JP2020150999A - Heating beauty instrument - Google Patents

Abstract

To prevent breakage of a far-infrared ray generating unit; and to obtain properly a heating effect by a far-infrared ray.SOLUTION: A compact 25 comprising carbon is attached to a heating wire 18 of a dryer 10. The compact 25 is stored in a casing 26, and the casing 26 is provided with a passage part of a far-infrared ray. The compact 25 is covered with a cover sheet 27 transmitted by the far-infrared ray.SELECTED DRAWING: Figure 2

Description

The present invention relates to a heating beauty device such as a hair dryer or a curling iron that heats a part of the body such as hair or scalp for beauty.

Hair dryers are commonly used to dry the hair and scalp, straight irons are commonly used to straighten the hair, and curl irons are commonly used to curl the hair. However, for example, the scalp becomes less secreted and less moisturized with age. Therefore, if the scalp is exposed to warm air at a high temperature of the dryer, the scalp becomes too dry and causes itching and the like. In addition, the hair becomes less moisturized and thinner as it ages, and as a result, it becomes discolored or split ends due to high temperature heating. In order to prevent this, in Patent Document 1 and Patent Document 2, a carbon molded body for generating far infrared rays is provided in the hair dryer to support the heating effect by far infrared rays even if the heating temperature is low. I try to do it.

Registered Utility Model No. 3011964 JP-A-2018-15539

However, since the carbon molded product is fragile, it is vulnerable to impact and scratching. Therefore, the carbon molded product may be brittlely broken by an external force and cracked, or a part of carbon may be separated into powder or granules. In such a case, the skin of the user or the like may be broken. May stain black. In Patent Document 1, in order to deal with such a problem, the carbon molded product is coated with a coating agent, but since the coating agent has insufficient strength, the above-mentioned fear cannot be eliminated. In addition, depending on the material of the coating agent, far infrared rays are shielded, which results in a significant reduction in the heating support effect of the far infrared rays.

An object of the present invention is to provide a heating beauty device capable of preventing destruction of a far-infrared ray generating body such as a carbon molded product and appropriately obtaining a heating support action by far-infrared rays.

In order to achieve the above object, in the present invention, in a heating beauty device in which a heat source for heating a human body is provided and a far infrared ray generator is attached to the heat source, the far infrared ray generator is placed in a casing. It is characterized in that the casing is provided with a far-infrared ray passing portion.

In the above configuration, when the heat source generates heat, the human body is heated by the heat, and the temperature is used for beauty. At this time, far infrared rays are generated from the far infrared rays generator by the heat of the heat source. Then, the far infrared rays reach the human body through the passing portion of the far infrared rays. Therefore, heating is supported by far infrared rays. Moreover, since far infrared rays are radiated directly to the human body without using air as a medium, they are added without causing loss such as heating the medium air or diffusing heat through the medium air. The heating can be performed and the heating efficiency can be improved. Since the far-infrared ray generator is housed in the casing, damage is avoided.

As described above, according to the present invention, it is possible to prevent the far-infrared ray generator from being damaged and to appropriately obtain the heating effect by the far-infrared ray.

Side view of the hair dryer. Cross-sectional view of the blower cylinder part. The perspective view which shows the part of the molded body unit. An exploded perspective view showing a molded body unit. Sectional drawing which shows the molded body unit. A perspective view showing a straight iron. Side view showing a straight iron. The plan view which shows the part of the far-infrared ray generation unit. Sectional view of the iron piece. Side view showing a curl iron. A perspective view showing a curl iron. Sectional drawing of the part of a heating part.

Hereinafter, embodiments embodying the present invention will be described with reference to the drawings.
(First Embodiment)
A first embodiment in which the present invention is embodied in a hair dryer (hereinafter referred to as a dryer) 10 will be described with reference to FIGS. 1 to 5.

As shown in FIG. 1, a motor chamber 13 containing a motor (not shown) and a sirocco fan (not shown) rotated by the motor is arranged at the base end of the housing 12 having the handle 11 of the dryer 10. ing. The handle 11 is provided with an adjustment switch 15 for starting and stopping the motor and the heating element 18 described later, and for adjusting the heating temperature of the heating element 18. In the vicinity of the adjustment switch 15, a changeover switch 14 for switching the dryer 10 between a hot air supply state and a cold air supply state is provided.

