JPH0726324Y2 - Winter clothes - Google Patents
Winter clothesInfo
- Publication number
- JPH0726324Y2 JPH0726324Y2 JP1989039763U JP3976389U JPH0726324Y2 JP H0726324 Y2 JPH0726324 Y2 JP H0726324Y2 JP 1989039763 U JP1989039763 U JP 1989039763U JP 3976389 U JP3976389 U JP 3976389U JP H0726324 Y2 JPH0726324 Y2 JP H0726324Y2
- Authority
- JP
- Japan
- Prior art keywords
- energy
- light energy
- heat
- layer
- clothes
- 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 - Lifetime
Links
Description
【考案の詳細な説明】 (産業上の利用分野) 本考案は、スキーや寒冷地で着用される防寒用衣服に関
するものである。[Detailed Description of the Invention] (Industrial field of application) The present invention relates to cold weather clothing worn in skis and in cold regions.
(従来の技術) 従来から、スキーや寒冷地で着用される防寒用衣服は十
分な保温性が要求されるとともに、運動性を阻害しない
ように軽くて薄いことが要求されている。(Prior Art) Conventionally, winter clothes worn in skis or in cold regions are required to have sufficient heat retention properties, and to be light and thin so as not to impair motility.
保温性を高める手段としては、合成繊維からなるマイク
ロファイバー製の綿や水鳥のダウンを用いて、生地内に
デッドエアー層(不動空気層)を設けることによって空
気を断熱材として利用し寒冷な外気を遮断して保温する
ものや、実開昭63−73308号考案に示す遠赤外線放射セ
ラミック等を設けアルミ箔等の面発熱体を電池で加温し
て身体の所望部を加温する「上衣」や、実開昭63−1315
6号考案や実開昭63−167117号考案に示す合成繊維など
の衣服の内側に、遠赤外線を放射するインキを印刷する
「遠赤外線照射衣」や、「ウオタースポーツ用ウエア」
等が提案されている。As a means to increase heat retention, use cotton or waterfowl down made of synthetic fibers, and use dead air layer (immobile air layer) in the fabric to use air as a heat insulating material and cold outside air. Insulation that shuts off the heat and provides a far-infrared radiation ceramic as shown in Japanese Utility Model Laid-Open No. 63-73308 is used to heat a surface heating element such as aluminum foil with a battery to heat a desired part of the body. 」、 Actual development Sho 63-1315
"Far-infrared irradiation clothing" that prints ink that emits far-infrared rays, and "water sports wear" that is printed on the inside of clothes such as synthetic fiber as shown in Invention No. 6 and No. 63-167117
Etc. have been proposed.
又、特開昭63−30312号考案においては、感熱可逆変色
性インキを含有する合成樹脂層と、紫外線吸収剤及び/
又は酸化防止剤を含有する合成樹脂層から成る積層構造
体を表地として使用した「感熱可逆変色性防水衣服」を
形成して寒冷地における衣服の保温性を確保する手段が
多々講じられている。Further, in the invention of JP-A-63-30312, a synthetic resin layer containing a thermosensitive reversible color-changing ink, an ultraviolet absorber and /
Alternatively, many measures have been taken to ensure the heat retention of clothes in cold regions by forming a "thermosensitive reversible discolorable waterproof garment" using a laminated structure composed of a synthetic resin layer containing an antioxidant as an outer material.
(考案が解決使用とする課題) ところが、合成繊維からなるマイクロファイバー製の綿
や水鳥のダウンを用いたものは嵩高と成り運動性が阻害
される欠点があり、実開昭63−73308号考案は電池等を
必要とし、実開昭63−13156号考案は外気の温度に順応
して衣服内の温度を調節する機能を備えておらない欠点
があり、実開昭63−167117号考案は保温性というよりも
外気の温度変化に応じて生地表面の色彩の変化を楽しむ
ものであった。(Problems to be solved and used by the device) However, the one using cotton or waterfowl down made of synthetic fiber made of synthetic fiber is bulky and has a drawback of impairing motility. Requires a battery, etc., and the device of No. 63-13156 has a drawback that it does not have the function of adjusting the temperature inside clothes by adapting to the temperature of the outside air. I enjoyed the change in the color of the fabric surface according to the change in the temperature of the outside air rather than the sex.
