1280871 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種安裝於身體之加溫體,其安裝於身體 之臉部或除此以外之其他部位,並對肌膚加溫。 【先前技術】 作為安裝於身體並使肌膚溫暖之安裝於身體之加溫體, 具有揭示於下述專利文獻i者。1280871 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a body-mounted warming body which is attached to the face of the body or other parts and warms the skin. [Prior Art] As a heating body attached to the body that is attached to the body and warms the skin, it is disclosed in the following patent document.
專利文獻1中所揭示之加溫體具有包含金屬粉與水分以 及鹽類之發熱體。上述發熱體收納於可透過氧與水蒸氣之 透濕性外袋之内部,於朝向肌膚之侧,於上述透濕性外袋 與上述發熱體之間,介隔有溫度調節材料’其藉由織布、 不織布、紙、多孔性薄膜及具有穿孔之發泡塑膠等而形成。 當自密封袋中取出上述加溫體時’氧透過透濕性外袋與 溫度調節材料而供給發熱體,發熱體藉由上述金屬粉之氧 化反應而發熱,並於發熱體内水分蒸發成為水蒸氣,並通 過上述溫度調節材料以及透濕性外袋而供給肌膚。 又,下述專利文獻2中亦揭示有同樣的加溫體。 之溫 而 專利文獻2中所揭示之加溫體中,包含紙以及不織布〜 度調整材料重疊於大致呈正方形之2個發熱體之表面,^ 將该等溫度調整材料收納於透濕性不織布之外袋内 且供 溫體係使2個發熱體部分對向於兩眼而安裝於臉部,/ ° 給眼部水蒸氣者。 [專利文獻日本特開平η_342147號公報 103697.doc 1280871 [專利文獻2]日本特開2〇〇2_78728號公報 [發明所欲解決之問題] 然而,由於上述專利文獻丨與專利文獻2中所揭示者中, 透濕性外袋皆係不織布,故發熱體所發出之熱自不織布的 纖維之間直接供給肌膚,給肌膚之熱刺激將較大。因此, 即使溫度調節材料介隔發熱體與透濕性外袋之間,肌膚亦 容易感受到超過所需之熱度。The warming body disclosed in Patent Document 1 has a heating element containing metal powder, moisture, and salt. The heat generating body is housed in a moisture permeable outer bag that is permeable to oxygen and water vapor, and a temperature regulating material is interposed between the moisture permeable outer bag and the heat generating body on the side facing the skin. It is formed by weaving, non-woven fabric, paper, porous film, and foamed plastic having perforations. When the warming body is taken out from the sealed bag, the oxygen is supplied to the heat generating body through the moisture permeable outer bag and the temperature adjusting material, and the heat generating body generates heat by the oxidation reaction of the metal powder, and the water evaporates into water in the heat generating body. The vapor is supplied to the skin through the above-mentioned temperature-regulating material and a moisture-permeable outer bag. Further, Patent Document 2 listed below also discloses the same heating body. In the warming body disclosed in Patent Document 2, the paper and the non-woven fabric-adjusting material are superposed on the surface of the two heat generating bodies having a substantially square shape, and the temperature adjusting material is stored in the moisture-permeable non-woven fabric. In the outer bag, the heating system allows the two heating elements to face each other and is attached to the face, / ° to the eye water vapor. [Patent Document 2] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. In the case, the moisture permeable outer bag is non-woven, so the heat generated by the heating body is directly supplied to the skin from the non-woven fibers, and the heat stimulation to the skin is large. Therefore, even if the temperature adjusting material is interposed between the heat generating body and the moisture permeable outer bag, the skin is liable to feel more than the required heat.
— 馱—| …^仰阳-饭恐瓶尸座生之水 蒸氣透過上述溫度調節材料,而將該水蒸氣溫度冷卻至5〇 、下又曰本專利文獻2中揭示有產生溫度為4〇至42。〇 之水蒸氣 '然’實際上難以藉由透過不織布等上述溫产 調節材料,將由發熱體所產生之啊或者其以上之溫:: 水蒸氣,降低至5〇°C以下之40至42°C。 又,透過上述溫度調節材料而溫度並未降低之水菽氣, 通過形成於透濕性外袋之透氣孔直接接觸肌膚。因^ 膚感受到水蒸氣溫度升高且县式 η" 开⑺到肌膚受到來自水菽氣 之刺激…乂於透濕性外袋與肌膚之間的每單位面積之 面積接觸率較高,而使接觸肌膚之水基 、 散,故而肌膚感受到水蒸氣溫度變高。…、向周圍擴 =將上述溫度調節材料製成較厚者,則可降低供 之熱或水蒸氣之刺激’然而以如此之對 敎:f 之間的距離將會過大,而使到達“,、體與肌膚 赝之熱或水基H夕旦站 >、’故而無法提供給肌膚充分的加溫功 兔、^里’ 本發明係解決上述先前之課題 —效。 硪者’其目的在於提供一種 I03697.doc 1280871 女放於身體之加溫體’其於接觸肌膚而使用時,可發揮適 又的加’皿功效’使肌膚感受到的熱刺激較少,又可舒適地 佩帶。 【發明内容】 本赉月之一種女裝於身體之加溫體,其包含第〗表面薄 片,其呈現於一方之表面;第2表面薄片,其呈現於他方之 表面,及發熱體,其於介隔上述兩表面薄片之間並供氧時 發熱, > 其特徵在於,上述第i表面薄片係自可透過氧之基材薄片 的外表面突出有多根短纖維之多毛薄片。 本發明之安裝於身體之加溫體中,於第丨表面薄片之外表 面突出有多根短纖維,因此於上述基材薄片與肌膚之間可 形成介隔有上述短纖維之微小空隙。由發熱體所發出之熱 ;丨以上述空隙而供給肌膚,故可抑制熱對肌膚之刺激,並 可防止肌膚過熱。 例如,本發明中,上述第1表面薄片係可透過水蒸氣,且 於上述第1表面薄片與上述發熱體之間,設有可透過氧以及 水蒸氣之溫度控制層者。 ί、…肌膚水蒸氣之安裝於身體之加溫冑,由於穿過基材 薄片之水蒸氣於上述空隙内穿過多根短纖維之間而擴散至 周圍’並且供給肌膚,故可減低水蒸氣對肌膚的刺激。因 此’即使使溫度控制層變薄,並設定為自基材薄片表面發 出之水蒸氣的溫度例如超過5(rc,亦可減少對肌膚的刺 激。又可供給肌膚較多的水蒸氣,並可提高對肌膚之加濕 103697.doc 1280871 效果。 例如’上述多毛薄片係藉由接著劑將上述短纖維固著於 上述基材薄片之外表面之植毛薄片。 該情形時’較好的是上述接著劑係胺基曱酸酯系熱熔型 接著劑。由於胺基甲酸酯系之熱熔型接著劑具有熔點高且 耐熱性優良,故即使於供給較高溫度之熱時接著強度亦難 以降低’故易於防止短纖維脫落。— 驮—| ...^ The water vapor of the Yangyang-rice bottle is passed through the above-mentioned temperature-regulating material, and the water vapor temperature is cooled to 5 〇, and the temperature is 4〇 as disclosed in Patent Document 2 To 42. It is actually difficult to reduce the temperature generated by the heating element or the temperature above it to 40 to 42° below 5 °C by the above-mentioned temperature-regulating material such as non-woven fabric. C. Further, the water helium gas which has passed through the temperature adjusting material and whose temperature is not lowered is directly contacted with the skin through the vent hole formed in the moisture permeable outer bag. Because the skin feels the temperature of the water vapor rises and the county type η" opens (7) to the skin is stimulated by water sputum... The contact area per unit area between the moisture permeable outer bag and the skin is higher, and The water is exposed to the skin, so the skin feels that the water vapor temperature is high. ..., expand to the surrounding = make the above temperature-regulating material thicker, it can reduce the heat or water vapor stimulation's. However, in such a confrontation: the distance between f will be too large, so that the arrival, The heat of the body and the skin or the water-based H-Handan station>, 'There is no way to provide sufficient heating to the skin, and the rabbit's body. The present invention solves the above-mentioned previous problems and effects. Provides an I03697.doc 1280871 woman's warming body for the body's use when it comes into contact with the skin, it can exert a proper 'dish effect' to make the skin feel less heat irritating and comfortable to wear. SUMMARY OF THE INVENTION A warming body of a woman's body in the present month comprises a first surface sheet which is presented on one surface; a second surface sheet which is presented on the surface of the other side, and a heating element, The heat is generated when oxygen is supplied between the two surface sheets, and the ith surface sheet protrudes from the outer surface of the oxygen permeable base sheet by a plurality of hairy sheets of short fibers. Warming up the body In the body, a