TWI293560B - - Google Patents

Description

1293560 IX. Description of the Invention: [Technical Field] The present invention relates to a body-mounted warming body which is attached to the face or other parts of the body and warms the skin at an appropriate temperature. [Prior Art] As a heating body that is attached to the body and warms the body, it has a heating element that generates heat when oxygen is supplied. Also, the patent literature! There is disclosed a warming body attached to the body for supplying water vapor generated by the heat generating body to the skin. The warming body disclosed in Patent Document 1 has a heating element containing metal powder, water, and salt. The heat generating body is housed inside a moisture permeable outer bag that is permeable to oxygen and water vapor, and is provided with a woven fabric, a non-woven fabric, and a paper between the moisture permeable outer bag and the heat generating body on the side facing the skin. , a porous film, and a temperature-regulating material such as a foamed plastic having a perforation. When the warming body is taken out from the sealed bag, t 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, whereby the water in the heat generating body evaporates into The water vapor is supplied to the skin through the above-mentioned temperature-regulating material and a moisture-permeable outer bag. Further, the following Patent Document 2 also discloses that the same heating body is provided. In the warming body disclosed in Patent Document 2, the surface of the two heat generating bodies having a substantially square shape has a temperature adjusting material containing paper and a non-woven fabric, and is thus accommodated in a bag other than the moisture-permeable nonwoven fabric. The heating system places the (10) heat generating body portion on both eyes and is attached to the face. [Patent Document 1] Japanese Patent Laid-Open Publication No. JP-A No. H-342U7 (Patent Document 2) Japanese Patent Laid-Open Publication No. Hei 2 No. Hei. No. Hei. In the heating body, since the heating element is mainly composed of metal powder oxidized by reaction with oxygen, the rigidity of the heating element is extremely high, and thus it is difficult to deform the heating element itself in accordance with the uneven shape of the body. In the structure of the heating body of Patent Document 1, since the heat generating body having a rectangular shape is disposed in almost all of the inside of the rectangular moisture-permeable outer bag, the entire heating body is hardly deformed, and when the warming body contacts the body When the skin is exposed to the skin, it is difficult to supply the heat generated by the heat generating body and the water vapor to the skin. Further, Patent Document 1 discloses that a plurality of rectangular heat generating bodies are accommodated in a rectangular moisture-permeable outer bag. Similarly, Patent Document 2 discloses that a rectangular heat generating body is accommodated and accommodated inside a rectangular moisture permeable outer bag. When the heating elements are arranged at intervals, the heating body attached to the body is easily deformed as a whole, and each of the heating elements easily contacts the surface of the body skin. However, each of the heating elements is mainly composed of metal powder, and its own mass is large. Therefore, if the adjacent heating elements are connected only by non-woven fabric or the like, it is difficult to stably support the heating element, and when it is attached to the body, The temperature is distorted and it is difficult to maintain a flat state. That is, when the body is attached to the body, it is difficult to maintain the shape of the entire warm body, so that it is difficult to attach to the body, and the shape thereof can be easily changed after the installation. SUMMARY OF THE INVENTION An object of the present invention is to provide a warming body attached to a body which solves the above-mentioned problems and which is provided with a heat generating body which is easy to maintain its overall shape and which is easy to be attached to the surface of the body. 103699.doc 1293560 SUMMARY OF THE INVENTION The body-mounted warming body of the present invention has a #面面片, which is presented on one surface; a second surface sheet, which is presented on the other side, and heats up a body that generates heat when interposed between the two surface sheets and supplies oxygen, and at least the second surface sheet is permeable to oxygen, characterized by comprising a plurality of heating portions having the heat generating body; and a deforming portion The adjacent heating portions are connected to each other, and the heating portion is provided with a foaming resin between at least one of the heat generating body and the first surface sheet or between the heat generating body and the second surface sheet. At least the surface sheet and the second surface sheet and the foamed resin sheet are overlapped and joined to form an upper portion. For example, the second surface sheet of the present invention is permeable to water vapor, and