TWM594961U - Magnetic far-infrared wig - Google Patents

Abstract

This creation provides a magnetic far-infrared wig, the structure of this creation is formed through plastic MuCell injection molding (MuCell®) evenly lying magnetic materials, wherein the magnetic material is selected from a group consisting SrFe₁₂O₁₉, BaFe₁₂O₁₉, CoFe₁₂O₁₉, and Nd-Fe-B to support the alleviation of pain and sore. The wig and the edge of the wig are covered with a structure selected from a group consisting plum flower, orchid, bamboo leave, and Chrysanthemum. User can simply cover the head with the wig or partially folded the edge of the wig to create different style for fashion needs. Due to the magnetism generated by the permanent magnetic materials, this creation can support the alleviation of sore and pain. This creation can further add far-infrared ceramic materials to generate the blood circulation enhancement and ease the discomfort on the head with warm keeping effect.

Description

Magnetic far infrared headgear

This creation is about a magnetic far-infrared headgear, especially a magnetic device and far-infrared ceramic application to produce a functional device that can relieve head discomfort and keep warm.

With the rapid development of computerization and networking in recent years, the time associated with televisions, screens, or mobile phone screens in human life has increased, and the negative effects of stress and headaches on physical and mental stress are becoming more frequent, so that daily necessities have health functions to slow down the body. Discomfort and promoting health become requirements for process design. The human body has a biological magnetic field, and changes in the external magnetic field will affect the physiological function of the human body. Such changes occur through changes in charge, potential, molecular structure, biochemistry, and physiological functions of the nerves and humoral systems to adjust the physiological functions of the human body and improve immunity. Ancient Greek doctors used magnets to treat diarrhea, gout and cramps. Arab doctors use magnets to treat toothaches, liver diseases, etc. In the 1950s, magnetic particle therapy appeared in Japan. It has been used in internal medicine, surgery, gynecology, pediatrics, otolaryngology, ophthalmology, dermatology, and stomatology. It has been reported that magnetic fields can calm and improve sleep. It can also relieve pain, reduce inflammation, reduce swelling, lower blood pressure and lower fat.

The method of using magnetic fields to cure diseases is called magnetic therapy. As early as 2000 years ago, magnetism and other mineral substances were mixed together to treat diseases. Sixth Century AD On behalf of the medical scientist Sun Simiao in the "Thousand Gold Recipes", using magnets can be used for eyesight, and it can also be applied externally with "Jin Chuang Bleeding". In the "Miscellaneous Notes in the Cloud" written by Feng Zan in the Tang Dynasty, it is written that "the essence is as good as a magnet, thinking that the pillow is old but not faint." The ancient medical books mentioned above show the benefits of magnets on human health, but the natural magnets The magnetic field is weak, and the limited number is difficult to use widely or play an obvious role.

Far-infrared rays were discovered by scientist Herschel in experiments, and the physical characteristics have obvious heat radiation. It can effectively remove benzene, formaldehyde, sulfide, ammonia and odor substances in the room. It has sterilization function. Far infrared rays can promote blood circulation. After acting on the skin, it stimulates the thermal sensor in the skin. Through thalamus reflex, the blood vessels are dilated to accelerate blood circulation. On the other hand, heat action causes the release of vasoactive substances, low blood vessel tension, dilation of small arteries, capillaries and veins, improved blood circulation, and has anti-inflammatory and anti-tumor functions. The thermal effect of far infrared rays activates the function of immune cells, strengthens the phagocytic function of cells and reticuloendothelial cells, achieves the purpose of anti-inflammatory and bacteriostasis, active tissue metabolism, increases the oxygen supply of cells, strengthens the ability of cell regeneration, improves the oxygen supply state of the disease 1. Control the development of inflammation and improve the speed of lesion repair. Far infrared rays can also promote microcirculation, accelerate the metabolism of toxic substances, waste excretion, accelerate the absorption of exudates, and reduce inflammation and edema. Based on the above effects, it will be widely used in medical and rehabilitation fields. The general far-infrared raw materials are generally divided into two types: (1) naturally collected ores with far-infrared radiation energy; (2) far-infrared ceramics sintered from special raw materials at high temperature. The far-infrared radiation of naturally collected ores is not uniform, and the high-temperature sintered far-infrared ceramics can be modified with raw material formulas and proportions to generate infrared light waves with a fixed wavelength. It is widely used in fuel saving, sports training and rehabilitation, air purification, and human health And other fields.

The plastic microfoam injection process (MuCell®) is to inject supercritical fluid (N ₂ or CO ₂ ) into the injection machine material tube, and mix the supercritical fluid and plastic into a uniform single-phase fluid through the screw. Due to the instantaneous pressure drop of the supercritical fluid and the homogeneous phase mixture of the molten polymer during injection, the gas diffuses from the molten plastic to nucleate and grow into uniform fine bubbles after the fluid enters the cavity. The plastic containing fine bubbles is cooled and solidified by the mold to obtain fine foamed products. This process saves the pressure holding stage of the traditional plastic process and saves the process cycle time, while solving the problems of uneven shrinkage and warpage of traditional injection products to improve the dimensional accuracy of the product. In addition, except that the micro-foaming process has a shorter production cycle than the traditional injection process, its products have the advantages of environmental protection and light weight of the process due to the use of gas as the foaming medium. Micro-foaming molding technology has superior physical properties, its cell density is high (106~109cells/cm3), its foam density can be controlled between 0.03~0.95, has high tensile and compressive strength, high stability under high heat 3. Low thermal conductivity, suitable for low temperature, low dielectric constant, and good signal transmission performance. The pollution-free cleanliness is high. Compared with the unfoamed finished product, it has high impact strength, high toughness, high fatigue resistance, and long product life. Improvement Due to the large amount of rapid manufacturing in the traditional latex manufacturing process, the heating is relatively uneven, and the pores of the latex itself are not much foamed by the mold, and the air permeability and the rebound rate used are also lower than those of the traditional mold foam.

