JPH057027B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to improvement of a futon, and more particularly, to a futon that emits far-infrared rays suitable for being exposed to far-infrared rays even while sleeping.

(Conventional technology) Conventionally, far infrared rays have been used to stimulate the human body.
As a product that promotes blood circulation, Utsukai 57-95128
There is a far-infrared health pine described in the publication.
This mat uses the body temperature of the user in contact with the mat as a heat source, heats a radiator such as ceramic, and radiates far infrared rays from this radiator.
It promotes blood circulation and helps relieve fatigue.

In addition, as a far-infrared ray-utilizing blanket equipped with a heater, a planar heating element equipped with a heater is formed in ceramic, which serves as a far-infrared radiator, in Japanese Utility Model Application Publication No. 114663/1983. There are pillows with polyester cotton placed on top of the heater, or polyester cotton placed on top of the heater mixed with ceramic fine particles that emit far-infrared rays.

Furthermore, Japanese Patent Application Laid-open No. 1-97476 describes a pine tree that utilizes far infrared rays emitted from materials such as plants, animals, and volcanic ash.

Far-infrared rays are emitted from all materials with a temperature above absolute zero (minus 273.16 degrees Celsius), and are known to be emitted in large quantities especially when metal oxide ceramics are heated. By efficiently utilizing the characteristics of far-infrared rays, such as the rapid heating effect and remote heating effect, it is useful for heating appliances, cooking appliances, etc.

On the other hand, it is known that irradiation with far infrared rays is even useful in promoting physiological effects, and in particular, the use of far infrared rays in sauna baths and the like has been recognized to have significant therapeutic and health promoting effects.

(Problem to be Solved by the Invention) However, in order for far infrared rays to have any effect on the human body, a considerable amount of radiation emitted when ceramic is sufficiently heated with a heater or the like is required. However, far-infrared rays are not emitted in large amounts from ceramics at room temperature.

Therefore, with conventional far-infrared health mats that heat a radiator using a heat source that uses a temperature similar to the user's body temperature, a large amount of radiation cannot be obtained. Therefore, far-infrared rays cannot be expected to have much effect on promoting blood circulation or relieving fatigue.

On the other hand, when a planar heating element that emits far-infrared rays is used, such as a far-infrared ray futon equipped with a heater, there are many problems. For example, the heater and ceramic are integrated.
It was easy to break when folded. Moreover, this futon has a far-infrared reflective sheet such as an aluminum vapor-deposited resin sheet placed on the bottom surface of the planar heating element.
Since the purpose is to enhance the radiation effect of far infrared rays, if such an aluminum vapor-deposited resin sheet or the like is placed inside the futon, there is a disadvantage that the moisture-draining effect of the futon is impaired.

Furthermore, mats that use far infrared rays emitted from materials such as plants, animals, and volcanic ash cannot relieve physical fatigue while sleeping.

In addition, in a futon in which polyester cotton or the like is placed on top of this sheet heating element, the distance from the sheet heating element, which is a far-infrared radiator, to the body lying supine on the mattress is equal to the thickness of the polyester cotton. Because of this, the amount of emitted far infrared rays had to decrease until it reached the body, and the body was unable to absorb a sufficient amount of far infrared rays.

On the other hand, in the case of polyester cotton placed on top of the heater mixed with ceramic fine particles that emit far infrared rays, the holding power of these fine particles is increased because the ceramic fine particles are mixed into the linear polyester and bonded. The mixing ratio of ceramic fine particles is limited to 2 to 5% (weight ratio) at most, and the mixed ceramic fine particles are
There was also the problem that it could easily come off during cleaning.

Moreover, this polyester cotton has an extremely high transmittance of far infrared rays, and the polyester cotton itself does not emit far infrared rays at all. As a result, the far infrared rays that reach the body are limited to a part of the far infrared rays that are directed upward from the polyester cotton among the far infrared rays emitted from the ceramic fine particles. Furthermore, the far infrared rays emitted from the human body itself are transmitted below the polyester cotton, so it cannot be reflected and reused. Therefore, such a futon has the disadvantage that the total amount of far-infrared rays that the body receives is extremely limited.

Therefore, this invention was devised to solve the above-mentioned problems.It emits a sufficient amount of far-infrared rays to the human body lying on the futon, and also allows for easy handling without impairing the moisture-draining effect of the futon. To provide a futon that emits far infrared rays and can be easily used every day.

(Means for Solving the Problem) A first means of the present invention to achieve the above-mentioned object is to form a ceramic that emits far infrared rays into fine particles, and to form an upper layer containing the ceramic fine particles; It is a futon with a heater unit in the middle layer that heats the ceramic in the upper layer, and an aluminum material in the lower layer that reflects far infrared rays emitted from the upper layer. The aluminum material has aluminum weft threads woven into the polyester warp threads at a ratio of 2:1.

As a second method, the filling is made of natural fibers such as cotton, wool, linen, silk, etc., and when the filling is fibrous, ceramic 4 with a weight ratio of about 1% to 10% is used.
This is due to the fact that the .

