて構成するもの等、
有効である。
The radiator 3 according to the present invention is made of a metal piece and has a base surface 31 that is in close contact with the heat generation side B of the thermoelectric conversion element 2.
a and a heat radiation leg 31b extending from the base surface 31a. Specifically, for example, the base surface 31a and the heat radiation leg piece 31b are integrally formed by bending a metal piece, or the base surface 31a and the heat radiation leg piece 31b are integrally formed by casting or cutting a metal material. Or a member formed by engaging, fitting, or adhering separate members of the base surface 31a and the heat radiation leg piece 31b,
It is valid.

【0010】又、前記放熱脚片31bの形状は平面状、
ジグザグ状、らせん状、波状、線状体等、何れであって
もよい。又、本数も1本以上が延設されていればよい。
尚、前記金属片の材料としては、アルミニウム、銅、黄
銅、鉄等が挙げられる。
The shape of the heat radiation leg piece 31b is flat.
Any of zigzag, spiral, wavy, linear, etc. may be used. Also, the number may be one or more.
The material of the metal piece includes aluminum, copper, brass, iron and the like.

【0011】前記熱電変換素子2に通電する直流電源に
よる印加電圧は、0.1〜50Vであり、0.1V以下
の系では、電池による作動が困難であり、50V以上の
系では、それに応じたカプル数の増加が必要であり、玩
具、教習、筆記材等の分野等の一般商品への適用に対し
高価格となり、不向きであり、特殊な用途に制約され
る。通常、0.2〜20Vの印加電圧により機能する熱
電変換素子2との組み合わせが好ましい。
The voltage applied by a DC power supply for supplying electricity to the thermoelectric conversion element 2 is 0.1 to 50 V. In a system of 0.1 V or less, it is difficult to operate with a battery. It is necessary to increase the number of couples, and it becomes expensive, unsuitable for application to general products such as toys, training, writing materials and the like, and is restricted to special applications. Usually, a combination with the thermoelectric conversion element 2 which functions with an applied voltage of 0.2 to 20 V is preferable.

【0012】電源としては、乾電池その他各種バッテリ
ーやAC/DC変換器を接続し、交流を直流に変換させ
て適用することもできる。
As a power source, a dry cell or other various batteries or an AC / DC converter may be connected to convert an alternating current into a direct current and apply.

【0013】電源部は、変色具1を構成する軸胴5内に
収容し、リード線8により熱電変換素子2と接続して構
成することができるが、電源収容部9を別体に構成して
適用することもできる。電池を電源として適用する系に
あっては、電源電池と熱電変換素子2との間に抵抗体6
を介在させて直列に接続することができる。前記抵抗体
6は、カーボン被覆抵抗体、酸化被覆抵抗体、酸化金属
被覆抵抗体、ニクロム線、ステンレス線、銅、鉄、アル
ミニウム等の加工体、各種合金部材を挙げることがで
き、0.1Ω〜10Ωの抵抗値のものが有効である。前
記抵抗体6は、電池の出力電流を熱電変換素子2の作動
適正電流範囲内に抑制して必要最低限の電流を流し、冷
却能力を最大限に効果的に発現させる。従って、電池寿
命を延長化させる。
The power supply unit can be housed in the shaft barrel 5 constituting the color changing tool 1 and connected to the thermoelectric conversion element 2 by the lead wire 8. However, the power supply housing 9 is formed separately. Can also be applied. In a system using a battery as a power supply, a resistor 6 is provided between the power supply battery and the thermoelectric conversion element 2.
Can be connected in series. Examples of the resistor 6 include a carbon-coated resistor, an oxide-coated resistor, a metal oxide-coated resistor, a nichrome wire, a stainless steel wire, a processed body of copper, iron, aluminum, and the like, and various alloy members. Those having a resistance value of 10 to 10 Ω are effective. The resistor 6 suppresses the output current of the battery within the proper current range for the operation of the thermoelectric conversion element 2 and allows the minimum necessary current to flow, so that the cooling capacity is effectively maximized. Therefore, the battery life is extended.