the heat generating body generates water vapor, and has a large number of through holes between the second surface sheet and the heat generating body, and is provided with the permeable water vapor. A resin sheet. In the case of the above-mentioned second surface sheet and the above-mentioned heat generating body, the above-mentioned foamed resin sheet which is not permeable to water vapor may be provided. In the above aspect of the invention, since the foamed resin sheet having the heat insulating function is provided in the heating portion, the heat of the heat generating body does not directly act on the skin, so that the skin can be supplied with an appropriate temperature. Further, since the foamed resin sheet is present in the deformed portion between the adjacent heat generating bodies, the deformed portion can exhibit a relatively high rigidity and elastic restoring force. Therefore, the heating portion including the metal buckle and having a large negative entanglement can be firmly connected by the deforming portion, and the overall shape of the warming body attached to the body 103699.doc 1293560 can be easily maintained. Therefore, it is easy to install on the body. Further, in the invention, for example, each of the sheets is thermally fused at the deformed portion, and each of the sheets is further embossed at the deformed portion. As described above, if it is thermally fused and further embossed, the deformed portion can exhibit appropriate bending rigidity and bending recovery. In the present invention, it is preferable that the bending rigidity (B value) of the deformation portion is in the range of 〇·3 to 1.〇 (mN.cm 2 /cm), and the bending recovery characteristic Φ (21^ value) of the deformation portion is 〇·4 to 1 ^(mN.cm/cm). [Effects of the Invention] In the body-mounted warming body of the present invention, the deformed portion located at a position between the heat generating body has moderate rigidity and elastic restoring force, so that the deformed portion is less likely to be distorted or the like, so that it is easy to maintain the whole. The shape is such that the body warming body is attached to the skin surface of the body in a state where it is unfolded. [Embodiment] FIG. 1 is a front view showing a body surface of a body worn by a body pain as a body pain according to the present invention, and FIG. 2 is a body attached to FIG. A partial cross-sectional view of the IMI line of the warm body, and FIG. 3 and FIG. 4 are respectively an exploded cross-sectional view showing the structure of the body-mounted warming body according to the embodiment, and FIG. 5 is an enlarged view of a part of FIG. FIG. 6 and FIG. 7 are explanatory views of an example of use in which the body-mounted warming body is attached to the face. The warming body shown in Fig. 1 (installed in the warming body p of the body, the side facing the facial enamel in Fig. i and the side facing the upper side in Fig. 2 is the skin side surface 103699.doc 1293560 2 'and The opposite side is the non-skin side surface 3. The warming body i of this embodiment is used to mount the skin side surface 2 toward the skin of the body. Therefore, it is preferable to make it appear when viewed from the outside. The first surface sheet 4 on the skin side surface 2 is different from the color of the second surface sheet 5 present on the non-skin side surface 3. For example, the first skin side surface is set to light blue, yellow, red, etc. When the second surface sheet 5 is white, the user can easily recognize that the colored side is the skin side surface 2. Further, as shown in FIGS. 6 and 7, the warming body 1 can cover the near side. Half of the face area. The length in the direction of the center line 〇-〇 is 80mm or more, more preferably 100 mm or more, so as to cover at least from the underside of the eye to the mouth. The maximum value is, for example, 1 80 mm. Below, again, the width dimension in the direction perpendicular to the center line 〇_〇 It is 150 mm or more, preferably 2 inches, so that the cheeks can be covered at the same time, and the maximum value thereof is, for example, 32 mm or less. As shown in Fig. 1, the warming body 1 is centered in the upward and downward direction. The upper edge 6 of the warming body 1 is an upwardly facing edge as shown in Figs. 6 and 7 when mounted on the face, and the upper edge 6 is at the center line of the clamping 0- A region extending uniformly from left to right is provided with a convex portion 6a formed in a curved shape toward the upper side, and a lower edge 7 facing the upper edge 6 is a downward facing edge when the heating body 1 is attached to the face. At the lower edge 7, at a region where the center line 0-0 is clamped and the left and right sides are equally extended, a concave portion 7a is formed which is formed in a curved shape upward. Further, the right edge 8 and the left edge 9 of the warming body 1 are formed. As shown in Fig. 1, in the warming body 1, the right inner heating portion 11 is formed on the right side of the center line 〇-〇 toward the skin side surface 3, and is centered on the center line 〇- The left side of the 〇 I03699.doc -10· 1293560 has a left inner heating portion 12. In the above right inner heating portion 丨Further, a right outer heating portion 13 is formed on the right side, and a left outer heating portion 14 is formed on the left side of the left inner heating portion 12, and a right inner heating portion 11 is a region surrounded by the dividing line 2 1. The dividing line 2 1 The inner straight portion 2丨& which is parallel to the center line 〇_〇, and the outer straight portion 21b parallel to the right inclined reference line L1, and the upper line portion 21c having an upwardly convex curve shape and downward a lower line portion 21d of the convex curve shape. 