Furthermore, as a third means, the filling is made of recycled fiber such as rayon, and the weight ratio is 10 in the spinning dope.
The solution to this problem is to mix 50% to 50% ceramic before spinning.

(Function) That is, according to the first means of the present invention, the heater unit in the middle layer heats the ceramic fine particles in the upper layer, causing the ceramic to emit a considerable amount of far infrared rays.

The far infrared rays emitted from this ceramic reach the body lying supine on the mattress.

Further, the far infrared rays emitted below the futon are reflected above the futon by the aluminum material in the lower layer and reach the body.

At this time, moisture such as sweat is discharged through an aluminum material in which aluminum weft is woven at a ratio of 2:1 to polyester warp.

Moreover, according to the second means, cotton, wool,
Natural fibers such as hemp and silk themselves emit far-infrared rays and reflect the far-infrared rays emitted from the body back to the body.

Furthermore, according to the third means, ceramic is mixed inside recycled fibers such as rayon, and the holding power of the ceramic is increased.

In this way, the far infrared rays emitted from the ceramic particles cause characteristic absorption due to resonance with polar molecules of atomic groups within body cells, and thermal energy is generated along with this. This heat energy is thought to activate metabolism, improve blood circulation, and promote the elimination of waste products.

(Embodiments) Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

It is planned that the ceramic 4 will be one that emits far infrared rays in the wavelength range of 4μ to 30μ (see Fig. 2). This is because, as shown in the characteristic wavelength table of infrared absorption spectra, atomic groups such as water, proteins, fats, sugars, etc. are observed to vibrate in the wavelength range of 4μ to 30μ. In other words, when these atomic groups are irradiated with far infrared rays in a specific wavelength range, the electromagnetic wave energy of the same frequency will be ) It resonates with the vibrations of electromagnetic waves, producing intense vibrations, and this mechanical energy is released as thermal energy, causing the molecules to try to reach a stable state (characteristic absorption).

Therefore, by constantly emitting far-infrared rays in this specific wavelength range to the sleeping body, organic matter, water, and proteins in the body that have characteristic absorption bands within the wavelength of this far-infrared rays will resonate with the far-infrared rays. This is because it is thought that it can be expected to have a more effective menstrual promoting effect.

In the illustrated example, ceramic fine particles are uniformly distributed in the upper layer so that when the person lies down on the pillow 1, far infrared rays are irradiated on all parts that come into contact with the pillow 1.

That is, the upper layer of the comforter 1 is composed of a batting 3 placed between the outer fabric 2 and the padding 5, and fine particle ceramics 4 mixed in the batting 3.

At this time, the filling 3 in the embodiment is planned to be made of natural fibers such as cotton, wool, hemp, or silk, or recycled fibers such as rayon. When using fillings 3 of natural fibers such as cotton, wool, linen, silk, etc., the ceramic 4 is bonded to each filling 3 while it is still in the form of fibers. For example, when using cotton, , weight ratio 1% to 250g/ ^m2 batting 3
Contains about 10% ceramic 4. It is planned to use an acrylic emulsion adhesive for bonding the ceramic 4, and if necessary, a cross-linking agent such as melamine range may be added.

Moreover, rayon or nonwoven fabric may be used for the filling 3 of this upper layer. When using rayon, ceramic 4 is mixed in the spinning dope in advance and then spun, and the mixing ratio of ceramic 4 is as follows:
It is possible to mix 10% to 50% by weight.

And the particles of Ceramic 4 are 0.5μ on average,
The maximum size is expected to be 2μ, and it has been confirmed that the smaller the ceramic particles, the more effectively they emit far-infrared rays. In addition, outer fabric 2
is made of down-proof cotton plain weave, and the middle layer 5 is made of cotton.
It is possible to increase the strength by forming the entire upper layer in a quilted manner.

The middle part of the futon 1 is composed of a heater unit 6. This heater unit 6 is constructed using heaters used in general electric mattresses, electric blankets, electric carpets, etc., or using conventional technologies thereof, and has a strength control of about 5 levels. We plan to use around 100W to 200W.

The lower layer is composed of a padding material 7, a batting material 8, and a backing material 9 on which an aluminum material 9A is arranged. Aluminum material 9A is
Aluminum weft yarns are woven into the polyester warp yarns at a ratio of 2:1. In addition, the aluminum material 9A may be a material that is adhered to an appropriate material by aluminum vapor deposition.

The filling 8 is planned to be made of 1000 g/m ² polyester, and the filling 7 is planned to be made of 100% cotton.

The thickness of the entire quilt 1 made up of each layer in this way is 50 mm to 80 mm.

In order to apply fine particles of ceramic 4 to the upper layer batting 3, there is a method of forming a coating layer of ceramic 4 on the fiber surface of the batting 3.

In addition, as a method of not forming a ceramic 4 fine particle layer, a nonwoven fabric is used instead of the batting 3, and when forming this nonwoven fabric, ceramic 4 fine particles are mixed in advance, and an upper layer impregnated with ceramic fine particles 2 is formed. It is also possible to form

(Effects of the Invention) The present invention achieves its original purpose by being configured as described above.