【0014】尚、熱電変換素子2の絶縁板24(吸熱
側)に密接される伝熱部材4は、金属材に限らず、肉薄
状の、熱伝導性ゴム、プラスチック、セラミック材等か
らなる加工体であってもよい。又、伝熱部材4が金属材
により形成された系では、熱変色層への接触先端となる
個所をシリコン樹脂加工或いはフッソ樹脂加工等を施
し、滑性を付与することができる。
The heat transfer member 4, which is in close contact with the insulating plate 24 (heat absorbing side) of the thermoelectric conversion element 2, is not limited to a metal material, but is made of a thin, thermally conductive rubber, plastic, ceramic material or the like. It may be a body. Further, in a system in which the heat transfer member 4 is formed of a metal material, a portion serving as a contact end to the thermochromic layer can be processed with a silicon resin or a fluorine resin to impart lubricity.

【0015】又、金属材による伝熱部材4の前端に、連
続気孔をもつ多孔体を装着し、該多孔体に水等を含浸さ
せて、軟質なタッチとスムーズな塗布性を付与できる。
Further, a porous body having continuous pores is mounted on the front end of the heat transfer member 4 made of a metal material, and the porous body is impregnated with water or the like, so that a soft touch and smooth applicability can be imparted.

【0016】前記システムにおける吸熱側Aの温度降下
機能は、10℃〜35℃の環境温度において、前記範囲
の温度に対し、少なくとも3℃以上の降下温度、さらに
具体的には3℃〜40℃(好ましくは10〜25℃)の
降下温度を発現させる。
The function of lowering the temperature of the heat absorbing side A in the above-mentioned system is as follows: at an environmental temperature of 10 ° C. to 35 ° C., a temperature drop of at least 3 ° C. or more, more specifically 3 ° C. to 40 ° C. (Preferably 10 to 25 ° C.).

【0017】前記3℃以内の降下温度では室温の変動に
対し、変色機能を充分発揮できない。一方、40℃を越
える降下温度では水蒸気の凍結が発生し実用的でない。
尚、本発明変色具にあっては、極性の切り換えにより、
吸熱側Aを発熱側に変換させて加熱変色具として機能さ
せることができる。
If the temperature falls below 3 ° C., the color change function cannot be sufficiently exhibited with respect to fluctuations in room temperature. On the other hand, if the temperature falls below 40 ° C., water vapor freezes, which is not practical.
In the discoloring device of the present invention, by switching the polarity,
The heat-absorbing side A can be converted to the heat-generating side to function as a heat discoloring device.

【0018】変色具1は、多様な形態が有効であり、例
えば、筆記具、スタンプ、玩具要素(例えば、人形玩具
の櫛、その他メイクアップ具等)等が挙げられる。次
に、本発明の変色具1と組み合わせて適用される熱変色
性要素の熱変色層を構成する感温変色性材料について説
明する。
Various forms of the discoloration tool 1 are effective, and examples thereof include writing tools, stamps, toy elements (for example, combs for doll toys, and other make-up tools). Next, the thermochromic material constituting the thermochromic layer of the thermochromic element applied in combination with the color changing device 1 of the present invention will be described.

【0019】従来より公知の感温変色性色素を含む熱変
色性材料、例えば、液晶や、電子供与性呈色性有機化合
物、前記化合物の顕色剤及び前記両者の呈色反応を生起
させる媒体となる化合物の3成分を含む熱変色性材料又
は前記成分の樹脂固溶体の微粒子の形態の変色性を示す
熱変色性材料(例えば、特公昭51−35414号公
報、特公昭51−44706号公報、特公昭52−77
64号公報、特公平1−29398号公報等)を挙げる
ことができる。前記は所定の温度(変色点)を境とし
て、その前後で変色し、変化前後の両状態のうち常温域
では特定の一方の状態しか存在しえない。即ち、もう一
方の状態は、その状態が発現するのに要する熱又は冷熱
が適用されている間は維持されるが、前記熱又は冷熱の
適用がなくなれば常温域で呈する状態に戻る、所謂、温
度変化による温度−色濃度について小さいヒステリシス
幅(ΔH)を示して変色するタイプである。
A conventionally known thermochromic material containing a thermochromic dye, for example, a liquid crystal, an electron-donating color-forming organic compound, a developer of the compound, and a medium for causing a color reaction between the two. A thermochromic material containing three components of the following compound or a thermochromic material exhibiting a color change in the form of fine particles of a resin solid solution of the component (for example, JP-B-51-35414, JP-B-51-44706, 52-77
No. 64, Japanese Patent Publication No. 1-293898). The color changes before and after a predetermined temperature (color change point), and only one specific state can exist in a normal temperature range between the two states before and after the change. That is, the other state is maintained while the heat or cold required for the state to develop is applied, but returns to the state exhibited in the normal temperature range if the application of the heat or cold disappears, so-called, This type changes color by showing a small hysteresis width (ΔH) for temperature-color density due to temperature change.