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 parallel to the center line 〇_〇; and a left inclined reference line L2 is parallel to the outer straight portion 22b; 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 丨4 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 a position symmetrical with respect to the center line 〇_〇, and have a bilaterally symmetrical shape. Further, the right outer heating portion 13 and the left outer heating portion 14 are located at positions which are spaced apart from each other by a center line 〇_〇 and are bilaterally symmetrical. The region of the warming body 1 other than the right inner heating portion 1A, the left inner heating portion 2, the right outer heating portion 13, and the left outer heating portion 14 is a sheet portion 15 which does not contain a heating element, and thus does not It has the function of generating heat and generating water vapor. In the sheet portion 15 from which the heat generating body is removed, each of the constituent members is pressed together by the press, so that the bending rigidity of the sheet portion 15 is smaller than the right inner heating portion 11, the left inner heating portion 12, and the right side. The outer heating portion 13 and the left outer heating portion 14 are curved and rigid, and have elastic recovery against bending. Further, the right inner heating portion 11, the left inner heating portion i 2, the right outer heating portion 丨3, 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 n in a portion sandwiched by the inner straight portion 21a and the inner straight portion 22a and extending along the center line. In the portion where the outer straight portion 2ib is sandwiched by the straight portion 23a and extends along the right inclined reference line L1, the right side deformed portion 17 is formed by the 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 inclined 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 inclined so as to gradually approach the center line 〇-〇 as they go upward. 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 0-0 are preferably 1 degree or more and 45 degrees or less. The intersection of the right oblique 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 25a and 25b are formed. The distance between the width directions is set to W, and the intersection of the right inclined reference line L1 and the lower edge 7 is set as the lower deformation reference point 26a, and the intersection of the left inclined reference line L2 and the lower edge 7 is set as the lower deformation. The reference point 26b sets the distance between the width direction of the lower deformation base I03699.doc -12· 1293560 between the punctual points 26a and 26b as W2. Further, the above-mentioned pitch W1 is smaller than the above-mentioned pitch W2, and the pitch W1 is preferably in the range of 50 to 120 mm. The above-mentioned pitch W2 is preferably in the range of 1 〇〇 to 220 mm. As shown in FIG. 1, a gas permeable portion 27 is formed in the central deformation portion 丨6. In the embodiment, the air permeable portion 27 is formed by removing the sheet portion 15 forming the central deformation portion 16 so as to penetrate the skin side surface 2 to the non-skin side surface 3. The opening width dimension A of the gas permeable portion 27 in the width direction is 〇 mm or more. That is, the gas permeable portion 27 may be a slit in which 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 丨6, it 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 B of the gas permeable portion 27 in the upper and lower directions is, for example, 2 mm 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 range of the length dimension 3 described above. As shown in Fig. 2 and Fig. 3, the right inner side is heated _, the left inner side is added