That is, the ceramic 4 that emits far infrared rays is formed in the form of fine particles, and the upper layer containing the fine particles of the ceramic 4 and the heater unit 6 that heats the ceramic 4 in the upper layer are placed in the middle layer. Far-infrared rays can be emitted from the vicinity, and the emitted far-infrared rays can be absorbed into the body extremely effectively. Therefore, like a conventional futon made of polyester cotton or the like placed on a planar heating element containing ceramic, the amount of far infrared rays emitted is reduced until it reaches the body, and a sufficient amount of far infrared rays is emitted. The problem of not being able to absorb it into the body has been resolved.

Furthermore, aluminum material 9A is placed in the lower layer to reflect far infrared rays emitted from the upper layer.
This lower layer is made up of a middle fabric 7, a middle surface 8, and a lining fabric 9 on which aluminum material 9A is arranged, and the aluminum material 9A is
Since the aluminum weft yarns are woven into the polyester warp yarns at a ratio of 2:1, it is possible to obtain a far-infrared reflection effect and a moisture-draining effect on the lining fabric 9 at the same time.

In addition, the filling 3 is made of natural fibers such as cotton, wool, linen, silk, etc., and when the filling 3 is fibrous, ceramic 4 of about 1% to 10% by weight is bonded to the filling 3. The holding power of the ceramic 4 can be increased, and the amount of far-infrared rays emitted can be increased compared to the conventional method in which fine ceramic particles are mixed into cotton-like polyester and bonded together. In addition, natural fibers themselves emit far-infrared rays, and
It also has the property of reflecting far infrared rays. Therefore, the far infrared rays emitted from the body are reflected back toward the body, and as a result, the total amount of far infrared rays is divided into that emitted by Ceramic 4, that emitted by the natural fibers, and the amount emitted by the body itself. Since the emitted far infrared rays are reflected and the total amount, the far infrared rays are received on the body much more efficiently than previous futons, which are made by mixing ceramic particles that emit far infrared rays into the polyester cotton placed on top of the heater. be able to.

Furthermore, Filling 3 uses recycled fibers such as rayon, and by mixing 10% to 50% of ceramic by weight into the spinning dope and spinning it, Ceramic 4 is obtained.
is mixed inside recycled fibers such as rayon, increasing the holding power of ceramics. Therefore, by mixing a large amount of ceramic, it is possible to further increase the amount of far-infrared radiation (see Fig. 3). Additionally, the problem of mixed ceramic particles easily falling off during cleaning has been resolved.

As a result, the far infrared rays emitted from the ceramic fine particles 2 effectively act on the sleeping body.

That is, when the body is exposed to far-infrared rays every day for a long period of time, many health-promoting effects are expected, such as the previously proven effects of promoting metabolism, regulating the autonomic nervous system, anti-inflammatory effects, and eliminating waste products.

In addition, when lying on the mattress 1, far infrared rays act particularly on the spinal cord, which promotes important functions such as producing blood and antibodies in the spinal cord and regulating the balance of hormones in the body. It is extremely suitable for

As described above, according to this invention, a sufficient amount of far infrared rays can be emitted to the human body lying on the futon, and it is easy to handle without impairing the moisture removal effect of the futon, and can be easily used every day. It has various industrially beneficial effects, such as:

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention; FIG. 1 is a cross-sectional view, FIG. 2 is a reference diagram showing wavelength data of far infrared rays emitted from ceramic fine particles attached to a futon according to the present invention, and FIG. This is a reference diagram showing data comparing the amount of far-infrared rays emitted between fibers spun after mixing 10% by weight of ceramic into a rayon spinning dope and other fibers. 1... Futon, 2... Outer fabric, 3... Filling, 4...
... Ceramic, 5 ... Filling, 6 ... Heater unit, 7 ... Filling, 8 ... Filling, 9 ... Lining fabric,
9A...Aluminum material, 9B...Warp thread. A...Rayon fiber with ceramic, B...Rayon fiber without ceramic, C...Polyester fiber with ceramic.

Claims (1)

[Scope of Claims] 1. Ceramic that emits far infrared rays is formed into fine particles, and an upper layer containing the ceramic fine particles and a heater unit for heating the ceramic in the upper layer are arranged in the middle layer, and It is a futon whose lower layer is made of aluminum material that reflects emitted far infrared rays, and the lower layer is composed of an inner fabric, an inner surface, and a lining material made of aluminum material, and the aluminum material is made of polyester-based material. A futon that emits far infrared rays and is characterized by having aluminum weft threads woven into the warp threads at a ratio of 2:1. 2. The filling is made of natural fibers such as cotton, wool, linen, silk, etc. When the filling is fibrous, the weight ratio is 1% or more.
2. The far-infrared ray-emitting futon according to claim 1, which is bonded with about 10% ceramic. 3. The quilt that emits far infrared rays according to claim 1, wherein the filling is made of recycled fibers such as rayon, and is spun after mixing 10% to 50% by weight of ceramics into the spinning dope.