(課題を解決するための手段) 本考案防寒衣服は、衣服の表面に太陽光の光エネルギー
を吸収するに際して、衣服の表生地に環境温度の変化に
対応して、光エネルギーの吸収量を調節可能にした素材
を用い、更に吸収した光エネルギーを熱エネルギーに変
換し、該変換された熱エネルギーを身体方向に放出する
ことにより、環境温度即ち、外気温の低い時には多量の
熱エネルギーを身体方向に放出して身体を保温し、外気
温の比較的高い時には少量の熱エネルギーを身体方向に
放出して身体を常に快適温度に保持せしめる機能を付与
することにより前記課題を解決しようとするものであ
る。(Means for Solving the Problem) In the present winter clothes, when absorbing the light energy of sunlight on the surface of the clothes, the absorption amount of the light energy is adjusted according to the change of the environmental temperature on the surface material of the clothes. By using the material made possible, the absorbed light energy is converted into heat energy, and the converted heat energy is released toward the body, so that a large amount of heat energy is directed toward the body when the ambient temperature, that is, the outside air temperature is low. It is intended to solve the above-mentioned problems by giving a function to keep the body warm by releasing it to the body and to keep the body at a comfortable temperature by releasing a small amount of heat energy toward the body when the outside temperature is relatively high. is there.
環境温度による太陽光の吸収率の多寡は、第4図に示す
ように、一般のスキー場に見られる処の外気温摂氏マイ
ナス15度から摂氏プラス15度の範囲において変化し、太
陽光の光エネルギーの吸収率は摂氏0度近傍を境界とし
て低温域においては約75%程度であり、摂氏5度近傍を
境界として高温域においては約25%程度である。As shown in Fig. 4, the abundance of sunlight absorption depending on the ambient temperature changes in the range of minus 15 degrees Celsius to plus 15 degrees Celsius of the outside temperature of ordinary ski resorts. The energy absorption rate is about 75% in the low temperature region with a boundary near 0 degrees Celsius and about 25% in the high temperature region with a boundary near 5 degrees Celsius.
(作用) 衣服に受ける太陽光の光エネルギーは衣服の防寒用衣服
生地に設けたエネルギー変換層の光エネルギー吸収量調
節層に吸収される。(Function) The light energy of the sunlight received by the clothes is absorbed by the light energy absorption amount adjusting layer of the energy conversion layer provided on the cloth for winter clothes of the clothes.
光エネルギー吸収量調節層は環境温度、即ち外気温の低
い時には光を吸収する暗色(黒色)になるからエネルギ
ーの吸収量は多くなり、該光エネルギー吸収量調節層に
蓄積された多大な光エネルギーは熱エネルギー放出層で
熱変換されて人体方向に放出される。又外気温の高い時
には太陽光を反射する明色(白色)になるからネルギー
の吸収量は少なくなり、該光エネルギー吸収量調節層に
蓄積された少量の光エネルギーは熱エネルギー放出層で
熱変換されて人体方向に放出され環境温度の変化に対応
して衣服内温度を適温に調節可能にする作用を奏する。The light energy absorption adjusting layer has a dark color (black color) that absorbs light when the ambient temperature, that is, the outside air temperature is low, so that the amount of energy absorption increases, and a large amount of light energy accumulated in the light energy absorbing amount adjustment layer. Is converted into heat by the heat energy emission layer and emitted toward the human body. Also, when the outside temperature is high, it becomes a bright color (white) that reflects sunlight, so the amount of energy absorbed is small, and the small amount of light energy accumulated in the light energy absorption layer is converted into heat by the heat energy emission layer. It is released to the human body and has the effect of adjusting the temperature inside the clothes to an appropriate temperature in response to changes in the environmental temperature.