This creation provides a magnetic far-infrared headgear, which is made of plastic micro-foam injection process (MuCell®) wrapped magnetic material. The shape of the headgear body and outer edge cover is selected from the group consisting of plum orchid, bamboo and chrysanthemum flowers or leaves. According to the needs of warmth or aesthetics, the headgear is worn or partially folded to produce a styling change; wherein the magnetic material is selected from at least one of strontium iron oxide (SrFe ₁₂ O ₁₉ ), barium iron oxide (BaFe ₁₂ O ₁₉ ), and cobalt iron oxide ( CoFe ₁₂ O ₁₉ ), neodymium iron boron (Nd-Fe-B) and other permanent magnetic materials; this creation can also add far infrared ceramic materials to the magnetic materials.

The magnetic far-infrared headgear provided by this creation uses permanent magnetic materials to generate magnetic Sexual, adjunct treatment to relieve soreness, plus the addition of far infrared ceramic materials to promote blood circulation, used to relieve head discomfort caused by working pressure and provide enhanced warmth effect. In order to make it better dispersed in the material, the particle size of the magnetic material and the far-infrared ceramic material should be controlled below 5um.

10: The structure of plum blossoms

20: The structure of orchids

30: The structure of chrysanthemum

40: Bamboo leaf structure

50: The main body is constructed without folding

60: The main body is unilaterally folded and worn

70: Structure of the body's bilateral folding wear

80: Structure of the body's fully foldable wearing style

Figure 1 is a description of the plastic micro-foaming molding process for the creation of magnetic far-infrared headgear.

Picture 2 is the structure of the plum blossom, orchid, chrysanthemum, bamboo leaves and other structures of the magnetic far infrared headgear in this creation.

Figure 3 is an example of how to wear a magnetic far-infrared headgear based on the base structure.

FIG. 4 is a front view of the non-folding wearing method of the creative magnetic far-infrared headgear using orchid as an example.

Fig. 5 is a bottom view of the non-folding wearing method of the creative magnetic far-infrared headgear using orchid as an example.

Fig. 6 is a side view of the non-folding wearing method of the creative magnetic far-infrared headgear with orchid as an example.

FIG. 7 is a top view of the creative magnetic far-infrared headgear with an orchid as an example of a non-foldable wearing method.

Please refer to Figure 1, Figure 2, Figure 3, Figure 4, Figure 5, Figure 6 and Figure 7, this embodiment provides a magnetic far-infrared headgear, according to the process of Figure 1, the original The required permanent magnetic materials, far-infrared ceramics, plastic materials, etc. are mixed and plasticized, and supercritical fluids are injected to allow the aforementioned two phases to coexist and fill into the mold of this creation. After the two phases are mixed and diffused, a single phase mixing and balance can be achieved. Single-phase state after demolding; in this embodiment, the plastic material is thermoplastic raw materials (TPR). The plastic microfoam injection process (MuCell®) is used to wrap 2.5% by weight of the magnetic material SrFe ₁₂ O ₁₉ ), 1.5% by weight of far-infrared ceramic powder, injection-molded to a circumference of 50 cm, a thickness of 0.3 cm and a concave outer hollow hollow hemispherical outer edge is the head cover body (50) of the orchid structure (20), according to demand The outer edge of the part that fits or wears or folds freely changes shape for aesthetic purposes, as shown in Figure 3, the main body has no foldable wearing structure (50), the main body has a single folding wearing structure (60), and the main body has a double folding wearing structure (70) The structure of the body's fully foldable wearing method (80), and the magnetic material and the far-infrared ceramic material provide functions of keeping warm, assisting treatment to relieve soreness, improving blood circulation and improving health.

20: The structure of orchids

50: The main body is constructed without folding

Claims (6)

A magnetic far-infrared headgear made of plastic micro-foam injection process (MuCell®) wrapped with magnetic material. The shape of the headgear body and outer edge cover is selected from the group consisting of plum orchid, bamboo and chrysanthemum flowers or leaves, which can be kept warm or For aesthetic needs, the headgear is worn or partially folded to produce a styling change; wherein the magnetic material is selected from at least one of strontium iron oxide (SrFe ₁₂ O ₁₉ ), barium iron oxide (BaFe ₁₂ O ₁₉ ), and cobalt iron oxide (CoFe ₁₂ O ₁₉ ), Nd-Fe-B and other permanent magnetic materials. According to the magnetic far-infrared headgear of claim 1, far-infrared ceramic materials can also be added to the magnetic material. According to the magnetic far-infrared headgear of claim 1, the headgear has a circumference of 50 to 60 cm, a thickness of 0.1 to 0.3 cm, and a hollow elastic hemisphere with a concave outer circle. According to the magnetic far-infrared headgear of claim 1, the plastic material of the headgear is selected from acrylonitrile-butadiene-styrene copolymer (Acrylonitrile Butadiene Styrene (ABS), polyethylene (PE), polypropylene (Polypropylene, PP ), Polystyrene (PS), Thermoplastic Elastomers (TPR), Polyurethanes (PU), Polyethylene Terephthalate (PET), Polyvinyl Chloride (Polyvinyl Chloride) , PVC), glass fiber reinforced thermosetting plastic sheet molding compound (SMC), poly(methyl methacrylate) (PMMA), polyamide (PA), or a mixture thereof Groups of people. According to the magnetic far-infrared headgear of claim 1, the content of magnetic material is 2~15%. According to the magnetic far-infrared headgear of claim 2, the far-infrared ceramic material content is 1~3%.

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