【0020】又、本出願人が先に提案した特開昭60−
264285号公報に記載されている、大きなヒステリ
シス特性を示して変色する色彩記憶性感温変色性色素を
含む熱変色性材料で彩色された系が有効である。前記色
素は、大きなヒステリシス幅(ΔH)を示して変色す
る。即ち、温度変化による着色濃度の変化をプロットし
た曲線の形状が、温度を変色温度域より低温側から温度
を上昇させていく場合と逆に変色温度域より高温側から
下降させていく場合とで大きく異なる経路を辿って変色
するタイプである。
Further, Japanese Patent Application Laid-Open No.
The system described in JP-A-264285, which is colored with a thermochromic material containing a color-memorizing thermochromic dye that exhibits a large hysteresis characteristic and changes color, is effective. The dye changes color with a large hysteresis width (ΔH). That is, the shape of the curve plotting the change in the coloring density due to the temperature change is different from the case where the temperature is increased from a temperature lower than the color change temperature range to the case where the temperature is decreased from the temperature higher than the color change temperature range. It is a type that changes color following a very different path.

【0021】前記した感温変色性色素、色彩記憶性感温
変色性色素は、通常、微小カプセルに内包され、バイン
ダーを含む媒体中に分散されて、インキ、絵具又は塗料
などの形態の色材として適用され、支持体表面に熱変色
層が形成される。また、熱可塑性プラスチック中に前記
微小カプセル顔料を練合させて溶融成形した多様な形状
の熱変色性要素が本発明の変色具1と組み合わせて有効
に適用される。
The thermochromic dye and the color-memorizing thermochromic dye described above are usually encapsulated in microcapsules and dispersed in a medium containing a binder to form a coloring material such as ink, paint or paint. It is applied to form a thermochromic layer on the support surface. In addition, thermochromic elements of various shapes obtained by kneading the microcapsule pigment in a thermoplastic and melt-molding the same are effectively applied in combination with the color changing device 1 of the present invention.

【0022】熱変色性要素は、熱変色性面状体、熱変色
性線状体、凹凸表面をもつ熱変色性成形体、その他既述
の熱変色性材料による熱変色層が表面層に形成されたも
の全てを含む。筆記板、教習、学習材、絵本、その他玩
具要素等を挙げることができる。
The thermochromic element includes a thermochromic planar body, a thermochromic linear body, a thermochromic molded article having an uneven surface, and a thermochromic layer of the above-described thermochromic material formed on the surface layer. Includes everything done. Examples include writing boards, lessons, learning materials, picture books, and other toy elements.

【0023】熱変色層は、−10℃〜+100℃の範囲
(好適には−5℃〜+70℃)に変色点を有するものが
実用面よりみて有効である。
The thermochromic layer having a color change point in the range of -10 ° C. to + 100 ° C. (preferably -5 ° C. to + 70 ° C.) is effective from a practical point of view.

【0024】[0024]

【作用】直流電圧(0.1〜50V)の印加により、N
側端子からP側端子に電流を流すとペルチエ効果により
上面で吸熱、下面で発熱し、上下両面の熱伝導性絶縁板
24に伝熱し、吸熱側A、発熱側Bを形成する(図7〜
図8参照)。前記発熱側B(極性の逆転により、吸熱側
に変換される)に密接配置の放熱器3の作用により、吸
熱側Aの温度を所望温度範囲に降下、維持させる。放熱
器3は、金属片の加工体からなり、生産性の向上と共に
シンプルな構造であって、適正な放熱機能を奏する。
[Function] By applying a DC voltage (0.1 to 50 V), N
When a current flows from the side terminal to the P side terminal, heat is absorbed at the upper surface and heat is generated at the lower surface by the Peltier effect, and is transferred to the heat conductive insulating plates 24 on both the upper and lower surfaces to form a heat absorbing side A and a heat generating side B (FIGS. 7 to 7).
See FIG. 8). The temperature of the heat-absorbing side A is lowered and maintained in a desired temperature range by the action of the radiator 3 closely arranged on the heat-generating side B (converted to the heat-absorbing side by reversing the polarity). The radiator 3 is made of a processed metal piece, has a simple structure with improved productivity, and has an appropriate heat radiation function.