plurality of short fibers protrude from the outer surface of the surface sheet of the second sheet, so that a minute gap between the base sheet and the skin can be formed between the substrate sheet and the skin, and the heat generated by the heat generating body is In the present invention, the first surface sheet is permeable to water vapor, and the first surface sheet and the heat generating body are permeable to the skin. Between the two, there is a temperature control layer that can transmit oxygen and water vapor. ί,... The skin water vapor is installed on the body to warm the sputum, and the water vapor passing through the substrate sheet passes through the plurality of short fibers in the gap. When it spreads to the surrounding area and supplies it to the skin, it can reduce the irritation of water vapor to the skin. Therefore, even if the temperature control layer is thinned, the temperature of the water vapor emitted from the surface of the substrate sheet is set to exceed 5 (rc, It can also reduce the irritation to the skin. It can also supply more water vapor to the skin, and can improve the moisturizing effect of the skin 103697.doc 1280871. For example, 'the above hairy film is followed by The short fiber is fixed to the flock sheet on the outer surface of the substrate sheet. In this case, the above-mentioned adhesive is an amine phthalate-based hot-melt type adhesive. Since the hot-melt type adhesive has a high melting point and excellent heat resistance, it is difficult to reduce the strength even when heat is supplied at a relatively high temperature, so that it is easy to prevent the short fibers from falling off.
例如,上述基材薄片係不織布。但是基材薄片亦可為織 布,或者以具有水蒸氣透過孔之透濕性樹脂薄膜等而構成。 又 了將上述植毛薄片之結構設為將上述短纖維經導電 處理’並於上述基材薄片上靜電植毛者。 上述靜電植毛之工序比較簡單,且可獲得廉價之植毛薄 片。又,藉由靜電植毛,易將短纖維於垂直基材薄片之外 表面之方向固著,而第1表面薄片接觸肌膚時,易於基材薄 片之外表面與肌膚之間形成間隙。 再者,上述多毛薄片並非限於上述植毛薄片者,亦可為 例如將短纖維機械性地植入織布或不織布者。 又,本發明中,較好的是自上述基材薄片外表面的上述 短纖維之突出尺寸為〇·3 mm以上且5 mm以下。 則可於基材薄片之 於降低因供給肌膚 右短纖維之突出長度於上述範圍内, 外表面與肌膚之間隔開適當距離,並易 之熱或水蒸氣而產生之刺激。 [發明之效果] 將本發明之安裝於身體之加濕體接觸肌膚而安裝時,可 103697.doc 1280871 降低肌膚所感受到之熱,並可減少對肌膚之刺激,故可舒 適:f X ’於發熱體產生水蒸氣之情形時,可採用將充 足量之水蒸氣供給肌膚之結構。 【實施方式】 圖係將作為本發明實施形態的安聚於身體之加溫體之 第1表面薄片朝向面前而表示之前視圖,圖2係表示於圖丄之 安裝於身體之加溫體的於„·η線處之部分剖面圖,圖3與圖For example, the above substrate sheet is a non-woven fabric. However, the base sheet may be a woven fabric or a moisture permeable resin film having a water vapor permeable hole or the like. Further, the structure of the above-mentioned hair-planting sheet is a case where the short fibers are subjected to a conductive treatment and electrostatically implanted on the substrate sheet. The above process of electrostatic flocking is relatively simple, and an inexpensive flocked sheet can be obtained. Further, by electrostatic flocking, it is easy to fix the short fibers in the direction of the outer surface of the vertical substrate sheet, and when the first surface sheet contacts the skin, it is easy to form a gap between the outer surface of the substrate sheet and the skin. Further, the above-mentioned hairy sheet is not limited to the above-mentioned hair-planting sheet, and may be, for example, a mechanically implanted staple fiber into a woven fabric or a non-woven fabric. Further, in the invention, it is preferable that the protruding length of the short fibers from the outer surface of the base sheet is 〇·3 mm or more and 5 mm or less. The substrate sheet can be reduced in the above range by the length of the short fibers supplied to the skin, and the outer surface is separated from the skin by an appropriate distance, and is easily stimulated by heat or water vapor. [Effects of the Invention] When the body-attached humidifying body of the present invention is attached to the skin and is attached, 103697.doc 1280871 can reduce the heat felt by the skin and reduce the irritation to the skin, so that it can be comfortable: f X ' When the heating element generates water vapor, a structure in which a sufficient amount of water vapor is supplied to the skin can be employed. [Embodiment] FIG. 2 is a front view showing a first surface sheet of a warming body that is condensed on a body in the embodiment of the present invention, and FIG. 2 is a view showing a heating body attached to the body in FIG. „·Part of the η line, Figure 3 and Figure
4係按不同實施形態而表示上述安裝於身體之加溫體的構 造之分解剖面圖’圖5係將圖2之_部分放大後的放大部分 剖面圖’ ®6與圖7係將上述安裝於身體之加溫體安裝於臉 部的使用例之說明圖。 圖1所示之加溫體(安裝於身體之加溫體)〖中,於圖i 中朝向面前之側以及於圖2中朝向圖示上方之侧為肌膚側 表面2,而與此相反之側為非肌膚側表面3。該實施形態之 加溫體1係用以將上述肌膚側表面2朝向身體之肌膚而安裝 者。因此,較好的是使自外部觀察時,使呈現於肌膚側表 面2之第1表面薄片4的顏色與呈現於非肌膚側表面3之第2 表面薄片5的顏色不相同。例如,若將第膚側表面設為 淡藍色、頁色、紅色等除白色以外之顏色,並將第2表面薄 片5設為白色,則使用者易於辨識出經染色之側為肌膚側表 面2 0 又,如圖6及圖7所示,該加溫體丨係可覆蓋近一半臉部面 積者。沿中心線〇-〇方向之長度尺寸為8〇 mm以上,更好的 疋100 mm以上,且其最大值例如為18〇 mm以下,以覆蓋至 103697.doc -10- 1280871 。又,與中心線〇-〇垂直的方向之4 is an exploded cross-sectional view showing a structure of the above-described body-mounted warming body according to different embodiments. FIG. 5 is an enlarged partial cross-sectional view of FIG. 2 enlarged and partially attached to FIG. An illustration of the use case in which the body warming body is attached to the face. The warming body (the warming body attached to the body) shown in Fig. 1 is the side of the front side in Fig. i and the side facing the upper side in Fig. 2 is the skin side surface 2, and the opposite is true. The side is the non-skin side surface 3. The warming body 1 of the embodiment is for attaching the skin side surface 2 to the skin of the body. Therefore, it is preferable that the color of the first surface sheet 4 presented on the skin side surface 2 is different from the color of the second surface sheet 5 presented on the non-skin side surface 3 when viewed from the outside. For example, when the skin side surface is set to a color other than white such as light blue, page color, or red, and the second surface sheet 5 is white, the user can easily recognize that the dyed side is the skin side surface. 2 0 Further, as shown in FIGS. 6 and 7, the warming body can cover nearly half of the face area. The length dimension along the center line 〇-〇 is 8 〇 mm or more, more preferably 疋 100 mm or more, and the maximum value is, for example, 18 〇 mm or less to cover 103697.doc -10- 1280871. Also, in the direction perpendicular to the center line 〇-〇