(実施例) 本考案の実施例を図面に基づき説明する。(Example) The Example of this invention is described based on drawing.
第1図乃至第3図は本考案の防寒用衣服生地の要部断面
図である。1 to 3 are cross-sectional views of the essential parts of the cloth for winter clothes of the present invention.
第1図,第2図に示す実施例について説明する。The embodiment shown in FIGS. 1 and 2 will be described.
先ず、ナイロン,ポリエステル,綿その他任意の合成繊
維や天然繊維等で形成した基布Aを形成する。First, a base fabric A formed of nylon, polyester, cotton or any other synthetic fiber or natural fiber is formed.
次に、環境温度が摂氏マイナス5度以下においては光エ
ネルギーを約75%程度吸収する暗色(黒色)を呈し、摂
氏5度以上においては光エネルギーを約25%程度吸収す
る明色(白色)を呈し、摂氏マイナス5度から摂氏5度
の範囲において暗色(黒色)から明色(白色)に色調が
変化することに対応して光エネルギーの吸収率を調節可
能とした感温変色性色素やサーモトロピック液晶やこれ
らと同効質の感温変色材1を含有する光エネルギー吸収
量調節層Cを形成する。Next, when the ambient temperature is -5 degrees Celsius or less, a dark color (black) that absorbs approximately 75% of light energy is exhibited, and when it is 5 degrees Celsius or more, a bright color (white) that absorbs approximately 25% of light energy is exhibited. The thermochromic pigments and thermos that exhibit the absorption rate of light energy in response to the change in color tone from dark color (black) to light color (white) in the range of minus 5 degrees Celsius to 5 degrees Celsius. A light energy absorption amount adjusting layer C containing the tropic liquid crystal and the temperature-sensitive color changing material 1 having the same effect as these is formed.
次に、金属酸化物や無機炭化物やセラミックスやこれら
と同効質の熱放出材2を含有する熱エネルギー放出層D
を形成する。Next, a thermal energy emitting layer D containing a metal oxide, an inorganic carbide, a ceramic, or a heat emitting material 2 having the same effect as these.
To form.
次に、ナイロン,ポリウレタン又はこれらと同効質の透
明樹脂から成るトップ層3を形成する。Next, the top layer 3 made of nylon, polyurethane, or a transparent resin having the same effect as these is formed.
次に、前記光エネルギー吸収量調節層Cの下面に、前記
熱エネルギー放出層Dを設けその下面に前記トップ層3
を設けて前記三者を一体に積層してエネルギー変換層B
を形成する。Next, the thermal energy emission layer D is provided on the lower surface of the light energy absorption adjusting layer C, and the top layer 3 is provided on the lower surface thereof.
And the energy conversion layer B
To form.
次に、前記エネルギー変換量Bの上面に、前記ナイロ
ン,ポリエステル,綿その他任意の合成繊維や天然繊維
等からなる基布Aを載置して一体に形成して表生地Kか
ら成る防寒用衣服生地を形成する。Next, on the upper surface of the energy conversion amount B, a base cloth A made of nylon, polyester, cotton or any other synthetic fiber or natural fiber is placed and integrally formed to form an outer cloth K for winter clothes. Form the dough.
次に、第3図に示す実施例について説明する。第3図に
示す実施例は、エネルギー変換層Bを生地表面に設け基
布Aを内面側に設けたもので、 先ず、ナイロン,ポリウレタン又はこれらと同効質の透
明樹脂から成るトップ層3を形成する。Next, the embodiment shown in FIG. 3 will be described. In the embodiment shown in FIG. 3, the energy conversion layer B is provided on the fabric surface and the base fabric A is provided on the inner surface side. First, the top layer 3 made of nylon, polyurethane, or a transparent resin having the same effect as these is provided. Form.