Inside the hot portion 12, the right outer heating portion 13, and the left outer heating portion, there is a heating element 31. The heating element 31 contains iron, and the oxidizable gold: powder and water, and the metal powder are oxidized. Salt chlorination, chlorination, gasification, etc. In order to further promote the oxidation of metal powder, :: contains carbonaceous materials such as activated carbon, carbon black, graphite, etc. In addition to maintaining moisture during the time. When the oxygen is supplied to the heat generating body 31, the temperature rises to about 8 〇t or the metal powder thereof is oxidized and the heat of oxidation is caused by the heat of oxidation to evaporate the water in the heat generating body 31 103699.doc 1293560 and generate water vapor. △ The above-mentioned hair (four) 31 preferably has a shape in which the above-mentioned respective constituent elements are embossed and rolled into a flaky shape. Further, the heating element 3 can include a resin material for maintaining the shape of the sheet. When the sheet-like heating element 3 i is used in the field, as shown in FIG. 3, the temperature control layer 32 and the first surface sheet 4 can be stacked on the surface of the heating element 31 without heating. Body 31 surface, set to block In the case of this structure, oxygen can be quickly supplied to the heating element 31 to cause the heating element 31 to generate heat in a short time, and water vapor can be generated immediately. Further, since the water vapor passes through the temperature control Since the layer 32 and the second surface sheet 4 are supplied to the skin and are not impeded by the filling sheet, the skin can be supplied with a large amount of water vapor. In the embodiment shown in Fig. 2 and Fig. 3, the surface of the i-th surface sheet heat generating body 31 is The temperature control layer 32 is sandwiched between the second surface sheet $ and the heat generating body 31. The first surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the partition are interposed. The hot layer 33 has the same shape and area as the overall shape and area of the warming body 1. Then, in addition to 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, In the region, the second surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 are adhered to each other to form the sheet portion 15. Then, the central portion 16 is formed by the sheet portion 15 and The right side deformation portion 17 and the left side change In the present embodiment, as shown in Fig. 5, a large number of embossed portions 35 are formed in the sheet portion 15, and the respective constituent elements are mainly heated by the embossed portion 35 by pressure heating. The embossed portion 35 is formed by a narrow cross pattern, and the pressure portion 103699.doc 14 1293560 is formed on the entire region of the sheet portion 15 except for the following regions: the right inner heating portion 11 and the left inner heating portion The 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. The bending rigidity of the sheet portion 15 (B value) It is preferably in the range of 0.3 to 1·〇(ηιΝ·(:ιη2/^η). The bending rigidity (b value) described above is such that the smaller the value is, the lower the bending rigidity is, and the larger the value is, the more difficult it is to bend. When the bending rigidity (Β value) is _ the above numerical range, the central deformation portion 16 formed by the sheet portion 15 has a moderate f-curvature, and can stably support and connect the right-side right inner heating portion. 11 and the left inner heating portion 12. Similarly, the right inner heating portion L1 and the right outer heating portion 13 ′ can be stably supported by the right side deformation portion 17 and the left inner heating 邛 12 and the left outer heating portion can be stably supported by the left side deformation portion 18 . 14. Further, when the warming body is attached to the face, the heating portions 11, 12, 13, and 14 are easily adhered to the skin. The bending recovery characteristic (211]3 value of the above-mentioned sheet portion 15 is preferably in the range of 〇.4 to •1.6 (mN, Cm/cm). The above-mentioned bending recovery property (2HB value), the smaller the value, the better the elastic recovery property at the time of bending. When the bending recovery characteristic (2HB value) is in the above numerical range, the central deformation adjacent portion 16 formed by the sheet portion 15 exhibits moderate bending recovery, and the right inner heating portion 11 and the left having a large mass can be stably supported. Inner heating portion 12. Similarly, the right inner heating portion 丨丨 and the right outer heating portion 13 can be stably supported by the right side portion 17 and the left inner heating portion 12 can be stably supported by the left side deformation portion 丨8. The left outer heating portion 丨4. The first surface sheet 4 is a velvet sheet. In the pile sheet, a plurality of short fibers 42 are protruded from the outer surface 41a of the substrate sheet 41 which is permeable to oxygen and 103699.doc -15-1293560 water vapor, that is, from the surface of the skin facing the installer. The fleece sheet may also be in which a plurality of short fibers 42 are embedded in the base sheet 41 of the woven or non-woven fabric, or a plurality of the new fibers 42 are entangled between the fibers constituting the woven or non-woven fabric; A flock sheet is used as the first surface sheet 4. The flocked sheet is formed by fixing a plurality of short fibers 42 to the outer surface 41a of the base sheet 41 by an adhesive. The electrostatic flocking method can be employed as a method of flocking followed by short fibers 42. In the electrostatic