形成為曲線狀。 對向於上述上緣6之側之下緣7係加溫體1安 凌於臉邛時下方之緣,該下緣7處,於夾持中心線〇_〇並左 少自眼部下方至口部為止 寬度尺寸為150 mm以上, 覆蓋兩頰,並且其最夬伯 右均等擴展之區域中,形成有凹部7a,其朝向上方形成為 曲線狀。又,加溫體1之右側緣8與左側緣9均係突向左右兩 側之突曲線形狀。 如圖1所示,上述加溫體1中,朝向肌膚側表面3之中心線 〇·〇右侧形成有右内側加熱部丨丨,而於中心線〇_〇左側形成 有左内側加熱部12。於上述右内側加熱部11之右側,亦形 成有右外側力ϋ熱部13,較上述左内側加熱部12之更左側, 形成有左外側加熱部14。 右内側加熱部11係由分割線2 1所包圍之區域。上述分割 線21含有與上述中心線〇_〇平行之内側直線部2丨&,及與右 側傾斜基準線L1平行之外側直線部2lb,此外含有上方線部 21c與下方線部21d,該上方線部21c為突向上方之突曲線形 狀,該下方線部2 1 d為突向下方之突曲線形狀。左内側加熱 部12係由分割線22所包圍之區域。而該分割線22亦含有内 侧直線部22a,其與上述中心線〇-〇平行;外側直線部22b, 103697.doc -11- 1280871 其與左側傾斜基準線L2平行;上部線部22c以及下部線部 22d 〇 右外側加熱部13係由分割線23所包圍之區域。上述分割 線23含有與上述右側傾斜基準線L丨平行之直線部23a及除 此以外之曲線部23b。同樣地,左外側加熱部14係由分割線 24所包圍之區域。上述分割線24含有與上述左側傾斜基準 線L2平行之直線部24a,及除此以外之曲線部24b。 右内側加熱部11與左内側加熱部12位於以中心線〇_〇隔 開而左右對稱之位置,並且呈左右對稱之形狀。又,右外 側加熱部13與左外側加熱部14位於以中心線〇_〇隔開而左 右對稱之位置,並且呈左右對稱之形狀。 加體1之除上述右内側加熱部丨丨、左内側加熱部丨2、右 外側加熱部13以及左外側加熱部14以外之區域,係薄片部 15,其不含有發熱體,故不具有發熱以及產生水蒸氣之功 ^去除發熱體之該薄片部15中,各構成部件一併經加壓 而溶著,故該薄片部15之彎曲剛性小於上述右内側加熱部 11、 左内側加熱部12、右外側加熱部13以及左外側加熱部 14之彎曲剛性。又,上述右内側加熱部u、左内側加熱部 12、 右外側加熱部13及左外側加熱部14,全部由上述薄片 部1 5所包圍。 如圖1所示,由上述内側直線部2丨a與上述内側直線部Ua 所夾持且沿中心線〇〇延伸之部分,藉由上述薄片部15而形 成有中央變形部16。又,由上述外側直線部21b與上述直線 部23a所夾持且沿右側傾斜基準線u延伸之部分,藉由上述 103697.doc -12- 1280871 薄片部15而形成右側變形部π。同樣地,於上述外側直線 部22b與上述直線部24a所夾持且沿左側傾斜基準線L2延伸 之部分,藉由上述薄片部1 5而形成左側變形部1 8。 上述右側變形部17之寬度尺寸以及上述左側變形部18之 寬度尺寸’小於上述中央變形部1 6之寬度尺寸。上述右側 傾斜基準線L1與左側傾斜基準線L2均為直線,並且隨著朝 向上方而逐漸傾斜以接近中心線〇-〇。右側傾斜基準線L1 與中心線0·0所成角度Θ以及左側傾斜基準線L2與中心線 〇-〇所成角度Θ,較好的是均為丨〇度以上且45度以下。 將右側傾斜基準線L1與上緣6之交點設為上部變形基準 點25a,並將左側傾斜基準線L2與上緣6之交點設為上部變 形基準點25b,而將上部變形基準點253與251)之間的寬度方 向之間距設為W1。又,將右側傾斜基準線L1與下緣7之交 點設為下部變形基準點26a,並將左側傾斜基準|L2與下緣 7之交點設為下部變形基準點26b,而將下部變形基準點26a 與26b之間的寬度方向之間隔設為W2。上述間距貨丨小於上 述間距W2,且較好的是間距W1在50至120 mm之範圍,上 述間距W2較好的是在100至220 mm之範圍。 如圖1所示,於上述中央變形部16形成有透氣部27。該實 施形恶中’將形成中央變形部16之薄片部15去除,以使自 肌膚側表面2至非肌膚側表面3貫通,藉此形成上述透氣部 27 °透氣部27之寬度方向之開口寬度尺寸A為 0 mm以上。 即透氣部27亦可為將上述薄片部15切斷後之狹逢。當開口 寬度尺寸A之最大值小於上述中央變形部16之寬度尺寸時 103697.doc -13- 1280871 即可。例如開口寬度尺寸A之最大值為4〇 mm左右,更好的 是30 mm左右。 透氣部27之上下方向之長度尺寸3為例如2〇 以上且 100 mm以下。又,亦可於上述長度尺+ 範圍内,朝上 下方向間隔設置複數個透氣部27。 如圖2以及圖3所示,於上述右内側加熱部丨丨、左内側加 熱部12、右外側加熱部13及左外側加熱部14之内部,設有 發熱體31。該發熱體31含有鐵、鋁、鋅等易氧化之金屬粉 與水’以及用以使金屬粉氧化之鹽類。上述鹽類係氯化鈉、 氣化鉀、氣化鈣及氣化鎂等。為進一步促進金屬粉之氧化, 亦可含有活性炭、碳黑、石墨等之石炭材料。此外,亦可 含有虫至石、石夕酸妈、石夕膠、二氧化石夕等之保濕劑,以可長 時間保持水分。 ^ 當供氧給上述發熱體31時’金屬粉受到氧化且其氧化熱 上升至峨左右或者其以上。由於該氧化熱,使發熱㈣ 内之水分蒸發並發出水蒸氣。 上述發熱體較好地使用有於包含上述各構成要素之狀 態下以滾筒加壓而製成薄片狀者。又,亦可使發執體”中 包含有用以維持薄片形態之樹脂材料、接著劑或者纖維等。 當使用薄片狀發熱體31時,如圖3所示,可構成將溫度控 制層32與第!表面薄片4重疊於發熱體31之表面的結構,而 無須於發熱體31之表面’設置以阻止金屬粉絲為目的之 填充薄片。當為該結構時’氧迅速供給發熱體叫吏發执體 31於短時間内發熱’並可立即產生水蒸氣。又,由於水基 103697.doc -14- 1280871 氣通過溫度控制層32與第1表面薄片4而供給肌膚,並不受 填充薄片之妨礙,故可供給肌膚較多水蒸氣。 圖2與圖3所示之實施形態中,於第丨表面薄片4與發熱體 3 1之間夾持有溫度控制層32。又,於第2表面薄片5與發熱 體31之間夾持有隔熱層33。 第1表面薄片4、第2表面薄片5、溫度控制層32、以及隔 熱層3 3具有與加溫體1之整體形狀與面積相同之形狀以及 面積。而於除上述右内側加熱部丨丨、左内側加熱部12、右 外側加熱部13以及左外侧加熱部14以外之區域,第丨表面薄 片4、第2表面薄片5、溫度控制層32、以及隔熱層33密著而 形成有薄片部15。該實施形態中,如圖5所示,於薄片部工5 形成有多數壓紋部3 5 ’上述各構成要素主要於該壓紋部3 5 處經加壓與加熱而溶著。 如圖1所示,壓紋部35由細窄之十字圖案所形成,該壓紋 部3 5开> 成於薄片部1 5之除下述區域以外之整個區域:上述 右内側加熱部11、左内側加熱部12、右外側加熱部13以及 左外側加熱部14。再者,壓紋部35之圖案為任意形狀,亦 可為點狀或波紋曲線狀等。 弟1表面薄片係多毛薄片。該多毛薄片中,自可透過氧以 及水蒸氣之基材薄片41之外表面41a,即自朝向安裝者的肌 膚之表面,突出設置有多根短纖維42。該多毛薄片亦可為 將多根短纖維42嵌入織布或者不織布之基材薄片4 i,或者 為將多根短纖維42纏入構成上述織布或不織布的纖維之間 者,而較好的是使用植毛薄片作為第j表面薄片4。 103697.doc 1280871 上述植毛薄片以接著劑將多根短纖維42接著固定於笑材 薄片41之外表面41a而形成。可採用靜電植毛法作為接著短 纖維42而植毛之方法。該靜電植毛法中,將矽酸納等 |±物負塗敷於短纖維42表面,或者將上述導電性物質練入 短纖維42中而進行導電處理。繼而,將相互具有電位差之 電荷供給上述基材薄片41與短纖維42,即於基材薄片41與 短纖維42之間供給電壓,藉此,帶電短纖維42以幾乎垂直 φ 於基材薄片41之外表面41a之姿勢而附著,並藉由上述接著 劑而接著固定於上述外表面41a。 基材薄片41係纖維或者不織布,該纖維藉由聚乙烯 (PE)、聚丙烯(PP)、聚對苯二甲酸乙二醇酯(ρΕτ)、尼龍⑺灼 等合成樹脂中之至少-種而形成,該不織布由人造絲纖維 或天然纖維(例如紙漿)等而形成,並且藉由例如紡絲黏合 法、點黏法、射流喷網法、通氣法等而形成。 上述短纖維42係由聚乙烯(ΡΕ)、聚丙烯(ρρ)、聚對苯二甲 • 酸乙二醇酯(ΡΕΤ)、尼龍(Ny)等之合成樹脂中至少一種所形 成之纖維,或者係人造絲纖維。短纖維42之織度較好的是 〇·11至3.3 dtex左右之細窄者,自基材薄片41之外表面4ia 而突出的短纖維42之突出尺寸較好的是〇3mm以上且5 mm 以下,更好的是0·5 mm以上且2 mm以下。又,基材薄片41 之外表面41a處,母1 cm之短纖維42之根數為根至^萬 根左右,但並非受限於該範圍者。若突出自基材薄片“之 紐纖維42的犬出尺寸於上述範圍内,則第j表面薄片4接觸 肌膚時,基材薄片41與肌膚之間易形成適當空隙。 103697.doc -16- 1280871 上述溫度控制層32由遍佈有氣泡之發泡樹脂薄片而形 成4等氣泡獨立於其内部,並且發泡倍率為例如1 〇至5〇 工右之备泡1乙烯樹脂薄片或者發泡聚胺基曱酸酯樹脂 薄片等。於該溫度控制層32中,形成有可通過水蒸氣之多 數貫通孔34。該貫通孔34設定為朝向第1表面薄片4之外表 面32a處之開孔徑D1,大於發熱體31側之内表面32b處之開 孔徑D2。 溫度控制層32具有滿足如下之厚度尺寸··其使發熱體31 所產生之水蒸氣之溫度降低至少1(rc以上,且較好的是使 之降低2〇°C以上,上述厚度尺寸為例如1至5 mm範圍。又, 上述内表面32b中之貫通孔34之開孔徑〇2為〇1至2 mm之範 圍較好的疋0·1至1 mm之範圍,而上述内表面32b中之貫 通孔34之開孔面積率為5至3〇%左右。 上述第2表面薄片5具有至少水蒸氣無法透過之非透氣 性。或者為水蒸氣之透過率小於上述第〗表面薄片^者。於 該實施形態中,第2表面薄片5於以空氣沉降法、紡絲黏合 法、點黏法等所形成之不織布^之内表面,由聚乙稀樹脂 等所形成之非透氣性樹脂薄膜几經層壓而構成。 上述隔熱層33係無開孔之發泡聚乙烯樹脂薄片或者發泡 胺基甲酸醋樹脂薄片,於其内部遍佈有獨立的氣泡。隔熱 層33之厚度尺寸為〇·5至4 _左右,較好的是〇5至2匪左 右。 圖4表示其他實施形態之加溫體1Α之層構造。 於該加溫體以中,設置於上述右内側加熱部η、左内側 103697.doc -17- 1280871 加熱部12、右外側加熱部13以及左外側加熱部14中之發熱 體3 1A,並未成型為薄片狀,其僅使相互獨立之金屬粉集 合。該實施形態中,至少於上述右内側加熱部丨丨、左内側 加熱部12、右外側加熱部13以及左外側加熱部14,設置有 火持舍熱體31A之一對填充薄片45、46。該填充薄片45、46 係可使氧以及水蒸氣透過,而不使金屬粉通過者,並藉由 不織布、織布、透氣性紙或者透氣性樹脂薄膜等形成。 φ 上述加溫體1於使用前,封裝於藉由無法透過氧之非透氣 性樹脂薄膜等所形成之密封袋内。 於使用時,當打開密封袋取出加溫體丨時,氧供給發熱體 3 1,其設置於上述右内側加熱部丨丨、左内側加熱部12、右 外側加熱部13以及左外侧加熱部14内,故金屬粉產生氧化 反應,因其氧化熱使包含於發熱體3丨中之水分蒸發。由於 該水蒸氣之通過受到第2表面薄片5之非透氣性樹脂薄膜外 之阻止,故不會自非肌膚側表面3流出,因此其透過溫度控 • 制層32以及第1表面薄片4而集中供給僅肌膚側表面2。 如圖6以及圖7所示,將上述加溫體丨安裝以使其肌膚側表 面2接觸人體肌膚。由於金屬粉之氧化熱,導致發熱體Η溫 度變為80。。左右或者其以上,而由於覆蓋有該發熱體”之 溫度控制層32係内部形成有多數獨立氣泡之發泡樹脂薄 片,故發熱體3 1之熱並不直接供給人體肌膚,由此可防止 肌膚溫度異常變高。 又,發熱體3 1所發出之水蒸氣的溫度變為8〇它左右或者 其以上,而5亥水瘵氣通過溫度控制層32之貫通孔Μ,進而 103697.doc 1280871 透過第1表面薄片4之基材薄片41,藉此而冷卻,故而其溫 度於基材薄片41之外表面41a變為6(Γ(:或者其以下。如圖3 ,戶斤示形成於溫度控制層32之貫通孔34中,對向於發熱體” 之内表面32b處之開孔徑〇2較小,而朝向肌膚之外表面32a •處之開孔徑Di較大,D1/D2例如為丨2至5之範圍。自發熱體 3 1所產生之水蒸氣自直徑較小之開孔徑D2的開孔端移動至 貝通孔34,由此水蒸氣分散並供給各貫通孔34,故到達溫 • 度控制層32之外表面32a之水蒸氣的溫度易於降低。又,由 於恤度控制層32之外表面323處貫通孔34之開孔徑di較 大,故而水蒸氣可供給整個第丨表面薄片4。 於加溫體1之肌膚側表面2,上述右内側加熱部u、左内 側加熱部丨2、右外側加熱部13以及左外側加熱部14較薄片 部15更為隆起,故當將加溫體丨安裝於臉部等處時,主要是 該等加熱部U、12、13以及14接觸肌膚。位於該等加熱部 U、12、13及14之肌膚側表面的第j表面薄片4係多毛薄片, • 其自基材薄片41之外表面41a突出有多根短纖維42。第1表 面薄片4介以多根短纖維U而接觸肌膚,因此肌膚觸感^ 幸欠。 " 又’因存在有上述短纖維42,故於基材薄片4丨之外表面 4 1 a與肌膚之間形成有細微距離之空隙。由於該 文熱之基材薄片w直接接觸肌膚’故可減低對肌膚之熱刺 激。'此外,即使通過基材薄片41之水蒸氣的溫度為例㈣ c或者其以上,由於水蒸氣介以上述空間而供給肌膚,故 亦可抑制對肌膚之刺激,並可防止肌膚感受到較高溫产。 103697.doc 1280871 又,由於供給基材薄片41與肌膚之間的水蒸氣通過上述空 間而易擴散至周圍,故而因該擴散亦可抑制給予肌膚之溫 又刺激。又’因水蒸氣如上所述而擴冑,故可將水蒸氣供 給整個肌膚表面,由此可提高對肌膚之加濕效果。 尤其是,當第1表面薄片4係以靜電植毛法所形成者時, 由於夕根短纖維42以幾乎垂直姿勢自基材薄片4丨之外表面 4la而突出,故而於第丨表面薄片4接觸肌膚時,介以上述短 纖維42,較易於基材薄片41與肌膚之間保持有空隙。又, 若使用胺基甲酸酯系之熱熔型接著劑作為將短纖維42固著 於基材薄片41之接著劑,則因該接著劑具有優良耐熱性, 故而難以因水蒸氣之溫度而導致短纖維42脫落。 以此’由於設置於第1表面薄片4之多根短纖維42可使熱 下降,進而使水蒸氣之溫度降低,又可發揮使熱與水蒸氣 分散之功能,故無須將可極端降低肌膚側表面2處溫度之溫 度控制層32設置為所需厚度以上。因此,可將發熱體3 j產 生之熱以及水蒸氣大量供給肌膚。 又,如圖5所示,右内側加熱部11之周圍藉由分割線2 1而 劃分。於該分割線21之外側,第1表面薄片4、第2表面薄片 5、溫度控制層32以及隔熱層33—併經加壓i並於壓紋部35 溶著而形成有薄片部1 5。即,上述分割線21表示於較其位 置更内側,解除上述第1表面薄片4、第2表面薄片5、溫度 控制層32以及隔熱層33之加壓之邊界線。 