CN214905365U - Terahertz bedding - Google Patents

Abstract

The utility model discloses a terahertz bedding, which at least comprises a terahertz emission layer and a reflection layer from top to bottom, wherein the terahertz emission layer comprises an emission layer fiber fabric and terahertz powder, and the terahertz powder is impressed on the emission layer fiber fabric or is woven into the emission layer fiber fabric in a mixed manner; the reflecting layer comprises reflecting layer fiber fabric and semiconductor metal powder, and the semiconductor metal powder is pressed on the reflecting layer fiber fabric or is mixed and woven in the reflecting layer fiber fabric. The utility model discloses terahertz emitter need not any circular telegram device now, and the terahertz quantum wave that its transmission now produces resonance with the macromolecule of human body, has effectively promoted human tissue's temperature and activity.

Description

Terahertz bedding

Technical Field

The utility model relates to an electromagnetic wave technical field, concretely relates to terahertz is bedding now.

Background

THz waves (terahertz waves) refer to electromagnetic waves having a frequency in the range of 0.1THz to 10THz, and a wavelength in the range of approximately 0.03 to 3mm, which is between microwave and infrared. The method is in a transition region from a macroscopic classical theory to a microscopic quantum theory and from electronics to photonics. It is higher than microwave in frequency and lower than infrared; the energy magnitude is then between electrons and photons. The terahertz wave in the universe and nature has a wavelength of 3-100 μm and a very wide range of included wavelengths. Natural terahertz light waves are generated by the thermal vibration of crystalline lattices of organic molecules in natural minerals, inorganic substances, life and living organisms and living bodies. The terahertz powder is prepared by sintering a metal material capable of emitting terahertz waves and grinding the metal material into powder.

Currently, more and more researches are being made on applying terahertz technology to daily necessities, for example, a patent with publication number CN111329134A discloses a terahertz fiber home textile underwear fabric, which is formed by blending and weaving terahertz fibers and terahertz fibers consisting of polypropylene fibers, terahertz ultrafine powder and coupling agents; the publication number is: the patent of CN111297705A discloses a terahertz health care mask and a preparation method thereof, the terahertz health care mask comprises a mask main body and a thermoplastic gel layer, wherein the mask main body is woven by terahertz fiber blended fabric doped with terahertz ultrafine powder and a coupling agent.

The existing far infrared mattress is added with far infrared mineral powder, the wavelength of the far infrared ray radiated by the far infrared mineral powder is about 3-10 microns, the far infrared ray can only generate a warming effect on the skin generally, and the far infrared ray mattress can hardly permeate into the human body because the wavelength is short and the radiation quantity is low, and the far infrared ray mattress can not generate resonance with molecules forming cells. Most of the existing functional mattresses are provided with a power supply device, the temperature and the mode can be set, the warm physiotherapy effect can be achieved after the mattress is electrified, the operation is complex, and potential safety hazards are easy to generate.

Disclosure of Invention

The utility model aims at providing a terahertz is bedding set now need not power supply unit, can launch terahertz quantum wave, convenient to use. In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model discloses a terahertz bedding, which at least comprises a terahertz emission layer and a reflection layer from top to bottom, wherein the terahertz emission layer comprises an emission layer fiber fabric and terahertz powder, and the terahertz powder is impressed on the emission layer fiber fabric or is woven into the emission layer fiber fabric in a mixed manner; the reflecting layer comprises reflecting layer fiber fabric and semiconductor metal powder, and the semiconductor metal powder is pressed on the reflecting layer fiber fabric or is mixed and woven in the reflecting layer fiber fabric.

Furthermore, the particle size of the terahertz powder is 150-350 meshes, and the particle size of the semiconductor metal powder is 0.01-30 mu m.

The semiconductor metal powder is one of silicon carbide, silicon, ochre, nano zinc oxide and nano copper oxide.

Preferably, the semiconductor metal powder is nano zinc oxide, and the particle size is 0.01-0.1 μm. The nano zinc oxide is white hexagonal crystal or spherical particle with specific surface area greater than 4m²The fiber has extremely high chemical activity, excellent catalytic activity and photocatalytic activity, has functions of resisting infrared rays and ultraviolet radiation and sterilizing, has good liquidity, and is a material for manufacturing far infrared ray reflection fibers. The results of the detection and the identification of the institute of microbiology of Chinese academy of sciences show that 0.5-1% of nano zinc oxide is added into a rich bacteria culture medium, the growth of escherichia coli can be effectively inhibited, and the bacteriostasis rate reaches more than 99.9%. Therefore, the semiconductor material is selected from the nano zinc oxide, and has the functions of heat storage, heat preservation and bacteriostasis besides the function of reflecting electromagnetic waves.

Preferably, the anti-bacterial fabric further comprises an anti-bacterial layer arranged below the reflecting layer, the anti-bacterial layer comprises an anti-bacterial layer fiber fabric and graphene cotton flakes, and the graphene cotton flakes are mixed and woven into the anti-bacterial layer fiber fabric.