flocking method, a conductive material such as sodium niobate is applied to the surface of the short fibers 42, or the conductive material is applied to 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, a voltage is supplied between the base sheet 41 and the short fibers 42, whereby the charged short fibers 42 are almost perpendicular to the substrate sheet 41. The surface 41a is attached to the posture, and is 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 made of at least one of synthetic resins such as polyethylene (PE), polypropylene (PP), polyethylene terephthalate (PET), and nylon (Ny). Formed, the nonwoven fabric is formed of rayon fibers or natural fibers (for example, pulp), and is formed by, for example, a spunbonding method, a point sticking method, a spray-web method, a hot air method, or the like. The short fibers 42 are made of at least one of synthetic resins such as polyethylene (pe), polypropylene (pp), polyethylene terephthalate (PET), and nylon (Ny), or Rayon fiber. The short fiber 42 has a fineness of about 0.11 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 103699. .doc -16- 1293560 The following 'better is 0. 5 mm or more and 2 mm or less. Further, at the outer surface 41a of the base material sheet 41, the number of the short fibers 42 per 1 cm 2 is from about 1 to about 10,000, but it is not limited to the turnaround. When the protruding size of the new fibers 42 protruding from the base sheet 41 is within the above range, when the i-th surface sheet* contacts the skin, an appropriate gap is easily formed between the base sheet 41 and the skin. The temperature control layer 32 is formed of a foamed resin sheet which is formed by a foamed resin sheet which is independent of the inside thereof, and has a foaming ratio of, for example, about 1 to 5 Å. A urethane resin sheet or the like. In the temperature control layer 32, a large number of through holes 34 through which water vapor can pass are formed. The through hole 34 is set to face the first! The opening diameter D1 in the outer surface 32a of the surface sheet 4 is larger than the opening diameter D2 in the inner surface 3 of the heat generating body 31 side. The 控制/degree control layer 32 has a thickness dimension which satisfies the following: The temperature of the water vapor is lowered by at least 1 〇〇c, and it is preferred to lower it by 20. (The above thickness dimension is, for example, in the range of 1 to $ mm. Further, • the opening diameter D2 of the through hole 34 at the inner surface 32b is in the range of 〇·ΐ to 2 mm, preferably 0.1 to 1 mm. The opening area of the through hole 34 at the inner surface 32b is about 5 to 30%. The second surface sheet 5 has a non-gas permeability which is at least permeable to water vapor. In this embodiment, the second surface sheet (5) The non-air permeable resin film 5b formed of a polyethylene resin or the like is laminated on the inner surface of the nonwoven fabric 5&ample formed by the air flow method, the spunbonding method, the point sticking method, etc. The above heat insulating layer 33 is formed. It is a non-opened foamed polyethylene resin sheet or a foamed amine formic acid resin sheet, and has independent bubbles inside. Insulation 103699.doc 17 1293560 Layer 33 has a thickness of about 0.5 to 4 mm. Preferably, it is about 5 to 2 mm. Fig. 4 shows the layer structure of the heating body 1a of the other embodiment.

In the aiL body 1A, the heat generating body 3 1A provided in 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 is not formed into a sheet shape but only Make separate metal powders. In the above embodiment, at least 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 provided with one of the pair of heating elements 31A to sandwich the sheets 45, 46. The filler sheet 45 and the ruthenium can transmit oxygen and water vapor without causing the metal powder to pass through, and are formed by a nonwoven fabric, a woven fabric, a gas permeable paper, or a gas permeable resin film. The warming body 1 is sealed in a sealed bag formed of a non-permeable resin film that cannot transmit oxygen before use. At the time of use, when the warming pack is taken out by opening the sealed bag, the oxygen supply heat generating body 3 1 is provided in the right inner heating portion 丨i, the left inner heating portion, the right outer heating portion 13, and the left outer heating portion 14. Therefore, the metal powder generates an oxidation reaction 'the water contained in the heat generating body 31 evaporates due to the heat of oxidation. Since the passage of the water vapor is prevented by the non-permeable resin film 5b of the second surface sheet 5, it does not flow out from the non-skin side surface 3, so that it is concentrated and supplied only through the temperature control layer 32 and the second surface sheet 4. Skin side surface 2. As shown in Fig. 6 and Fig. 7, the warming body 1 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 is about 80 C or more, and the temperature control layer 32 covering the heating element is a foamed resin sheet in which a large number of independent bubbles are formed inside. 