如圖5所示,於右内側加熱部11中,由發泡樹脂薄片所形 成之溫度控制層32與隔熱層33,相互密著地存在於上述分 103697.doc -20- 1280871 割線21之内側寬度尺+ Wa之區域,並以發熱體31無法接近 刀割線21之方式而構成。上述寬度尺寸Wa為例如0.3至5 mm 之範圍。若設置上述寬度尺寸Wa之區域,則於構成發熱體 3 1之金屬粉氧化時,可防止赤褐色氧化層的顏色滲出至分 割線21部分。 例如,若於上述寬度尺寸Wa之區域中不存在溫度控制層 32與隔熱層33,則金屬粉之氧化層(鏽)溶解於水而被引導至 纖維密度較高的分割線21處,並沿著分割線21將右内側加 熱部Π之周圍著色為赤褐色,由此導致使用者直接看到金 屬鏽而感到不安。然而,如圖5所示,於該實施形態中,相 互密著於分割線2 1之内側之溫度控制層32與隔熱層33,具 有防止氧化層溶解之水分向外流出之功能。因此難以將分 割線21著色為赤褐色。 本實施形態中,於左内侧加熱部12之分割線22、右外側 加熱部13之分割線23、以及左外側加熱部14之分割線24處 亦相同。 圖6係表示將加溫體1安裝於身體之臉部之狀態時之前視 圖,圖7係其側視圖。 加溫體1中,右内側加熱部11、左内側加熱部丨2、右外側 加熱部13以及左外側加熱部14含有發熱體3 1,該部分厚度 較大並且剛性較高而難以彎曲。但是,右内側加熱部1丨與 左内侧加熱部12之間之中央變形部16介以中心線〇_〇而易 於幫曲,此外右内側加熱部11與右外側加熱部丨3之間的右 側變形部17,以及左内側加熱部12與左外側加熱部14之間 103697.doc 21 1280871 的左側變形部1 8亦易於彎曲。 由此,右内側加熱部11、左内側加熱部12、右外側加熱 部1 3以及左外側加熱部14可各自獨立地接觸臉部肌膚,而 相互之間不受約束,且各個加熱部〗丨、i 2、13、丨4易密著 於表面具有凹凸之臉部肌膚。 如圖6所示,若將加溫體1以其中心線〇-〇與鼻樑及口之中 央部一致之方式而安裝,則於寬度相對較寬之中央變形部 1 6之部分,加溫體丨可自鼻樑部分向左右彎曲。此外,將上 述上部變形基準點25a與上述上部變形基準點251)位於眼部 下方之頰骨上部附近,並且將上述下部變形基準點26a與上 述下部變形基準點26b位於顎部下方左右兩侧部(較之口部 稍下方處之左右兩側部)。於此狀態下,加溫體1以仿照臉 部形狀之方式,可自右側傾斜基準線L1與左側傾斜基準線 L2部分而彎曲。 若如此安裝,則右内側加熱部11與左内側加熱部丨2可密 著於鼻部左右兩側之頰部。又,由於右内側加熱部11與左 内側加熱部12皆為寬度尺寸隨著朝向上緣6側而逐漸變小 之形狀’故該等易密著於鼻部左右兩侧之頰部。 進而’右外側加熱部13與左外側加熱部14可密著於自頰 部之左右兩側部至耳部附近之區域。 該加溫體1之上緣6處,於中心線〇_〇部分向上形成有凸部 6a。該凸部6a接觸鼻樑上部,由此可將水蒸氣充分地供給 鼻之兩側部。 又,於中央變形部16,開口設置有向上下方向細長延伸 103697.doc -22- 1280871 之透氣部27。該透氣部27位於至少鼻腔之高度位置,較好 的是進而亦位於口部前方位置。由此,易於呼吸,故可防 止佩帶者感到呼吸困難。 、再者將上述貫施形態之加溫體丨作為安裝於身體之臉部 並適於臉部形狀者而加以說明,然而本發明之安裝於身體 之加溫體亦可係安裝於身體之除臉部以外之部位者。 又,第2表面薄片5係與第1表面薄片4相同之多毛薄片(植 Φ 薄片)並且δ亥第2表面薄片5以及隔熱層33亦可為可透過 氧以及蒸氣者。 此外,本發明之安裝於身體之加溫體中,溫度控制層32 亦可為不會透過水蒸氣者,故而不供給肌膚水蒸氣,而僅 提供加溫效果者。 【圖式簡單說明】 圖1係自肌膚側表面表示本發明實施形態之安裝於身體 之加温體的前視圖。 Φ 圖2係圖1之1Ϊ-ΙΙ線之剖面圖。 圖3係表示上述安裝於身體之加溫體的構成要素之分解 剖面圖。 圖4係表示其他實施形態之安裝於身體之加溫體的構成 要素之分解剖面圖。 圖5係圖2之一部分之放大剖面圖。 圖6係表示將上述安裝於身體之加溫體安裝於臉部之狀 態之前視圖。 圖7係表示將上述安裝於身體之加溫體安裝於臉部的狀 103697.doc -23- 1280871 態之側視圖。 【主要元件符號說明】Formed as a curve. The lower edge 7 of the upper edge of the upper edge 6 is opposite to the edge of the lower side of the face, and the lower edge 7 is at the center line of the clamping 〇 〇 and the left is less from the lower part of the eye to The mouth has a width of 150 mm or more, covers the cheeks, and has a concave portion 7a formed in a curved shape in a region where the outermost side is equally extended. Further, both the right side edge 8 and the left side edge 9 of the warming body 1 are formed in a curved shape which is convex to the left and right sides. As shown in Fig. 1, in the warming body 1, a right inner heating portion 形成 is formed on the right side of the center line 〇·〇 toward the skin side surface 3, and a left inner heating portion 12 is formed on the left side of the center line 〇_〇. . A right outer side heat-heating portion 13 is also formed on the right side of the right inner heating portion 11, and a left outer heating portion 14 is formed on the left side of the left inner heating portion 12. The right inner heating portion 11 is a region surrounded by the dividing line 21. The dividing line 21 includes an inner straight portion 2丨& which is parallel to the center line 〇_〇, and an outer straight portion 2lb parallel to the right inclined reference line L1, and includes an upper line portion 21c and a lower line portion 21d. The line portion 21c has a convex curve shape that protrudes upward, and the lower line portion 2 1 d has a convex curve shape that protrudes downward. The left inner heating portion 12 is a region surrounded by the dividing line 22. The dividing line 22 also includes an inner straight portion 22a which is parallel to the center line 〇-〇; the outer straight portion 22b, 103697.doc -11-1280871 which is parallel to the left inclined reference line L2; the upper line portion 22c and the lower line Portion 22d The right outer heating portion 13 is a region surrounded by the dividing line 23. The dividing line 23 includes a straight portion 23a parallel to the right-side inclined reference line L丨 and a curved portion 23b other than the above. Similarly, the left outer heating portion 14 is a region surrounded by the dividing line 24. The dividing line 24 includes a straight portion 24a parallel to the left inclined reference line L2, and a curved portion 24b. The right inner heating portion 11 and the left inner heating portion 12 are located at positions which are spaced apart from each other by the center line 〇 〇 and are bilaterally symmetrical. Further, the right outer side heating portion 13 and the left outer heating portion 14 are located at positions which are spaced apart from each other by the center line 〇_〇 and are bilaterally symmetrical. The region of the addition 1 other than the right inner heating portion 丨丨, the left inner heating portion 丨 2, the right outer heating portion 13 and the left outer heating portion 14 is a sheet portion 15 which does not contain a heat generating body and therefore does not have heat. In the sheet portion 15 where the heat generating body is removed and the heat generating body is removed, the respective constituent members are uniformly pressurized and dissolved, so that the bending rigidity of the sheet portion 15 is smaller than the right inner heating portion 11 and the left inner heating portion 12 The bending rigidity of the right outer heating portion 13 and the left outer heating portion 14 is. Further, the right inner heating portion u, the left inner heating portion 12, the right outer heating portion 13, and the left outer heating portion 14 are all surrounded by the sheet portion 15. As shown in Fig. 1, a central deformation portion 16 is formed by the sheet portion 15 by a portion of the inner straight portion 2a and the inner straight portion Ua that is sandwiched by the inner straight portion Ua. Further, the portion of the outer straight portion 21b that is sandwiched by the straight portion 23a and extends along the right oblique reference line u forms the right side deformed portion π by the above-mentioned 103697.doc -12-1280871 sheet portion 15. Similarly, the left side deformation portion 18 is formed by the sheet portion 15 in a portion where the outer straight portion 22b is sandwiched by the straight portion 24a and extends along the left inclination reference line L2. The width dimension of the right side deformation portion 17 and the width dimension ' of the left side deformation portion 18 are smaller than the width dimension of the center deformation portion 