The housing 12 is formed with a blower cylinder 16 extending forward from the motor chamber 13. As shown in FIGS. 2 and 3, a support member 17 having a cross-shaped cross section and having nonflammability, heat resistance, and electrical insulation such as mica is fixedly arranged inside the blower cylinder 16. A heating element 18 made of a nichrome wire is spirally wound around the outer circumference of the support member 17 so as to include the support member 17. Then, by driving the motor, external air is sucked into the motor chamber 13 from the intake port 19 on the side surface of the motor chamber 13, and the air is sent into the blower cylinder 16. This air is heated by the heating element 18 in the blower cylinder 16 and is sent to the outside through the front end opening of the blower cylinder 16.

A stay 21 is attached to the central portion of the front end of the support member 17 and at the axial center of the winding region of the heating element 18, and a temperature sensor 22 which is a motion sensor supports the front end of the stay 21. Has been done. The temperature sensor 22 points forward and detects the temperature of the user's scalp or hair located in front of the temperature sensor 22 when the dryer 10 is used. Then, the heating temperature of the heating element 18 is automatically adjusted according to the detection result. Therefore, even if warm air is continuously supplied to one place such as the scalp or hair, overheating of that place can be prevented, and if the high temperature and the low temperature are alternately supplied according to the temperature detection, the cuticle Is tightened to ensure the glossy action of the cuticle, and it is possible to promote proper blood circulation in the scalp.

A far-infrared ray generation unit 23 is installed on the rear side of the temperature sensor 22. As shown in FIGS. 2 to 5, the far-infrared ray generating unit 23 includes a square tubular casing 26 having both front and rear ends open, and a molded body unit 24 housed in the casing 26. In FIG. 2, the far-infrared ray generation unit 23 has a cross section instead of the temperature sensor 22 having a cross section. The casing 26 is made of a phenolic resin containing a carbon component and has a square tubular shape with the front and rear open. The opening on the front side of the casing 26 constitutes a far-infrared ray passing portion.

The molded body unit 24 is composed of a rectangular parallelepiped carbon molded body (hereinafter, simply referred to as a molded body) 25 and a cover sheet 27 that covers the periphery of the molded body 25. The molded body 25 is made of high-purity graphite. The cover sheet 27 is made of polytetrafluoroethylene (hereinafter referred to as Teflon, which is a trademark name) which is a compound of fluorine and carbon, and covers the upper and lower sides and the front and rear sides of the molded body 25 so as to cover the outer periphery of the molded body 25. It is wound around. Therefore, the side surface of the molded body 25 at the front and rear openings of the casing 26 is closed by the cover sheet 27, and the cover sheet 27 is interposed between the outer peripheral surface of the molded body 25 and the inner peripheral surface of the casing 26. There is.

The dryer 10 of the present embodiment operates as follows.
When the dryer 10 is used, the heating element 18 is generated, and the warm air heated by the heating element 18 is discharged forward from the tip opening of the blower cylinder 16. Therefore, the warm air can be used to dry or set the hair. At this time, since the molded body 25 is surrounded by the heating element 18 around four circumferences and heated by the heating element 18, far infrared rays are generated from the molded body 25. Then, the far infrared rays pass through the cover sheet 27 and are supplied to the outside through the front opening of the casing 26. Further, since the cover sheet 27 contains a carbon component, it is heated by the heat of the heating element 18 and the far infrared rays from the molded body 25 to generate far infrared rays.

In this way, far infrared rays are supplied from the opening of the casing 26 toward the user. Further, since the casing 26 is made of a phenol resin containing a carbon component, the casing 26 also generates far infrared rays by the heat from the heating element 18. Therefore, this far-infrared ray can be used together with the heat of warm air for drying or setting the hair.

Therefore, the dryer 10 of the present embodiment has the following effects.
(1) In the dryer 10 of the present embodiment, when heating is performed by the heating element 18, far infrared rays generated from the molded body 25 can support hair drying, hair style setting, and the like. Therefore, the amount of heat generated by the heating element 18 can be reduced, power consumption can be saved, and damage to the scalp and hair can be reduced. That is, in a state where far infrared rays, which are a kind of electromagnetic waves, are supplied to the hair and scalp, the moisture inside the hair and scalp is heated by micro-vibration resonance, so that the heating element 18 is not generated so high temperature. However, drying and blood circulation promotion can be effectively performed. In this way, it is possible to prevent excessive temperature rise of the hair and scalp due to the heating element 18 in hair drying and setting, and to enable low temperature drying and low temperature setting, so that damage due to heat of the hair and scalp can be avoided and the skin can be avoided. And can promote hair care. Moreover, since far infrared rays support the temperature of the warm air, even if the warm air is low, drying and setting can be performed efficiently in a short time. Furthermore, far-infrared rays easily reach the scalp even at a distance, warm the scalp moderately, and are useful for promoting blood circulation.