103699.doc -18- 1293560 Therefore, the heat of the heating element 31 is not directly supplied to the human skin, thereby preventing the abnormal temperature of the skin from becoming high. Further, the temperature of the water vapor generated by the heating element 31 becomes 8 〇〇 c & right or above The water vapor passes through the through hole 34 of the temperature control layer 32 and further passes through the base sheet 41 of the first surface sheet 4, thereby being cooled, so that the temperature becomes 6 之外 on the outer surface 41a of the base sheet 41. °C or less. It is formed in the through hole 34 of the temperature control layer 32 as shown in Fig. 3, and the opening diameter of the inner surface 32b of the heat generating body 31 is small, and the outer surface 32& The opening diameter D1 is large, and D1/D2 is, for example, in the range of 12 to 5. The water vapor generated by the heating element moves from the opening end of the opening aperture D2 having a smaller diameter to the through hole 34, whereby the water vapor dispersion is supplied. Each of the through holes 34 reaches the temperature control layer 32 The temperature of the water vapor of the surface 32a is apt to be lowered. Further, since the opening diameter (1) of the through hole 34 at the outer surface 32a of the temperature control layer 32 is large, water vapor can be supplied to the entire first surface sheet 4. In the skin side surface 2, 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 further raised than the sheet portion 15, so that the heating body is attached to the skin In the case of a face or the like, the heating portions 11, 12, 13 and 14 are mainly in contact with the skin. The second surface sheet 4 of the heating side portions U, 12, Π and the skin side surface of the enamel is a velvet sheet. A plurality of short fibers 42 protrude from the outer surface 41a of the base sheet 41. The first surface sheet 4 contacts the skin via a plurality of short fibers 42, so that the skin feels soft. Further, since the short fibers 42 are present, A space of a fine distance is formed between the outer surface 41a of the base sheet 41 and the skin. Therefore, even if the temperature of the water vapor passing through the base 103699.doc -19· 1293560 material sheet 41 is, for example, 5 〇t or more, due to water The vapor supplies the skin through the above space. Therefore, it is possible to suppress the irritation to the skin and prevent the skin from feeling a higher temperature. Further, since the water vapor supplied between the substrate sheet 41 and the skin passes through the space, it is easily diffused to the surroundings, so that the diffusion can be suppressed. The temperature is irritating to the skin. Since the water vapor spreads as described above, it is possible to supply water vapor to the entire surface of the skin, thereby improving the moisturizing effect on the skin. φ Especially if the first surface sheet 4 is In the electrostatic flocking method, since the plurality of short fibers 42 protrude from the outer surface 41a of the base sheet 41 in an almost vertical posture, when the first surface sheet 4 comes into contact with the skin, the short fibers 42 are interposed. It is easy to keep a gap between the substrate sheet 4 and the skin. Further, when an urethane-based hot-melt type adhesive is used as an adhesive for fixing the short fibers 42 to the base sheet 4, since the adhesive has excellent heat resistance, it is difficult to be caused by water vapor. The temperature causes the short fibers 42 to fall off. Therefore, since the plurality of short fibers U which are placed on the first surface sheet 4 can function to lower the water vapor temperature and disperse the water vapor, it is not necessary to set the temperature control layer 32 which can extremely lower the water vapor temperature. More than the required thickness. Thereby, the water vapor generated by the heating element 31 can be supplied to the skin in a large amount. Further, as shown in Fig. 5, the circumference of the right inner heating portion 丨丨 is divided by the dividing line 21. On the outer side of the dividing line 21, the second surface sheet 4, the second surface sheet 5, the temperature control layer 32, and the heat insulating layer 33 are collectively pressed, and the embossed portion 35 is melted to form the sheet portion 15. 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. 103699.doc -20- 1293560 As shown in Fig. 5, in the right inner heating portion 丨丨, the temperature control layer 32 and the heat insulating layer 33 formed of the foamed resin sheet are densely present inside the dividing line 21 The width ruler + the area of the Wa is formed so that the heat generating body 31 cannot approach the dividing line 21. The above width ruler + Wa is, for example, in the range of 〇.3 to 5. 