16. The right-side inclined reference line L1 and the left-side inclined reference line L2 are both straight lines, and are gradually inclined toward the upper side to approach the center line 〇-〇. The angle Θ between the right inclined reference line L1 and the center line 0·0 and the angle Θ between the left inclined reference line L2 and the center line 〇-〇 are preferably both above and below 45 degrees. The intersection of the right inclined reference line L1 and the upper edge 6 is referred to as an upper deformation reference point 25a, and the intersection of the left oblique reference line L2 and the upper edge 6 is referred to as an upper deformation reference point 25b, and the upper deformation reference points 253 and 251 are formed. The distance between the width directions between them is set to W1. Further, the intersection of the right-side inclination reference line L1 and the lower edge 7 is referred to as a lower deformation reference point 26a, and the intersection of the left-side inclination reference|L2 and the lower edge 7 is referred to as a lower deformation reference point 26b, and the lower deformation reference point 26a is formed. The interval between the width directions 26b and 26b is set to W2. The pitch pitch is smaller than the above-mentioned pitch W2, and it is preferable that the pitch W1 is in the range of 50 to 120 mm, and the above-mentioned pitch W2 is preferably in the range of 100 to 220 mm. As shown in FIG. 1, a gas permeable portion 27 is formed in the central deformation portion 16. In the embodiment, the sheet portion 15 forming the central deformation portion 16 is removed to penetrate the skin side surface 2 to the non-skin side surface 3, thereby forming the opening width of the gas permeable portion 27 in the width direction of the gas permeable portion 27. Size A is 0 mm or more. That is, the gas permeable portion 27 may be a narrow portion after the sheet portion 15 is cut. When the maximum value of the opening width dimension A is smaller than the width dimension of the central deformation portion 16, 103697.doc - 13 - 1280871 is sufficient. For example, the maximum width A of the opening width is about 4 mm, and more preferably about 30 mm. The length dimension 3 of the gas permeable portion 27 in the vertical direction is, for example, 2 Å or more and 100 mm or less. Further, a plurality of gas permeable portions 27 may be provided at intervals in the upper and lower directions within the length scale + range. As shown in Fig. 2 and Fig. 3, a heating element 31 is provided inside the right inner heating portion 丨丨, the left inner heating portion 12, the right outer heating portion 13, and the left outer heating portion 14. The heating element 31 contains easily oxidizable metal powder such as iron, aluminum or zinc, and water, and salts for oxidizing the metal powder. The above salts are sodium chloride, potassium carbonate, calcium carbonate and magnesium gasification. In order to further promote the oxidation of the metal powder, a carbonaceous material such as activated carbon, carbon black or graphite may be contained. In addition, it can also contain moisturizers such as insect to stone, Shixi acid mom, Shixi gum, and dioxide dioxide to keep moisture for a long time. ^ When oxygen is supplied to the above-mentioned heat generating body 31, the metal powder is oxidized and its heat of oxidation rises to about 峨 or more. Due to this heat of oxidation, the water in the heat (4) is evaporated and water vapor is emitted. The above-mentioned heat generating body is preferably used in a state in which it is formed into a sheet shape by pressurization with a roll in a state including the above-described respective constituent elements. Further, a resin material, an adhesive, a fiber, or the like which is useful for maintaining a sheet form may be included in the hair piece. When the sheet-like heat generating body 31 is used, as shown in FIG. 3, the temperature control layer 32 and the temperature control layer 32 may be formed. The structure in which the surface sheet 4 is superposed on the surface of the heat generating body 31 does not need to be provided on the surface of the heat generating body 31 to prevent the metal fan from being filled. For the structure, the oxygen is rapidly supplied to the heat generating body. 31 generates heat in a short period of time and can immediately generate water vapor. Further, since the water base 103697.doc -14-1280871 gas is supplied to the skin through the temperature control layer 32 and the first surface sheet 4, it is not hindered by the filling sheet. Therefore, the skin can be supplied with a large amount of water vapor. In the embodiment shown in Fig. 2 and Fig. 3, the temperature control layer 32 is interposed between the second surface sheet 4 and the heat generating body 31. Further, the second surface sheet 5 is attached. The heat insulating layer 33 is interposed between the heating element 31. The first surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 have the same overall shape and area as the heating body 1. Shape and area. The second surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 are adhered to the regions other than the hot portion 丨丨, the left inner heating portion 12, the right outer heating portion 13, and the left outer heating portion 14. The sheet portion 15 is formed. In this embodiment, as shown in Fig. 5, a plurality of embossed portions 35 are formed in the sheet portion 5, and the respective constituent elements are mainly pressurized and heated at the embossed portion 35. As shown in Fig. 1, the embossed portion 35 is formed by a narrow cross pattern, and the embossed portion 35 is opened to the entire region of the sheet portion 15 except for the following regions: The inner heating portion 11, the left inner heating portion 12, the right outer heating portion 13, and the left outer heating portion 14. Further, the pattern of the embossed portion 35 has an arbitrary shape, and may be a dot shape or a corrugated curve or the like. The sheet is a hairy sheet in which a plurality of short fibers 42 are protruded from the outer surface 41a of the substrate sheet 41 permeable to oxygen and water vapor, that is, from the surface of the skin facing the installer. It can be a substrate in which a plurality of short fibers 42 are embedded in a woven or non-woven fabric. The sheet 4 i, or a plurality of short fibers 42 are entangled between the fibers constituting the woven or non-woven fabric, and it is preferred to use the pulverized sheet as the j-th surface sheet 4. 