次に、環境温度が摂氏マイナス5度以下においては光エ
ネルギーを約75%程度吸収する暗色(黒色)を呈し、摂
氏5度以上においては光エネルギーを約25%程度吸収す
る明色(白色)を呈し、摂氏マイナス5度から摂氏5度
の範囲において暗色(黒色)から明色(白色)に色調が
変化することに対応して光エネルギーの吸収率を調節可
能とした感温変色性色素やサーモトロピック液晶やこれ
らと同効質の感温変色材1を含有する光エネルギー吸収
量調節層Cを形成する。Next, when the ambient temperature is -5 degrees Celsius or less, a dark color (black) that absorbs approximately 75% of light energy is exhibited, and when it is 5 degrees Celsius or more, a bright color (white) that absorbs approximately 25% of light energy is exhibited. The thermochromic pigments and thermos that exhibit the absorption rate of light energy in response to the change in color tone from dark color (black) to light color (white) in the range of minus 5 degrees Celsius to 5 degrees Celsius. A light energy absorption amount adjusting layer C containing the tropic liquid crystal and the temperature-sensitive color changing material 1 having the same effect as these is formed.
次に、金属酸化物や無機炭化物やセラミックスやこれら
と同効質の熱放出材2を含有する熱エネルギー放出層D
を形成する。Next, a thermal energy emitting layer D containing a metal oxide, an inorganic carbide, a ceramic, or a heat emitting material 2 having the same effect as these.
To form.
次に、ナイロン,ポリウレタン,綿その他任意の合成繊
維や天然繊維等で形成した基布Aを形成する。Next, a base cloth A made of nylon, polyurethane, cotton or any other synthetic fiber or natural fiber is formed.
次に、前記トップ層3の下面に前記光エネルギー吸収量
調節層Cのを設けその下面に、前記熱エネルギー放出層
Dを設けその下面に前記基布Aを設けて一体に形成した
表生地Kから成る防寒用衣服生地を形成する。Next, the light energy absorption amount adjusting layer C is provided on the lower surface of the top layer 3, the heat energy emitting layer D is provided on the lower surface thereof, and the base cloth A is provided on the lower surface thereof to form an integrally formed surface K. Forming a winter clothing garment consisting of.
(考案の効果) 本考案をスキー服に使用した場合を例示すると、スキー
服の表生地Kに受けた太陽光の光エネルギーは、表生地
Kに設けたエネルギー変換層Bにおいて熱エネルギーに
変換される。(Effects of the Invention) When the present invention is applied to ski clothes, for example, the light energy of the sunlight received by the ski cloth K is converted into heat energy in the energy conversion layer B provided on the cloth K. It
第1図は、環境温度が高温域にある場合の表生地Kの状
態を示し、表生地Kは高温域にある場合には、光エネル
ギー吸収量調節層Cは明色(白色)になり、生地表面に
おいて照射された太陽光の入射光線Fの一部は反射光線
fとなって生地外部に反射され、光エネルギー吸収量調
節層Cに吸収される光エネルギーは少量となり変換され
る熱量も少量となり、熱エネルギー放出層Dの熱放出材
2で人体方向に放出される熱量も少量となり衣服内温度
は最適温度を保持する。FIG. 1 shows the state of the table cloth K when the environmental temperature is in the high temperature range. When the table cloth K is in the high temperature range, the light energy absorption amount adjusting layer C becomes a bright color (white), A part of the incident light F of the sunlight radiated on the surface of the cloth becomes a reflected light f and is reflected to the outside of the cloth, and the light energy absorbed in the light energy absorption amount adjusting layer C is small and the amount of heat converted is also small. Therefore, the amount of heat released in the direction of the human body by the heat emitting material 2 of the heat energy emitting layer D is also small, and the temperature inside the clothes maintains the optimum temperature.