The reflective layer fiber fabric is a blended fiber containing 60% of polyester fiber and 40% of cotton.

Preferably, the antibacterial fabric further comprises a bearing layer and an anti-skid layer which are sequentially arranged below the antibacterial layer, the bearing layer is made of hard cotton, and the anti-skid layer is made of polyester fibers.

Furthermore, the bottom of the anti-skid layer is provided with anti-skid particles.

The anti-skid particles are tourmaline powder and are pressed at the bottom of the polyester fiber in a small dot-shaped plastic dropping mode.

Preferably, the four corners of the anti-skid layer are provided with rubber high-elasticity rope binding bands.

Wherein the bedding article is a mattress or a bed pad or a bed sheet or a pillow.

Due to the adoption of the structure, the utility model discloses following beneficial effect has:

the utility model discloses terahertz is bedding need not any circular telegram device now, adds terahertz powder to the launching layer fabric on, when human and fabric contact, terahertz powder can launch terahertz wave now. The reflecting layer is arranged below the emitting layer, the semiconductor metal powder of the reflecting layer mainly plays a role in reflecting terahertz waves, and the emissivity of the terahertz waves is improved through reflection of the reflecting layer. When the terahertz quantum wave resonance imaging device is used, the terahertz quantum wave resonates with macromolecules of a human body, so that the temperature and the activity of human tissues are effectively improved, peripheral blood at the far end of a nerve is promoted to effectively flow, the temperature of the human body can be averagely increased by 1-3 degrees, and the immunity of the human body is improved.

Drawings

Fig. 1 is a schematic structural diagram of the first embodiment.

Fig. 2 is a schematic structural diagram of the second embodiment.

FIG. 3 is a schematic structural diagram of the third embodiment.

Fig. 4 is a schematic structural view of the back surface of the anti-slip layer.

FIG. 5 is a schematic view of an initial imaging of a thermography tester.

FIG. 6 is a schematic view of the thermal infrared imager tester at 5 minutes.

FIG. 7 is a schematic view of an infrared thermal imager tester imaging at 11 minutes.

Description of the main component symbols:

1: terahertz emission layer, 2: reflective layer, 3: antibacterial layer, 4: bearing layer, 5: anti-skid layer, 6: anti-slip particles, 7: a rubber high elastic rope binding band.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1, the present embodiment discloses a terahertz bed sheet or bed mat.

Comprises two layers: terahertz emitting layer 1 and reflecting layer 2. The terahertz emission layer comprises an emission layer fiber fabric and terahertz powder. The terahertz powder is pressed on the fiber fabric of the emission layer or is mixed and woven in the fiber fabric of the emission layer. The reflecting layer comprises reflecting layer fiber fabric and semiconductor metal powder, and the semiconductor metal powder is pressed on the reflecting layer fiber fabric or is mixed and woven in the reflecting layer fiber fabric. And arranging the reflecting layer 2 below the terahertz emitting layer 1, and sewing and compounding the terahertz emitting layer and the reflecting layer together to form the terahertz bed sheet or the bedding.

The fiber fabric of the transmitting layer is pure cotton fiber, and the fiber fabric of the reflecting layer is blended fiber containing 60% of polyester fiber and 40% of cotton.

The particle size of the terahertz powder is 150-350 meshes, and the particle size of the semiconductor metal powder is 0.01-30 mu m. The semiconductor metal powder can be one of silicon carbide, silicon, ochre, nano zinc oxide and nano copper oxide. The semiconductor metal powder of the embodiment adopts nano zinc oxide, and the particle size is 0.01-0.1 μm.

In this embodiment, the semiconductor metal powder of the reflective layer mainly plays a role in reflecting non-interference terahertz waves, and is used as a substrate material. Experiments show that the semiconductor substrate can efficiently reflect terahertz waves, so that the semiconductor substrate is ideal as a substrate material, when the terahertz wave emitting layer emits the terahertz waves, one part of the terahertz waves is emitted outwards, the other part of the terahertz waves is emitted to the reflecting layer, the semiconductor metal powder is repeatedly reflected, the terahertz waves are efficiently sealed, and the emissivity of the terahertz waves is improved.

Example two

As shown in fig. 2, the embodiment discloses a terahertz pillow, which comprises a pillow case and a pillow core. The upper part of the pillow case comprises three layers: terahertz emitting layer 1, reflecting layer 2 and antibiotic layer 3. The materials of the terahertz emitting layer 1 and the reflective layer 2 are selected from the same one as in the first embodiment.

The antibacterial layer 3 contains graphene cotton wadding sheets and graphene sheet materials, has an ultra-strong far infrared function, promotes blood microcirculation, relaxes channels and activates collaterals, relieves fatigue, and helps sleep and keep fit. In addition, on one hand, the pillow has antibacterial and bacteriostatic properties, inhibits bacteria breeding, and on the other hand, the pillow has strong moisture absorption and dehumidification properties, avoids the odor of damp bacteria, and ensures a comfortable, healthy and clean sleeping environment.