103697.doc 1280871 The agent is formed by fixing a plurality of short fibers 42 to the outer surface 41a of the laughing material sheet 41. An electrostatic flocking method can be employed as a method of implanting the short fibers 42. In the electrostatic implantation method, sodium citrate or the like is used. Negatively applied to the surface of the short fibers 42 or the conductive material is introduced into the short fibers 42 to perform a conductive treatment. Then, charges having a potential difference from each other are supplied to the base sheet 41 and the short fibers 42, that is, the base sheet. A voltage is supplied between the 41 and the short fibers 42, whereby the charged short fibers 42 are attached to the outer surface 41a of the base sheet 41 in an almost vertical direction φ, and are then fixed to the outer surface 41a by the above-mentioned adhesive. The base sheet 41 is a fiber or a non-woven fabric, and the fiber is at least one of synthetic resins such as polyethylene (PE), polypropylene (PP), polyethylene terephthalate (ρΕτ), and nylon (7). The nonwoven fabric is formed of rayon fibers or natural fibers (for example, pulp) or the like, and is formed by, for example, a spinning adhesive method, a point sticking method, a spunlace method, aeration method, or the like. The short fibers 42 are fibers formed of at least one of a synthetic resin such as polyethylene (polyethylene), polypropylene (ρρ), polyethylene terephthalate (nylon), nylon (Ny), or the like, or Made of rayon fiber. The short fiber 42 has a fineness of about 11 to 3.3 dtex, and the protruding length of the short fiber 42 protruding from the outer surface 4ia of the base sheet 41 is preferably 〇3 mm or more and 5 mm. Hereinafter, it is more preferably 0·5 mm or more and 2 mm or less. Further, at the outer surface 41a of the base sheet 41, the number of the short fibers 42 of the mother 1 cm is from about 10,000 to about 10,000, but it is not limited to this range. When the dog-out size of the base fiber 42 protruding from the base sheet is within the above range, when the j-th surface sheet 4 contacts the skin, an appropriate gap is easily formed between the base sheet 41 and the skin. 103697.doc -16- 1280871 The temperature control layer 32 is formed of a foamed resin sheet which is surrounded by bubbles to form a bubble of 4 or the like which is independent of the inside thereof, and has a foaming ratio of, for example, 1 Å to 5 Torr. a phthalate resin sheet or the like. The temperature control layer 32 is formed with a plurality of through holes 34 through which water vapor can pass. The through hole 34 is set to an opening diameter D1 toward the outer surface 32a of the first surface sheet 4, which is larger than The opening diameter D2 at the inner surface 32b on the side of the heating element 31. The temperature control layer 32 has a thickness dimension that satisfies the following: The temperature of the water vapor generated by the heating element 31 is lowered by at least 1 (rc or more, and preferably The thickness is reduced by, for example, 1 to 5 mm. Further, the opening diameter 〇2 of the through hole 34 in the inner surface 32b is preferably in the range of 〇1 to 2 mm. a range of 1 to 1 mm, and the inner surface 32b The opening area ratio of the through hole 34 is about 5 to 3 %. The second surface sheet 5 has a non-gas permeability which is at least water vapor impermeable, or a water vapor transmission rate which is smaller than the first surface sheet. In the embodiment, the second surface sheet 5 is formed of a non-breathable resin film formed of a polyethylene resin or the like on the inner surface of the nonwoven fabric formed by an air deposition method, a spinning adhesion method, a point sticking method, or the like. The heat insulating layer 33 is a foamed polyethylene resin sheet or a foamed amino carboxylic acid resin sheet having no opening, and has independent bubbles therein. The thickness of the heat insulating layer 33 is 〇· 5 to 4 _, preferably 〇5 to 2 。. Fig. 4 shows a layer structure of the heating body 1 其他 according to another embodiment. The heating body is provided in the right inner heating portion η, left. The inner side 103697.doc -17- 1280871 The heating element 3 1A in the heating unit 12, the right outer heating unit 13 and the left outer heating unit 14 is not formed into a sheet shape, and only the metal powders which are independent of each other are collected. At least the above right inner heating portion The cymbal, the left inner heating portion 12, the right outer heating portion 13, and the left outer heating portion 14 are provided with a pair of filling sheets 45, 46 of the fire holding body 31A. The filling sheets 45, 46 are oxygen and water vapor. Passing through without passing the metal powder, and forming it by non-woven fabric, woven fabric, gas permeable paper, or gas permeable resin film. φ The above-mentioned warming body 1 is encapsulated in a non-breathable property by being impermeable to oxygen before use. In a sealed bag formed of a resin film or the like, when the sealing bag is opened and the heating body is opened, the oxygen supply element 3 1 is provided on the right inner heating portion 丨丨, the left inner heating portion 12, and the right side. In the outer heating portion 13 and the left outer heating portion 14, the metal powder generates an oxidation reaction, and the moisture contained in the heating element 3 evaporates due to the heat of oxidation. Since the passage of the water vapor is blocked by the non-permeable resin film of the second surface sheet 5, it does not flow out from the non-skin side surface 3, so it is concentrated by the temperature control layer 32 and the first surface sheet 4. Supply only the skin side surface 2. As shown in Fig. 6 and Fig. 7, the warming body is attached so that the skin side surface 2 contacts the human skin. Due to the oxidation heat of the metal powder, the temperature of the heating element becomes 80. . The temperature