(2) Even if the molded body 25 is made of graphite as a brittle material, since the molded body 25 is housed in a hard casing 26 made of phenol resin, a physical external force acts on the molded body 25. This can be suppressed, the molded body 25 can be protected, and brittle fracture of the molded body 25 can be prevented. Therefore, the function of generating far infrared rays is not impaired, and it is possible to prevent the skin and the like from being soiled by the destroyed graphite powder and granules. Further, since the front surface of the molded body 25, that is, the portion located at the front open portion of the casing 26 is covered with the cover sheet 27, some fine particles of carbon constituting the molded body 25 become soot-like and scatter. This can be avoided and dirt on the skin can be prevented in the same manner as described above.

(3) Since the cover sheet 27 having more flexibility than the casing 26 is interposed between the molded body 25 and the casing 26, the physical external force on the molded body 25 is buffered by the cover sheet 27. Therefore, the protective function against the molded body 25 can be further enhanced. Moreover, since the cover sheet 27 covers the molded body 25 at the opening of the casing 26, the molded body 25 can be protected more reliably. Therefore, even if the dryer 10 is dropped on a hard floor surface, the molded body 25 can be effectively protected without being cracked.

(4) Since the cover sheet 27 is Teflon containing a carbon component, it not only transmits far infrared rays, but also generates far infrared rays from the cover sheet 27 due to the heat from the heating element 18 as described above. .. In addition, the cover sheet 27 is generated by far infrared rays from the molded body 25, and further far infrared rays are additionally generated. Further, since the casing 26 is made of a phenol resin containing a carbon component, far infrared rays are also generated from the casing 26 by the heat from the heating element 18. Therefore, it is possible to appropriately support the drying and setting of hair by far infrared rays.

(5) Since the cover sheet 27 is made of heat-resistant Teflon, it has excellent durability.
(6) Since the molded body unit 24 having the molded body 25 is located at the center of the winding region of the heating element 18, the molded body unit 24 does not interfere with the air flow passing over the heating element 18 and is smooth. You can get a warm air flow. Moreover, since the molded body unit 24 can obtain effective radiant heat substantially evenly from around the range of 360 degrees, a sufficient amount of far infrared rays can be generated.

(7) Since the molded body 25 is lighter than the ceramic having the same volume of far-infrared ray generating action, it can contribute to the weight reduction of the dryer 10.
(Second Embodiment)
Next, a second embodiment in which the present invention is embodied in a straight iron 30 which is a hair iron will be described with reference to the drawings of FIGS. 6 to 9.

As shown in FIGS. 6 and 7, in the straight iron 30, a pair of iron pieces 31 are connected so as to be openable and closable at a base end portion. On the other hand, the iron piece 31 is provided with a start switch 32 and an adjustment switch 33 for adjusting the heat generation temperature of the heating element 38 described later.

As shown in FIGS. 8 and 9, recesses 34 are formed on the tip facing surfaces of both ironing pieces 31, and the far-infrared ray generating unit 35 is housed and fixed in the recesses 34. The far-infrared ray generation unit 35 includes a bottom member 36 located on the inner bottom side of the recess 34, a leaf spring 37 located inside the bottom member 36, and a heating element 38 composed of a ceramic heater located on the leaf spring 37. , A molded body unit 24 located on the heating element 38 is provided. The molded body unit 24 constitutes a part of the far infrared ray generating unit 35. The molded body unit 24 includes a plate-shaped molded body 39 and a casing 40 that covers the molded body 39 and has a heat sink function, and a cover sheet 41 made of Teflon is attached to the upper surface of the casing 40. It is worn. An elastic mass 46 made of silicone rubber is interposed between the inner bottom surface of the recess 34 and the far infrared ray generating unit 35.

The molded body 39 is made of high-purity graphite as in the above embodiment, and the casing 40 is made of a metal having good thermal conductivity, for example, aluminum or an aluminum alloy. Fixed side stoppers 42 are formed on both sides of the bottom member 36, and movable side stoppers 43 facing the inner surface of the fixed side stopper 42 are formed on both sides of the casing 40. Then, the leaf spring 37 presses the heating element 38 against the molded body 39 without a gap, the molded body 39 is pressed against the seating surface 45 on the inner surface of the casing 40 without a gap, and the casing 40 is pressed against the fixed side stopper 42 without a gap. It is urged to the protruding side until the position is regulated by. A plurality of through holes 44 facing the heating element 38 are formed in the casing 40. The through hole 44 constitutes a passage portion for far infrared rays.