第2図は、環境温度が低温域にある場合の表生地Kの状
態を示し、表生地Kは低温域にある場合には、光エネル
ギー吸収量調節層Cは暗色(黒色)になり、生地表面に
おいて照射された太陽光の入射光線Fの大半は吸収され
て光エネルギー吸収量調節層Cに吸収蓄積される光エネ
ルギーは大量になり変換される熱量も大量となり、熱エ
ネルギー放出層Dの熱放出材2で人体方向に放出される
熱量も大量となり衣服内に放出される放射熱Hは大量と
なり環境温度が低温域にある場合においても衣服内温度
は最適温度を保持する。FIG. 2 shows the state of the table cloth K when the environmental temperature is in the low temperature range. When the table cloth K is in the low temperature range, the light energy absorption adjusting layer C becomes a dark color (black), Most of the incident rays F of the sunlight radiated on the surface are absorbed and the amount of light energy absorbed and accumulated in the light energy absorption amount adjusting layer C is large and the amount of heat converted is also large, and the heat of the heat energy emitting layer D is increased. A large amount of heat is released by the radiating material 2 toward the human body, and a large amount of radiant heat H is released into the clothes. Even when the environmental temperature is in the low temperature range, the temperature inside the clothes maintains the optimum temperature.
このように、環境温度の変化に対応して衣服内に放出す
る熱量を調節して適温域に保持する機能を有した防寒用
衣服を提供可能としたものである。As described above, it is possible to provide a cold-prevention garment having a function of adjusting the amount of heat released into the garment in accordance with a change in the environmental temperature and maintaining the heat in an appropriate temperature range.
第1図乃至第3図は本考案防寒用衣服の表生地の要部断
面図、第4図は温度変化に対応して可視光域における太
陽光の光エネルギー吸収率の変化を測定したものであ
り、第5図は温度変化に対応してエネルギー変換層にお
いて変換される熱量を生地裏の放射熱温度として測定し
たものである。 1:感温変色材、2:熱放出材、3:トップ層、A:其布、B:エ
ネルギー変換層、C:光エネルギー吸収量調節層、D:熱エ
ネルギー放出層、F:入射光線、f:反射光線、H:放射熱、
K:表生地。1 to 3 are cross-sectional views of the main part of the outer cloth of the present winter clothes, and FIG. 4 is a graph showing changes in the light energy absorption rate of sunlight in the visible light range in response to temperature changes. FIG. 5 shows the amount of heat converted in the energy conversion layer corresponding to the temperature change, which is measured as the radiant heat temperature on the back of the cloth. 1: Temperature-sensitive color changing material, 2: Heat emitting material, 3: Top layer, A: Fabric, B: Energy conversion layer, C: Light energy absorption amount adjusting layer, D: Thermal energy emitting layer, F: Incident light ray, f: reflected light, H: radiant heat,
K: Outer fabric.