control layer 32 covered with the heat generating body is formed of a foamed resin sheet in which a plurality of independent bubbles are formed, so that the heat of the heat generating body 31 is not directly supplied to the human skin, thereby preventing the skin. The temperature is abnormally high. Further, the temperature of the water vapor emitted from the heating element 31 becomes 8 〇 or so, and the 5 瘵 helium gas passes through the through hole of the temperature control layer 32, and then 103697.doc 1280871 The base sheet 41 of the first surface sheet 4 is cooled by this, so that the temperature thereof becomes 6 (or (or less) below the outer surface 41a of the base sheet 41. As shown in Fig. 3, it is formed in temperature control. In the through hole 34 of the layer 32, the opening aperture 〇2 at the inner surface 32b of the heating element is smaller, and the opening diameter Di is larger toward the outer surface 32a of the skin, and D1/D2 is, for example, 丨2. In the range of 5, the water vapor generated from the heating element 31 moves from the opening end of the opening diameter D2 having a smaller diameter to the shell hole 34, whereby the water vapor is dispersed and supplied to each of the through holes 34, so that the temperature is reached. The temperature of the water vapor of the outer surface 32a of the degree controlling layer 32 is apt to be lowered. Further, since the opening diameter di of the through hole 34 at the outer surface 323 of the wearing control layer 32 is large, water vapor can be supplied to the entire second surface sheet 4. On the skin side surface 2 of the warming body 1, the right inner side is heated. The portion u, the left inner heating portion 2, the right outer heating portion 13, and the left outer heating portion 14 are more raised than the sheet portion 15, so when the heating body is attached to the face or the like, mainly the heating portions U, 12, 13 and 14 are in contact with the skin. The j-th surface sheet 4 located on the skin side surface of the heating portions U, 12, 13 and 14 is a hairy sheet, • which protrudes from the outer surface 41a of the base sheet 41 The root short fibers 42. The first surface sheet 4 contacts the skin via a plurality of short fibers U, so that the skin feels pleasing to the eye. " Also, due to the presence of the short fibers 42, it is outside the substrate sheet 4 The surface 4 1 a forms a fine gap between the skin and the skin. Since the hot substrate sheet w directly contacts the skin, it can reduce the heat stimulation to the skin. 'In addition, even through the water vapor of the substrate sheet 41 The temperature is as an example (4) c or more, because the water vapor is above the above space When it is supplied to the skin, it can also suppress the irritation to the skin and prevent the skin from feeling higher temperature. 103697.doc 1280871 Moreover, since the water vapor supplied between the substrate sheet 41 and the skin passes through the above space, it is easily diffused to the surroundings. Therefore, the diffusion can also inhibit the warm and irritating effect on the skin. In addition, since the water vapor is expanded as described above, water vapor can be supplied to the entire surface of the skin, thereby enhancing the moisturizing effect on the skin. When the first surface sheet 4 is formed by the electrostatic flocking method, the smear short fibers 42 protrude from the outer surface 41a of the base sheet 4 in an almost vertical posture, so that when the third sheet 4 contacts the skin With the short fibers 42 described above, it is easier to maintain a gap between the substrate sheet 41 and the skin. Further, when a urethane-based hot-melt type adhesive is used as an adhesive for fixing the short fibers 42 to the base sheet 41, the adhesive has excellent heat resistance, so that it is difficult to be caused by the temperature of the water vapor. The short fibers 42 are caused to fall off. Therefore, since the plurality of short fibers 42 provided on the first surface sheet 4 can lower the heat and further reduce the temperature of the water vapor, the function of dispersing heat and water vapor can be exhibited, so that it is not necessary to extremely reduce the skin side. The temperature control layer 32 at the temperature at the surface 2 is set to a desired thickness or more. Therefore, the heat generated by the heating element 3 j and the water vapor can be supplied to the skin in a large amount. Further, as shown in Fig. 5, the periphery of the right inner heating portion 11 is divided by the dividing line 2 1 . On the outer side of the dividing line 21, the first surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 are immersed in the embossed portion 35 to form a sheet portion 15 by pressurization i. . In other words, the dividing line 21 is displayed on the inner side of the position, and the boundary line between the first surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 is released. As shown in Fig. 5, in the right inner heating portion 11, the temperature control layer 32 and the heat insulating layer 33 formed of the foamed resin sheet are present in close contact with each other in the above-mentioned sub-paragraph 21697.doc -20-1280871 secant 21 The inner width scale + the area of the Wa is formed so that the heating element 31 cannot approach the cutting line 21. The above width dimension Wa is, for example, in the range of 0.3 to 5 mm. When the region of the width dimension Wa is provided, the color of the reddish oxide layer can be prevented from oozing out to the portion of the dividing line 21 when the metal powder constituting the heating element 31 is oxidized. For example, if the temperature control layer 32 and the heat insulating layer 33 are not present in the region of the width dimension Wa, the oxide layer (rust) of the metal powder is dissolved in water and guided to the dividing line 21 having a high fiber density, and The periphery of the right inner heating portion Π is colored auburn along the dividing line 21, thereby causing the user to feel the rust directly. However, as shown in Fig. 5, in this embodiment, the temperature control layer 32 and the heat insulating layer 33 which are in contact with each other inside the dividing line 21 have a function of