When the straight iron 30 is used, the casing 40 is heated by the heat of the heating element 38, and the cover sheet 41 is also heated. At this time, far infrared rays are generated from the molded body 39, and the far infrared rays pass through the through holes 44 of the casing 40, pass through the cover sheet 41, and are emitted to the outside. Further, the cover sheet 41 is heated by the far infrared rays and the heating element 38 to generate far infrared rays.

Therefore, if the iron piece 31 is closed and the straight iron 30 is slid and slid along the length direction of the hair with the hair sandwiched, the hair can be straightened. In this case, the far-infrared ray generating unit 35 is raised and lowered like a suspension by utilizing the elastic deformation and the repulsive force of the leaf spring 37 and the elastic mass 46 so that an unreasonable force does not act on the hair.

In addition to the heating temperature of the heating element 38, a large amount of far infrared rays are supplied to the hair, so that the heating temperature is not so high, that is, far infrared rays that are electromagnetic waves even if the heating temperature is low. This makes it possible to effectively heat the hair from the inside and set it straight. Therefore, carbonization of the hair can be suppressed and damage to the hair can be minimized.

Therefore, in the present embodiment, the following effects can be obtained.
(1) Since the far infrared rays from the molded body 39 and the cover sheet 41 can be used for setting the hair, the hair can be appropriately set without raising the heating temperature as described above. Therefore, this set can be performed in a short time, the water evaporation of the hair can be reduced, the water content can be maintained at an appropriate amount, and the damage to the hair can be significantly reduced. Therefore, the gloss of the hair can be maintained, and split ends and discoloration can be avoided as much as possible.

(2) Since the surface of the casing 40 is covered with a Teflon cover sheet 41 having a small coefficient of friction, the hair can be smoothly stretched with a small resistance. Therefore, as described above, damage to the hair can be suppressed, the gloss of the hair can be maintained, split ends and discoloration can be avoided as much as possible, and resistance to ironing operation is reduced, so that the setting can be performed smoothly and easily. Can be done.

(3) Since the through hole 44 is formed in the casing 40, the far infrared rays generated from the molded body 39 easily reach the cover sheet 41 through the through hole 44. Therefore, not only far infrared rays are emitted through the cover sheet 41, but also the far infrared rays promote heat generation of the cover sheet 41, and a large amount of far infrared rays are generated and used for ironing.

(4) Since the through hole 44 of the casing 40 is closed by the cover sheet 41, even when ironing wet hair, it is possible to prevent water droplets and moisture from entering the straight iron 30 through the through hole 44. It is possible to protect the electric parts in the straight iron 30.

(5) The molded body 39 is housed in the casing 40 via a leaf spring 37, and the casing 40 is covered with a flexible cover sheet 41. Further, the far-infrared ray generating unit 35 having the molded body 39 is received by the iron piece 31 by the elastic mass 46 made of silicone rubber. Therefore, even if the iron pieces 31 are handled roughly, for example, even if the iron pieces 31 are vigorously closed and the iron pieces 31 collide with each other, the impact is the cover sheet 41, the leaf spring 37, and the elastic mass 46. Since it is absorbed at a plurality of places, cracks and the like of the molded body 39 can be appropriately avoided.

(Third Embodiment)
Next, a third embodiment in which the present invention is embodied in a curling iron 50 as a curling iron will be described with reference to the drawings of FIGS. 10 to 12.

As shown in FIGS. 10 and 11, the curl iron 50 has a rod-shaped iron body 51 having a cylindrical peripheral surface and a holding lever 53 that is openably and closably connected to the iron body 51 by a shaft 52 at a base end. And have. The iron body 51 includes a handle portion 54 and a heating portion 55 constituting a far-infrared ray generating unit, and the handle portion 54 includes a start switch 56 and an adjustment switch 57 for adjusting the temperature of a heating element 67 described later. Is provided. The pressing lever 53 has an operating portion 58 and a pressing portion 59 having an arc-shaped cross section along the outer peripheral surface of the heating portion 55 of the iron body 51.

As shown in FIGS. 11 and 12, the heating portion 55 includes a pair of semi-cylindrical casings 61 made of a metal having good thermal conductivity, for example aluminum or an aluminum alloy, which constitutes a heat sink, and the casing 61. The entire outer periphery of the is covered with a cylindrical covering sheet 60 made of Teflon. The space between both side edges of both casings 61 is closed by a bar-shaped sealing material 62. A plurality of through holes 63 forming a far-infrared ray passing portion are arranged in a row at the central portion of both casings 61 in the width direction. A seating surface 64 is formed inside the rowing area of the through holes 63.