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 3 i 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 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 11 is colored reddish along the dividing line 21, thereby causing the user to feel the metal rust directly. However, as shown in Fig. 5, in this embodiment, the temperature control layer 32 and the heat insulating layer 33 which are adhered to 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 11 and the left inner heating portion 12 is easily bent along the center line 〇-〇 103699.doc -21 - 1293560, and the right inner heating portion u and the right outer heating portion 13 The right side deformation portion 17' and the left side deformation portion 18 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 丨 2 , the right outer heating portion 13 , and the left outer heating portion 14 can each contact the facial skin alone without being restrained from each other and the respective heating portions 11 , 12, 13, and 14 are easily adhered to the facial skin with irregularities on the surface. Further, in the sheet portion 15 in which the central deformation portion 16 and the right deformation portion 17 and the left deformation portion 18 are formed, the gap formed by the foamed resin sheet is formed in the same manner as the temperature control layer 32 formed of the foamed resin sheet. The hot layer 33 is fused, and its bending rigidity becomes moderate and elastic recovery property can be exerted. Therefore, when the self-sealing bag is taken out, the central deformation portion 16 and the right side deformation portion 17 and the left side deformation portion 18 can stably support the heating portions n, 12, 13, and 14 mainly composed of metal powder, so that the heating body does not Excessively twisted and easy to install on the face. As shown in Fig. 6, when the warming body 1 is attached such that its center line 〇-〇 is aligned with the center 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. 1 can be bent from the bridge of the nose to the left and right. Further, the upper deformation reference point 25a and the upper deformation reference point 25b are located near the upper part of the cheekbone below the eyelid, and the lower deformation reference point 26a and the lower deformation reference point 26b are located at the left and right sides below the ankle portion. (Compared to the left and right sides of the mouth portion.) 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. 103699.doc -22- 1293560 If so installed, the right inner heating portion 丨丨 and the left inner heating portion 12 can be adhered to the cheek portions on the left and right sides of the nose. Moreover, since the right inner heating portion 丨丨 and the left inner heating portion Each of the portions 12 has a shape in which the width dimension gradually decreases toward the upper edge 6 side, so that the portions are easily adhered to the cheek portions on the left and right sides of the nose. Further, the right outer heating portion 13 and the left outer heating portion 14 can be Adhered to the area from the left and right sides of the cheek to the vicinity of the ear. At the upper edge 6 of the warming body 1, a convex is formed on the 〇-〇 portion of the center line.

The portion 6a ^ 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 an air portion 27 which is elongated and extended in the vertical direction. 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 is prevented from being difficult to suck. Furthermore, the heating body (10) of the above embodiment is attached to the face of the body and is suitable for the shape of the face. However, the body-mounted warming body of the present invention may be attached to the body. Except for parts other than the face. Moreover, the body-mounted warming body of the present invention may also be about the surface sheet 4 = water vapor permeable. Further, the foamed resin sheet may be inserted only between the first surface sheet 4 and the heat generating element 31, and between the second surface sheet 5 and the heat generating body 31. [Examples] (1) Example (Example 1) A non-woven fabric of a non-woven fabric having a density of 23 103699.doc • 23 · 1293560 g/m formed of a low-melting polypropylene fiber was used as the first surface sheet. 4 substrate sheet 乜. As the nonwoven fabric constituting the second surface sheet 5, a paper fiber nonwoven fabric having a basis weight of 45 g/m2 formed of a fiber was used, and a polyethylene resin film having a basis weight of 19 was used as the non-air permeable film 5b. A foamed polyethylene sheet having an expansion ratio of 30 times and a thickness of 3 mm and an opening ratio of the shell hole 34 at the inner surface 32 &

Layer 32. As the heat insulating layer, a foamed polyethylene sheet having a foaming ratio of 3 G times and a thickness of 1 mm was used, and a through hole was not formed. * A sample of an embodiment of the sheet portion 15 was produced by laminating the above-mentioned sheets and thermally fusing them by embossing. (Example 2) A foamed polyethylene sheet having a use ratio of 30 times and a thickness of j mm and an opening ratio of the through holes 34 at the inner surface of 1 (%) was used as the temperature control layer 32. Other than the above, it is the same as that of the embodiment. (Example 3) In Example 2, there was a case where the heat insulating layer 33 was removed. (Example 4) The expansion ratio was 3 〇, the μ 〇 / / / degree was 2 mm, and the opening ratio of the through hole 34 at the inner surface 32a was 1 〇 0 / 〇 赞 / / S As the temperature control layer 32, a vinyl crucible sheet was produced to remove the heat insulating layer 33. (Example 5) The use of the heat insulating layer 33 of Example 1 was used. (2) Determination method