【0025】本発明の変色具1の適用に際し、熱変色層
がヒステリシス幅(ΔH)の小さい熱変色特性を示す感
温色素を含む色材で形成された系では、変色点を境とし
てその前後で変色し、変化前後の両状態のうち、常温域
では特定の一方の状態を存在させ、もう一方の状態はそ
の状態が発現するのに要する熱又は冷熱が適用されてい
る間は維持されるが、前記熱又は冷熱の適用がなくなれ
ば常温域で呈する状態に戻る。
When the color changing device 1 of the present invention is applied, in a system in which the thermochromic layer is formed of a coloring material containing a thermosensitive dye exhibiting a thermochromic property with a small hysteresis width (ΔH), the color changing point may be changed before and after the color changing point. In the normal temperature range, one of the two states before and after the change is present, and the other state is maintained while the heat or cold required for the state to appear is applied. However, when the application of the heat or cold is stopped, the state returns to the normal temperature range.

【0026】一方、色彩記憶性感温変色性色素を含む色
材で形成された熱変色層は、低温側変色点以下の冷熱、
或いは高温側変色点以上の熱の適用により、常態と異な
る様相に互いに変色させ、その状態が発現するのに要し
た冷熱又は熱の適用をなくしても、その状態を常温域で
記憶保持させることができ、前記記憶保持された様相
は、前記状態の発現するに要したと逆の熱的手段により
元の状態に変色させ、これを常温域で記憶保持させる。
On the other hand, a thermochromic layer formed of a color material containing a color-memorizing thermochromic dye has a low temperature below the low-temperature side color-changing point.
Alternatively, by applying heat above the high-temperature side discoloration point, the colors are discolored to each other in a manner different from the normal state, and even if the application of cold or heat required to develop the state is eliminated, the state is retained and stored in the normal temperature range. The stored state is changed to the original state by a thermal means reverse to that required for the above-mentioned state to appear, and this is stored and stored in a normal temperature range.

【0027】[0027]

【実施例】第1実施例を説明する(図1〜図4参照)。
側部に多数の放熱孔51を配設した軸胴5の前部に熱電
変換素子2(半導体の対数:11対)を装着させ、吸熱
側Aの絶縁板24に筆記先端形状の金属性伝熱部材4を
密接配置し、発熱側Bの絶縁板24には放熱器3を配置
してなる。前記放熱器3は、1mm厚×8mm幅×17
0mm長さのアルミニウム板片の中央部10mm幅を基
底面31aとし「コの字」状に折曲形成した加工体31
(図3)を2個を図4の如く組み合わせ、基底面31a
を互いに密着させ構成されている。前記放熱器3の基底
面31aの密接された箇所(基底面31aと発熱側縁板
24の間、及び基底面31aと基底面31aの間)に
は、熱伝導グリ−スが塗布されて密接性が保持されてい
る。熱電変換素子2にはリード線8を介して乾電池7
(1.5V)と接続され、その回路には抵抗体6(約
0.3Ω)を介在させて通電、作動可能に構成される。
DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment will be described (see FIGS. 1 to 4).
A thermoelectric conversion element 2 (semiconductor pair: 11 pairs) is attached to the front of the shaft body 5 having a large number of heat radiation holes 51 on the side, and a metal tip having a writing tip shape is attached to the insulating plate 24 on the heat absorption side A. The heat member 4 is closely arranged, and the radiator 3 is arranged on the insulating plate 24 on the heating side B. The radiator 3 is 1 mm thick × 8 mm wide × 17
A machined body 31 formed by bending a 0-mm-long aluminum plate piece into a "U-shape" with a base portion 31a having a width of 10 mm at a central portion thereof.
(FIG. 3) are combined as shown in FIG.
Are adhered to each other. A heat conductive grease is applied to close contact portions of the base surface 31a of the radiator 3 (between the base surface 31a and the heat generating side edge plate 24 and between the base surfaces 31a and 31a). Sex is maintained. A dry battery 7 is connected to the thermoelectric conversion element 2 through a lead wire 8.
(1.5V), and the circuit is configured to be energized and operable with a resistor 6 (about 0.3Ω) interposed in the circuit.