A pair of receiving portions 65 are formed inside both casings 61, and a receiving plate 66 is supported between the receiving portions 65 via a leaf spring 69. A plate-shaped heating element 67 made of a ceramic heater is supported on the receiving plate 66, and a plate-shaped molded body 68 made of graphite is supported on the heating element 67. Then, the heating element 67 is pressed against the molded body 68 without a gap by the spring force of the leaf spring 69, the molded body 68 is pressed against the seating surface 64 without a gap, and the molded body 68 is seated on the seating surface 64. The casing 61 constitutes the housing of the molded body 68.

When curling the hair using the curl iron 50 of the present embodiment, the heating elements 67 arranged at 180 degrees apart generate heat, and the entire molded body 68, casing 61, and cover sheet 60 are generated. That is, the entire heating unit 55 is heated. Then, the hair may be wound around the heating portion 55 of the iron body 51, and the hair may be sandwiched between the heating portion 55 and the heating portion 55 by the pressing lever 53. In this way, the hair is warmed and set in a curled state. At this time, far-infrared rays are generated from the molded body 68, and the far-infrared rays reach the cover sheet 60 through the through holes 63, pass through the cover sheet 60, and are emitted to the outside. Further, the cover sheet 60 also generates heat by the far infrared rays, and is heated by the heat of the heating element 67 to emit far infrared rays. Therefore, when setting to curl the hair, it is possible to perform support heating by far infrared rays in addition to direct heating by the heating element 67.

Therefore, in the present embodiment, the same actions and effects as those in the second embodiment can be obtained.
(Change example)
The present invention is not limited to the configuration of each of the above embodiments, and can be embodied in the following aspects.

-In the first embodiment, as the casing 26, a casing other than a phenol resin, for example, a material that generates far infrared rays such as Teflon, PPS (polyphenylene sulfide resin), and carbon reinforced resin is used.

-In the first embodiment, the stay 21 and the temperature sensor 22 at the front end opening of the blower cylinder 16 are omitted, and the far-infrared ray generating unit 23 having the molded body 25 is provided in that portion.
-In the first embodiment, the molded body 25 has a rectangular parallelepiped shape, but the shape of the molded body 25 such as a cube shape, a sphere shape, a cylinder shape, a prism shape, and a polyhedron shape other than a hexahedron is changed. In this case, it is preferable to change the shape of the casing 26 according to the shape of the molded body 25.

-In the first embodiment, the casing 26 has a square tubular shape with the front and rear open, but the casing 26 may be closed on the front side as long as it is open on the front side.
-In the third embodiment, the molded body 68 is directed only to the casing 61 side on the lever side.

-In the third embodiment, the molded body 68 has an arc-shaped cross section along the inner peripheral surface of the casing 61.
-In each of the first to third embodiments, instead of the cover sheets 27, 41, 60 made of Teflon, a material that easily transmits far infrared rays, for example, a material made of high-density polyethylene is used.

-As a heating beauty device, the present invention is a heating beauty device other than the dryer 10, straight iron 30, and curl iron 50 of each of the above embodiments, for example, a dryer having a comb and releasing air from the root portion of the comb teeth. To materialize.

-As the molded bodies 25, 39, 68, those other than graphite, for example, those made of ceramic such as alumina resin or those made of diatomaceous earth shall be used.
(Other technical ideas)
An example of a technical idea grasped from the embodiment or modification and not listed in the claims is as follows.

(A) The heating beauty device according to any one of claims 1 to 3, wherein the cover sheet is made of polytetrafluoroethylene.
(B) The heating beauty device according to any one of claims 1 to 3, wherein the cover sheet is made of a material that transmits far infrared rays.

10 ... Hair dryer, 18 ... Heating source, 23 ... Heating element, 25 ... Carbon molded body, 26 ... Casing, 27 ... Cover sheet, 30 ... Straight iron, 38 ... Heating element, 39 ... Molded body, 40 ... Casing, 41 ... Cover sheet, 44 ... through hole, 50 ... curl iron, 60 ... cover sheet, 61 ... casing, 63 ... through hole, 67 ... heating element, 68 ... molded body.

Claims (3)

In a heating beauty device in which a heat source for heating the human body is provided and a far-infrared ray generator is attached to the heat source.
A heating beauty device in which the far-infrared ray generator is housed in a housing and the housing is provided with a far-infrared ray passing portion. The heating beauty device according to claim 1, wherein the far-infrared ray generator is made of a carbon molded body, and the carbon molded body is covered with a cover sheet through which far-infrared rays are transmitted. The heating beauty device according to claim 1, wherein a through hole is formed in the housing, and the outer surface of the housing is covered with a cover sheet through which far infrared rays are transmitted so as to cover the through hole.