Automated large-scale pure bending test manufactured by KATO TECH CO 103699.doc -24-1293560 (KES-FB2-L). Each of the above embodiments was cut at 12 〇 mm x UO mm and both ends in the longer direction were held by the chuck, and the sample length between the chucks was set to 4 〇 111111. Then, at a speed of curvature change of 〇1 (:111, "(:, and the curvature is in the range of plus or minus 0.5 cm·), the sample is bent in both directions in the forward and reverse directions to obtain the required bending in all directions. The hysteresis curve of the bending moment (the horizontal axis is the radius of curvature, and the vertical axis is the bending moment required for bending). The above hysteresis is when the surface side of the sample is bent toward the outside of the reference in the range of 0.1 to 0.5 cnT1. The curve is approximated to a straight line, and the line is hooked to f-curvature (B value: mN.cm2/cm). Further, the hysteresis of the curvature of the curvature of 〇·2 cn^B is set to 2HB. (mN.cm/cm) The measurement results are disclosed in the following Table 1. [Table 1] Table 1 Example 1 Example 2 Example 3 Example 4 Example 5 B (mN.cm々cm) 0.35 0.46 0.426 0.616 0.97 2HB (mN-cm/cm) 0.442 0.817 0.755 1.04 1.55 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing a body-mounted temperature body according to an embodiment of the present invention from a skin side surface. 1 is a cross-sectional view of a ΙΙ-ΙΙ line. 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 the components of the heating body attached to the body in another embodiment. Fig. 5 is an enlarged cross-sectional view showing a portion of Fig. 2. 103699.doc • 25- 1293560 Fig. 7 is a side view showing a state in which the warming body of the body is attached to the face. Fig. 7 is a side view showing the state in which the heating body attached to the body is attached to the face.

1 Warming body 2 Skin side surface 3 Non-skin side surface 4 First surface sheet 5 Second surface sheet 6 Upper edge 7 Lower edge 11 Right inner heating portion 12 Left inner heating portion 13 Right outer heating portion 14 Left outer heating portion 15 Sheet portion 16 Center deformation portion 17 Right side deformation portion 18 Left side deformation portion 21, 22, 23, 24 Division line 25a, 25b Upper deformation reference 26a, 26b Lower deformation reference 27 Breathable portion 103699.doc -26 - 1293560 31 Heating element 32 Temperature control unit 33 Heat insulation layer 34 Through hole 41 Base material sheet 42 Short fiber LI Right side inclination reference line L2 Left side inclination reference line 0 Center line 103699.doc -27-

Claims (1)

L29356〇10, the scope of application for patents: • A heating body attached to the body, which comprises a third sheet of the surface, which is presented on the surface of the square, and a second surface sheet which is presented on the surface of the other side and the heat The body is sandwiched between the two surface sheets and generates heat when oxygen is supplied, and at least the first surface sheet is permeable to oxygen, and includes a plurality of heating portions having the heat generating body and a deformation portion. And connecting the adjacent heating portions to each other, and the heating portion is provided between the heat generating body and the first surface sheet or at least one of the heat generating body and the second surface sheet The resin sheet is formed by laminating at least the first surface sheet and the second surface sheet and the foamed resin sheet. In the heating body attached to the body of claim 1, wherein the first surface sheet is permeable to water vapor, and the heat generating body is water vapor generating, and is disposed between the first surface sheet and the heat generating body. The foamed resin sheet having a plurality of through holes and permeable to water vapor. ^ The request body 2 is mounted on the warming body of the body, and the second surface is thinner than the above-mentioned heat generating body, and the above-mentioned foamed resin sheet which cannot pass through water vapor is provided. 4. 5. The body-applied warming body of any one of items 1 to 3, wherein each of the deformed portions is thermally fused. /, 6. The embossing of each sheet is performed in the above-mentioned deformation portion of the heating body, which is attached to the body 4 of the item 4. The body-mounted warming body according to any one of items 1 to 3, wherein the bending rigidity (B value) of the deformation portion is from 0.3 to 1.0 (mN, cm 2 /cm). 7. The body-installed warming body according to any one of claims 1 to 3, wherein the deformation recovery (2HB value) of the deformation portion is in the range of 0.4 to 1.6 (mN, cm/cm). 103699.doc 2-