【0028】第2実施例を説明する(図5参照)。図3
の如く金属板片の折曲加工体31の単体を3個組み合わ
せ係合させて放熱器3を構成して適用した以外は実施例
1と同様にして変色具1を構成した。
A second embodiment will be described (see FIG. 5). FIG.
The discoloring device 1 was constructed in the same manner as in Example 1 except that the radiator 3 was constructed by applying and combining three single pieces of the bent metal plate piece 31 as described above.

【0029】第3実施例を説明する(図6参照)。金属
板片の折曲加工体31の変形例であり、2本の放熱脚片
31bがジグザグ状に折り曲げられ、放熱面積を増加さ
せている。
A third embodiment will be described (see FIG. 6). This is a modified example of the bent body 31 of the metal plate piece, in which two heat radiation leg pieces 31b are bent in a zigzag shape to increase the heat radiation area.

【0030】第4実施例を説明する(図示せず)。電源
収容部9を別体として構成した以外は、実施例1と同様
にして変色具1を構成した。
A fourth embodiment will be described (not shown). The color changing device 1 was configured in the same manner as in Example 1 except that the power supply housing 9 was configured as a separate body.

【0031】前記変色具1の筆記先端部の温度は、室温
25℃において、通電開始20秒後で約0℃、60秒後
で約−7℃を示した。
The temperature of the writing tip of the discoloring device 1 was about 0 ° C. 20 seconds after the start of energization and about −7 ° C. 60 seconds later at a room temperature of 25 ° C.

【0032】前記変色具1(冷熱用)を用いて、白色シ
ート材に色彩記憶性感温色素〔黒色←→無色(低温側変
色点15℃、高温側変色点35℃)〕を含む色材により
熱変色層が全面に形成されている熱変色性要素(室温下
で白色を呈している)に筆記したところ、筆記部分の白
色が変色し、黒色の筆跡を現出させた。前記筆跡は17
℃〜30℃の室温下で記憶保持された。前記シート材を
35℃以上に加熱すると黒色の筆跡は消え、全面白色の
筆記面として繰り返し、実用に供される。
Using the color changer 1 (for cold / hot), a color material containing a color-memory thermosensitive dye [black ← → colorless (low-temperature side color change point 15 ° C., high-temperature side color change point 35 ° C.)] on a white sheet material When writing was performed on a thermochromic element (having white color at room temperature) in which the thermochromic layer was formed on the entire surface, the white color of the written portion changed color, and a black handwriting appeared. The handwriting is 17
The data was stored at room temperature of 30C to 30C. When the sheet material is heated to 35 ° C. or higher, the black handwriting disappears, and the whole surface is repeatedly used as a white writing surface, and is practically used.

【0033】[0033]