EXAMPLE III

As shown in fig. 3, the present embodiment discloses a terahertz mattress.

The difference between this embodiment and the first embodiment is: it comprises five layers. In this embodiment, in addition to the terahertz emission layer 1 and the reflection layer 2, an antibacterial layer 3, a supporting layer 4, and an anti-slip layer 5 are sequentially disposed below the reflection layer 2. The terahertz emitting layer 1 and the reflecting layer 2 are the same as those of the first embodiment, and the antibacterial layer is made of the same material as that of the second embodiment. The terahertz emitting layer 1, the reflecting layer 2, the antibacterial layer 3, the supporting layer 4 and the anti-skid layer 5 are sewn and compounded together to form the mattress.

The material of the bearing layer 4 is hard cotton, and the hard cotton is prevented from collapsing, mainly plays a role in bearing and is not easy to collapse.

As shown in fig. 4, the material of the anti-slip layer 5 is polyester fiber, and anti-slip particles 6 are arranged at the bottom of the anti-slip layer 5. The anti-skid layer 5 adopts tourmaline powder and presses the tourmaline powder on the polyester fiber fabric layer in a small dot shape by a drop molding pressing method, thereby playing a role of anti-skid with the lower bed board or the mattress. The four corners of the anti-skid layer are provided with rubber high elastic rope binding bands 7 so as to be suitable for being fixed with the lower mattress.

In order to verify the effect of the embodiment, the following thermal infrared imager tests are performed, and the test process is as follows: will the utility model discloses the mattress tiling is pressed down the condition that the anthropomorphic dummy lies on the mattress with the hand, then holds the thermal imaging condition on the thermal infrared imager test mattress.

The test results are shown in FIGS. 5 to 7. As shown in fig. 5, the maximum temperature of the palm contact portion at the beginning was about 31.1 ℃. As shown in fig. 6, the palm contact area generally increased in temperature after 5 minutes, with a maximum temperature of about 32.1 ℃. As shown in fig. 7, by 11 minutes, the temperature of the palm contact portion was increased to 33.4 ℃. Further, the maximum temperature of the hand-touched portion was maintained at about 33.4 ℃ and was not changed.

Can derive from thermal infrared imager test experiment, the utility model discloses the terahertz quantum wave that terahertz mattress made emitted produces resonance with the macromolecule of human body now, has effectively promoted the temperature and the activity of human tissue to impel the tip blood of nerve distal end to effectively flow, can make human body temperature on average promote 1 ℃ to 3 ℃.

To sum up, the utility model discloses terahertz bedding article now that makes need not any circular telegram device, and the practicality is good, and the facilitate promotion is used.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims (10)

1. A terahertz bedding article which is characterized in that: the terahertz emission layer comprises an emission layer fiber fabric and terahertz powder, and the terahertz powder is pressed on the emission layer fiber fabric or is mixed and woven into the emission layer fiber fabric; the reflecting layer comprises reflecting layer fiber fabric and semiconductor metal powder, and the semiconductor metal powder is pressed on the reflecting layer fiber fabric or is mixed and woven in the reflecting layer fiber fabric.

2. The terahertz bedding article of claim 1, wherein: the particle size of the terahertz powder is 150-350 meshes, and the particle size of the semiconductor metal powder is 0.01-30 mu m.

3. The terahertz bedding article of claim 2, wherein: the semiconductor metal powder is one of silicon carbide, silicon, ochre, nano zinc oxide and nano copper oxide.

4. The terahertz bedding article of claim 3, wherein: the semiconductor metal powder is nano zinc oxide, and the particle size is 0.01-0.1 mu m.

5. The terahertz bedding article of claim 1, wherein: still including setting up in the antibiotic layer of reflection stratum below, antibiotic layer include antibiotic layer fabric and graphene cotton flocculus, graphene cotton flocculus thoughtlessly weave to antibiotic layer fabric in.

6. The terahertz bedding article of claim 5, wherein: the fiber fabric of the transmitting layer is pure cotton fiber, and the fiber fabric of the reflecting layer is blended fiber containing 60% of polyester fiber and 40% of cotton.

7. The terahertz bedding article of claim 5 or 6, wherein: the anti-skid fabric is characterized by further comprising a bearing layer and an anti-skid layer which are sequentially arranged below the antibacterial layer, wherein the bearing layer is made of hard cotton, and the anti-skid layer is made of polyester fibers.

8. The terahertz bedding article of claim 7, wherein: the bottom of the anti-skid layer is provided with anti-skid particles.

9. The terahertz bedding article of claim 8, wherein: the anti-skid particles are tourmaline powder which is pressed at the bottom of the polyester fiber in a small round dot-shaped plastic dropping mode.

10. The terahertz bedding article of claim 8, wherein: and rubber high-elasticity rope binding bands are arranged at four corners of the anti-slip layer.

Images