preventing moisture which is dissolved in the oxide layer from flowing outward. Therefore, it is difficult to color the dividing line 21 to a russet. In the present embodiment, the dividing line 22 of the left inner heating portion 12, the dividing line 23 of the right outer heating portion 13, and the dividing line 24 of the left outer heating portion 14 are also the same. Fig. 6 is a front view showing a state in which the warming body 1 is attached to the face of the body, and Fig. 7 is a side view thereof. In the warming body 1, the right inner heating portion 11, the left inner heating portion 2, the right outer heating portion 13, and the left outer heating portion 14 contain the heat generating body 3 1, which has a large thickness and high rigidity and is difficult to bend. However, the central deformation portion 16 between the right inner heating portion 1 and the left inner heating portion 12 is easy to bend via the center line , 〇, and the right side between the right inner heating portion 11 and the right outer heating portion 丨 3 The deformed portion 17, and the left deformed portion 18 of the 103697.doc 21 1280871 between the left inner heating portion 12 and the left outer heating portion 14 are also easily bent. Thereby, the right inner heating portion 11, the left inner heating portion 12, the right outer heating portion 13 and the left outer heating portion 14 can each independently contact the facial skin without being restrained from each other, and each heating portion is 丨, i 2, 13, 丨 4 is easy to adhere to the face with uneven skin. As shown in Fig. 6, when the warming body 1 is attached so that the center line 〇-〇 is aligned with the center portion of the nose bridge and the mouth, the heating body is applied to the portion of the central deformation portion 16 having a relatively wide width.丨 can be bent from the nose to the left and right. Further, the upper deformation reference point 25a and the upper deformation reference point 251) are located near the upper part of the cheekbone below the eye, and the lower deformation reference point 26a and the lower deformation reference point 26b are located on the left and right sides below the ankle. (Compared to the left and right sides of the mouth slightly below). In this state, the warming body 1 can be bent from the right side inclined reference line L1 and the left side inclined reference line L2 so as to follow the shape of the face. When so installed, the right inner heating portion 11 and the left inner heating portion 丨2 can be adhered to the cheek portions on the right and left sides of the nose. Further, since both the right inner heating portion 11 and the left inner heating portion 12 have a shape in which the width dimension gradually decreases toward the upper edge 6 side, they are easily adhered to the cheek portions on the right and left sides of the nose. Further, the right outer heating portion 13 and the left outer heating portion 14 can be adhered to the region from the left and right side portions of the cheek portion to the vicinity of the ear portion. At the upper edge 6 of the warming body 1, a convex portion 6a is formed upward in the center line 〇_〇 portion. The convex portion 6a contacts the upper portion of the bridge of the nose, whereby water vapor can be sufficiently supplied to both sides of the nose. Further, in the central deformation portion 16, the opening is provided with a gas permeable portion 27 which is elongated and extended 103697.doc -22 - 1280871 in the upward and downward directions. The venting portion 27 is located at a height position of at least the nasal cavity, and preferably also at a position in front of the mouth. Thereby, it is easy to breathe, so that the wearer can be prevented from breathing. Furthermore, the warming body of the above-described embodiment is described as being attached to the face of the body and suitable for the shape of the face. However, the body-mounted warming body of the present invention may be attached to the body. Those outside the face. Further, the second surface sheet 5 is a hairy sheet (planted Φ sheet) similar to the first surface sheet 4, and the second surface sheet 5 and the heat insulating layer 33 may be permeable to oxygen and steam. Further, in the body-incorporated warming body of the present invention, the temperature control layer 32 may be such that it does not permeate the water vapor, and therefore does not supply the skin water vapor, but only provides a warming effect. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing a body-attached heating body according to an embodiment of the present invention from a skin side surface. Φ Figure 2 is a cross-sectional view of the 1Ϊ-ΙΙ line of Figure 1. Fig. 3 is an exploded cross-sectional view showing the components of the body-mounted warming body. Fig. 4 is an exploded cross-sectional view showing constituent elements of a body-mounted warming body according to another embodiment. Figure 5 is an enlarged cross-sectional view of a portion of Figure 2. Fig. 6 is a front view showing the state in which the body-mounted warming body is attached to the face. Fig. 7 is a side view showing the state of the above-mentioned body-mounted warming body attached to the face, 103697.doc -23-1280871. [Main component symbol description]
2 3 4 5 6 7 11 12 13 14 15 16 17 18 21 , 22 , 23 , 24 25a , 25b 26a , 26b 27 31 32 33 加溫體 肌膚側表面 非肌膚側表面 第1表面薄片 第2表面薄片 上緣 下緣 右内側加熱部 左内側加熱部 右外側加熱部 左外側加熱部 薄片部 中央變形部 右側變形部 左側變形部 分割線 上部變形基準點 下部變形基準點 透氣部 發熱體 溫度控制部 隔熱層 103697.doc -24- 1280871 34 貫通孔 41 基材薄片 42 短纖維 0 中心線 LI 右側傾斜基準線 L2 左側傾斜基準線 103697.doc -25-2 3 4 5 6 7 11 12 13 14 15 16 17 18 21 , 22 , 23 , 24 25a , 25b 26a , 26b 27 31 32 33 Warming skin side surface non-skin side surface 1st surface sheet 2nd surface sheet Edge lower right inner heating part left inner heating part right outer heating part left outer heating part sheet part central deformation part right side deformation part left side deformation part division line part deformation reference point lower deformation reference point gas permeable part heating element temperature control part heat insulation layer 103697.doc -24- 1280871 34 Through Hole 41 Substrate Sheet 42 Short Fiber 0 Center Line LI Right Tilt Reference Line L2 Left Tilt Reference Line 103697.doc -25-