【発明の効果】本発明の変色具は、熱変色層を設けた熱
変色性要素と組み合わせて適用され、殊に、低温域に変
色点を有する熱変色性要素の変色機能を効果的に発現さ
せることができる冷熱変色具であって、従来の冷水、氷
片等を冷熱媒体とする冷熱手段に対し、任意な時、任意
な場所において、即座に簡便に対象物の熱変色層を冷熱
変色させる利便性、非耐水性対象物への適用性、携帯性
等を満足させる。しかも、印加電圧が低電圧で有効に機
能させることができ、漏電等の危険もない。乾電池等バ
ッテリーの取り換えにより機能を永続させることができ
る。更には、放熱器が伝熱性金属片を加工、組合せた部
材からなり、比較的シンプル且つ生産性を満たすと共に
所期の放熱機能を満たす。更には、電源電池と熱電変換
素子2との間に抵抗体を介在させて通電、作動可能に構
成した系にあっては、電源電池の出力電流を適正に小さ
くして効果的に機能させ、電池寿命を長くすることがで
きる。本発明の変色具は、前記した如く、簡便に冷熱の
適用が可能となり、低温域に変色点を有する熱変色層を
配設した構成の多様な熱変色性要素との組み合わせを可
能となす。殊に、対象の熱変色性要素が、色彩記憶性感
温変色性色素(温度変化により大きなヒステリシス特性
を示して変色し、低温側変色点と高温側変色点の二つの
変色点をもち、着色状態と無色状態または有色〔1〕と
有色〔2〕間の互変性を呈し、前記低温側変色点以下の
冷熱又は高温側変色点以上の熱の適用により、常態と異
なる様相に変化させることができ、その様相を常温域で
記憶保持させることができる機能を有する色素)を含む
色材で彩色された熱変色層を備えた系と組み合わせ適用
することにより、前記色彩記憶性感温変色性色素の機能
を効果的に発現させて、商品の多様化、多分野への応用
展開を可能にすることができる。
The color-changing device of the present invention is applied in combination with a thermochromic element provided with a thermochromic layer. In particular, the color-changing function of a thermochromic element having a color-changing point in a low-temperature region is effectively exhibited. A thermochromic discoloration device that can be used to cool and discolor the thermochromic layer of an object quickly and easily at any time and at any place, compared to conventional cooling means using cold water or ice chips as a cooling medium. It satisfies the convenience, the applicability to non-water resistant objects, the portability, and the like. In addition, it can function effectively with a low applied voltage, and there is no danger of electric leakage or the like. The function can be made permanent by replacing batteries such as dry batteries. Further, the radiator is made of a member obtained by processing and combining a heat conductive metal piece, and is relatively simple and satisfies the productivity and satisfies the desired heat radiation function. Further, in a system in which a resistor is interposed between the power supply battery and the thermoelectric conversion element 2 so as to be energized and operable, the output current of the power supply battery is appropriately reduced to function effectively, Battery life can be extended. As described above, the color-changing device of the present invention can easily apply cold heat, and can be combined with various thermochromic elements having a configuration in which a thermochromic layer having a color-changing point in a low-temperature region is provided. In particular, the thermochromic element of interest is a color-memorizing thermochromic dye (discoloring showing a large hysteresis characteristic due to temperature change, having two discoloring points, a low-temperature side discoloring point and a high-temperature side discoloring point, And a colorless state or a tautomerism between the colored [1] and the colored [2], and can be changed to a state different from the normal state by the application of cold heat below the low-temperature discoloration point or heat above the high-temperature discoloration point. , A dye having a function of storing and maintaining the appearance in a normal temperature range) by applying in combination with a system having a thermochromic layer colored with a coloring material containing the color-memorizing thermochromic dye. Can be effectively expressed to enable diversification of products and application development to various fields.

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

【図1】本発明変色具の一実施例の縦断面図である。FIG. 1 is a longitudinal sectional view of an embodiment of the color changing device of the present invention.

【図2】図1の変色具の回路説明図である。FIG. 2 is a circuit diagram of the color changing device of FIG. 1;

【図3】図1の変色具の放熱器の分解斜視図である。FIG. 3 is an exploded perspective view of a radiator of the discoloring tool of FIG.

【図4】図1の変色具の放熱器の斜視図である。FIG. 4 is a perspective view of a radiator of the discoloring tool of FIG. 1;

【図5】本発明変色具に適用する他の放熱器の斜視図で
ある。
FIG. 5 is a perspective view of another radiator applied to the color changing device of the present invention.

【図6】本発明変色具に適用する他の放熱器の斜視図で
ある。
FIG. 6 is a perspective view of another radiator applied to the color changing device of the present invention.

【図7】本発明変色具に適用する熱電変換素子の斜視図
である。
FIG. 7 is a perspective view of a thermoelectric conversion element applied to the color changing device of the present invention.

【図8】本発明変色具に適用する熱電変換素子の作動説
明図である。
FIG. 8 is an operation explanatory view of a thermoelectric conversion element applied to the color changing device of the present invention.