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 実開 昭63−30312(JP,U) 実開 昭63−13156(JP,U) 実開 昭63−73308(JP,U) 実開 昭63−167117(JP,U) ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References Shown 63-30312 (JP, U) Shown 63-13156 (JP, U) Shown 63-73308 (JP, U) Shown 63- 167117 (JP, U)
Claims (1)
を吸収し、該光エネルギーを熱エネルギーに変換して衣
服内に放射熱として放出せしめる防寒用衣服において、 環境温度が摂氏マイナス5度以下においては光エネルギ
ーを約75%程度吸収する暗色(黒色)を呈し、摂氏5度
以上においては光エネルギーを約25%程度吸収する明色
(白色)を呈し、摂氏マイナス5度から摂氏5度の範囲
において暗色(黒色)から明色(白色)に色調が変化す
ることに対応して光エネルギーの吸収率を調節可能とし
た感温変色性色素やサーモトロピック液晶やこれらと同
効質の感温変色材を含有する光エネルギー吸収量調節層
を形成し、 金属酸化物や無機炭化物やセラミックスやこれらと同効
質の熱放出材を含有する熱エネルギー放出層を形成し、 ナイロン,ポリウレタン又はこれらと同効質の透明樹脂
から成るトップ層を形成し、 前記光エネルギー吸収量調節層の下面に、前記熱エネル
ギー放出層を設けその上面又は下面の何れか一方に前記
トップ層を設けて前記三者を一体に積層してエネルギー
変換層を形成し、 前記エネルギー変換量の上面にトップ層を設けたものに
ついてはエネルギー変換層の下面に、ナイロン,ポリエ
ステル,綿その他任意の合成繊維や天然繊維等からなる
基布を一体に形成した防寒用衣服生地を形成し、エネル
ギー変換層の下面にトップ層を設けたものについてはエ
ネルギー変換層の上面に、ナイロン,ポリエステル,綿
その他任意の合成繊維や天然繊維等からなる基布を一体
に形成して防寒用衣服生地を形成し、該防寒用衣服生地
からなることを特徴とする防寒用衣服。1. A cold weather garment which absorbs the light energy of sunlight received on the surface of clothes and converts the light energy into heat energy to be released as radiant heat into the clothes, wherein the environmental temperature is -5 degrees Celsius or less. Shows a dark color (black) that absorbs about 75% of light energy, and exhibits a light color (white) that absorbs about 25% of light energy at 5 degrees Celsius or more, from −5 degrees Celsius to 5 degrees Celsius. Temperature-sensitive color-changing dyes and thermotropic liquid crystals that have adjustable absorption rate of light energy in response to the change of color tone from dark color (black) to light color (white) in the range, and temperature sensitivity of the same effect as these A light energy absorption adjusting layer containing a color change material is formed, and a heat energy emitting layer containing a metal oxide, an inorganic carbide, ceramics or a heat emitting material having the same effect as these is formed. Of a transparent resin having the same effect as those of polyurethane, polyurethane or a transparent resin, and the heat energy emitting layer is provided on the lower surface of the light energy absorption adjusting layer, and the top layer is provided on either the upper surface or the lower surface. Is provided to form an energy conversion layer by laminating the three members integrally, and a top layer is provided on the upper surface of the energy conversion amount, nylon, polyester, cotton or any other synthetic material is formed on the lower surface of the energy conversion layer. For fabrics that are made by integrally forming a base cloth made of fibers or natural fibers, and have a top layer on the lower surface of the energy conversion layer, nylon, polyester, cotton or any other material can be used on the upper surface of the energy conversion layer. A winter clothes characterized by being formed integrally with a base cloth made of synthetic fibers or natural fibers to form a winter clothes cloth, and comprising the winter clothes cloth. Clothes.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1989039763U JPH0726324Y2 (en) | 1989-04-03 | 1989-04-03 | Winter clothes |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1989039763U JPH0726324Y2 (en) | 1989-04-03 | 1989-04-03 | Winter clothes |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH02131516U JPH02131516U (en) | 1990-11-01 |
| JPH0726324Y2 true JPH0726324Y2 (en) | 1995-06-14 |
Family
ID=31548957
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1989039763U Expired - Lifetime JPH0726324Y2 (en) | 1989-04-03 | 1989-04-03 | Winter clothes |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0726324Y2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR101321017B1 (en) * | 2013-05-08 | 2013-10-23 | 고경찬 | A light heat generating textile sheet |
Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS6313156U (en) * | 1986-07-14 | 1988-01-28 | ||
| JPH0410178Y2 (en) * | 1986-08-15 | 1992-03-13 | ||
| JPS6373308U (en) * | 1986-10-30 | 1988-05-16 | ||
| JPS63167117U (en) * | 1987-04-21 | 1988-10-31 |
-
1989
- 1989-04-03 JP JP1989039763U patent/JPH0726324Y2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH02131516U (en) | 1990-11-01 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EXPY | Cancellation because of completion of term |