【符号の説明】[Explanation of symbols]

1 変色具 2 熱電変換素子 21 P型半導体素子 22 N型半導体素子 23 金属片 24 絶縁板 A 吸熱側 B 発熱側 3 放熱器 31 折曲加工体 31a 基底面 31b 放熱脚片 4 伝熱部材 5 軸胴 6 抵抗体 7 電源電池 8 リード線 9 電源収容部 10 スイッチ DESCRIPTION OF SYMBOLS 1 Discoloration tool 2 Thermoelectric conversion element 21 P-type semiconductor element 22 N-type semiconductor element 23 Metal piece 24 Insulating plate A Heat-absorbing side B Heating side 3 Radiator 31 Bent body 31a Base bottom surface 31b Heat-dissipating leg piece 4 Heat-transfer member 5 Shaft Body 6 Resistor 7 Power battery 8 Lead wire 9 Power supply compartment 10 Switch

フロントページの続き (58)調査した分野(Int.Cl.7,DB名) A63H 30/02 A63H 33/22 B41K 1/00 B43K 8/00 B43K 19/00 - 19/12 B43L 1/00 B43L 19/00 Continuation of front page (58) Fields investigated (Int.Cl. 7 , DB name) A63H 30/02 A63H 33/22 B41K 1/00 B43K 8/00 B43K 19/00-19/12 B43L 1/00 B43L 19 / 00

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 熱変色層が形成されている熱変色性要素
に接触させることにより、接触部位を熱変色させる変色
具において、P型半導体素子とN型半導体素子とを金属
片で交互に接合し、上下両面を熱伝導性絶縁板で挟持し
てユニット化した構成のペルチエ効果を有する熱電変換
素子を熱源として利用した変色具であって、前記熱電変
換素子の吸熱側に伝熱部材を連接し、発熱側には金属片
よりなる放熱器を連接してなり、前記放熱器は、基底面
と該基底面に延設される放熱脚片により構成されてお
り、直流電圧の印加により作動可能に構成されてなる変
色具。
1. A color-changing device for thermally discoloring a contact portion by contacting a thermochromic element having a thermochromic layer formed thereon, wherein a P-type semiconductor element and an N-type semiconductor element are alternately joined by a metal piece. A color changer using a thermoelectric conversion element having a Peltier effect as a heat source, in which the upper and lower surfaces are sandwiched by a heat conductive insulating plate as a unit, and a heat transfer member is connected to a heat absorbing side of the thermoelectric conversion element. A radiator made of a metal piece is connected to the heat-generating side, and the radiator is constituted by a base surface and a heat-dissipating leg piece extending from the base surface, and can be operated by applying a DC voltage. A discoloration tool composed of:
【請求項2】 熱変色性要素の熱変色層が、温度変化に
より大きなヒステリシス特性を示して、着色状態と無色
状態又は有色〔1〕と有色〔2〕状態間の互変性を呈
し、常温域で前記二状態の何れかを選択的に記憶保持可
能な色彩記憶性感温変色性色素を含む色材で彩色されて
なり、前記熱変色性要素と組合わせて適用される請求項
1記載の変色具。
2. The thermochromic element of the thermochromic element exhibits a large hysteresis characteristic due to a temperature change, exhibits a colorless state and a colorless state, or exhibits a tautomerism between a colored state [1] and a colored state [2], and a normal temperature range. The color change according to claim 1, wherein the color change is performed by using a color material containing a color storage thermosensitive color changeable pigment capable of selectively storing and holding one of the two states, and applied in combination with the thermochromic element. Utensils.
JP21713492A 1992-07-23 1992-07-23 Discoloration equipment Expired - Fee Related JP3177669B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP21713492A JP3177669B2 (en) 1992-07-23 1992-07-23 Discoloration equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP21713492A JP3177669B2 (en) 1992-07-23 1992-07-23 Discoloration equipment

Publications (2)

Publication Number Publication Date
JPH0639152A JPH0639152A (en) 1994-02-15
JP3177669B2 true JP3177669B2 (en) 2001-06-18

Family

ID=16699393

Family Applications (1)

Application Number Title Priority Date Filing Date
JP21713492A Expired - Fee Related JP3177669B2 (en) 1992-07-23 1992-07-23 Discoloration equipment

Country Status (1)

Country Link
JP (1) JP3177669B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5743185A (en) * 1995-01-17 1998-04-28 Mattel, Inc. Flexible thermally conductive stamp and material
US20120045960A1 (en) 2010-08-18 2012-02-23 Erika Kane Toy Assembly With Blower And Color Changing Features

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2909777B2 (en) 1991-03-28 1999-06-23 パイロットインキ株式会社 Color changing device

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2909777B2 (en) 1991-03-28 1999-06-23 パイロットインキ株式会社 Color changing device

Also Published As

Publication number Publication date
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