TW201603800A - Far infrared substrate for electronic device - Google Patents

Abstract

This invention provides a far infrared substrate for electronic device, which is mainly composed of an electronic device and a far infrared released material. The electronic device is operated by electricity, and an electromagnetic wave is generated during the operation of electronic device. The electromagnetic wave, according to Faraday electromagnetic induction law, generates an induced electromotive force in the circuit of the electronic device, thereby emitting an electromagnetic wave from the electronic device, which is absorbed by human body. The far infrared released material contains 70~95% of alumina, and the emission coefficient of far infrared ray released by the far infrared released material in the wavelength of 4~14 micron is above 0.9, wherein the far infrared with wavelength of 4~14 micron transmitted to human body through electromagnetic wave and the far infrared of wavelength 9.36 micron emitted by human body create an absorption resonance, making human body absorb more amplified energy released by the far infrared released material. The resulting feature is that the far infrared can penetrate deep into the internal tissue of human body to promote resonance in the water molecules of intracellular, thereby activating metabolism.

Description

Far-infrared substrate for electronic devices

The present invention relates to a far-infrared substrate for an electronic device, and more particularly to a far infrared ray generated by a far-infrared substrate for an electronic device, which can increase the bioelectricity of the human body, and is characterized in that it can penetrate into the tissue inside the human body. Promotes resonance of water molecules in cells of the human body and accelerates blood circulation.

Plants have plant electricity, animals have animal electricity, human bodies have bioelectricity, and all changes in things have electricity. Bionic studies have found that the smallest bacteria consume glucose and produce electricity. This is the so-called "bio-electricity" principle. The metabolism and all activities in the human life process generate electricity. The "electrocardiogram" is the electric wave generated by the heartbeat, "electroencephalogram". It is the brain wave generated by brain activity.

Dr. Mark Burke of the University of Toronto in Canada has shown that in the brains of mammals, there are structures in which nerve cells transmit electrical signals, and they are not single-passed but transmitted to each other. How does normal somatic cells produce electricity? The cells are bathed in the cell fluid, and there are many charged ions (potassium, sodium, chloride, etc.) inside and outside the cell membrane. The potassium ions are mainly in the cells, and the sodium ions are mainly outside the cells. When the cells are quiet, these ions are relatively stable. When stimulated, the permeability of the cell membrane changes, and various ions become active, inside and outside the cell membrane. The flow of electricity, the exchange of potassium and sodium ions, has produced bioelectricity.

Human bioelectricity has been widely used in modern medicine. The familiar footprints such as electrocardiogram, electroencephalogram, electromyogram, electrogastrogram, etc. are the scientific basis for doctors to diagnose diseases.

The acupoint is the contact of the bioelectric current, and the meridian is the channel through which the current is transmitted (biological wave). When the magnetic field acts on the acupuncture point, the voltage and potential change, and the biological current is generated to generate electromagnetic waves, which are then transmitted to the meridians of the whole body, and transmitted to the central nervous system to form a stimulus, and the lesion is adjusted.

According to the theory of biomagnetism, the lesion is caused by the imbalance of the magnetic field in the human body. As a result of the metabolic activity of the human body, biological currents and bioelectromagnetic fields with different frequencies and waveforms are generated. The external magnetic field acts on the meridian points to compensate the magnetic field imbalance in the body. Adjustment, to restore the balance of abnormal high-level neurological activities, coordination of the process of excitement and inhibition, can prevent disease and cure.

However, the penetration rate of today's cellular cellular communication systems continues to grow and has become an integral part of personal and business communications. Mobile phones allow users to make voice calls at most locations where they pass. In addition, with the enhancement of mobile phone technology, the function of mobile phones has also increased. For example, many smart mobile phones now have features such as instant messaging, navigation, music playback, and wireless Internet access. In addition, the smart mobile phone can also allow users to wirelessly transmit and receive e-mail messages and access the Internet via a cellular network and/or a wireless local area network (WLAN).

The antenna configuration of the mobile phone can also significantly affect the overall size or footprint of the phone. Mobile phones typically have an antenna structure that supports communication in multiple operating frequency bands. Various types of antennas can be used for mobile phones, such as, for example, a spiral, an "inverted F", a folded dipole, and a telescopic antenna structure. Spiral and telescopic antennas are typically deployed on the outside of the mobile phone (ie, on the outer surface), and "inverted F" and folded dipole antennas are typically deployed in the phone case or housing (ie, on the inside) And adjacent to its top.

However, a potential disadvantage of the antennas of smart mobile phones is that the internal antennas are relatively close to the user's head when using the telephone. As the antenna gets closer to the user's body, the amount of radio frequency (RF) energy radiation absorbed by the body will typically increase. The radio frequency energy absorbed by the body when using the telephone is called the electromagnetic absorption rate (SAR), and the allowable mobile phone electromagnetic energy absorption rate (SAR) is limited by applicable government regulations to ensure Safe user RF energy exposure.

An attempt to reduce radiation exposure of a mobile telephone antenna is set forth in U.S. Patent No. 6,741,215. This patent discloses various mobile phones including internal and external antennas that are placed at the bottom of the phone to reduce the intensity of the radiation experienced by the user, i.e., by moving the antenna away from the user's brain. Additionally, in some embodiments, the outer casing of the phone forms an obtuse angle such that the bottom end portion of the corner of the outer casing is remote from the user's face.

Although these antenna configurations allow for reduced radiation exposure, Further advances in line configuration (especially internal antennas) now allow for further reductions in overall device size while still providing relatively low electromagnetic wave energy absorption (SAR) values.

In view of the fact that the electromagnetic wave energy absorption rate derived from the above mobile phone affects the human bioelectricity and affects human health, the inventor of the present invention succeeded in researching and developing the far infrared ray substrate for the electronic device.

The object of the present invention is to provide a far-infrared substrate for an electronic device, wherein the far-infrared substrate generates a micro-current stimulus using the same low-frequency micro-current as the waveform of the nerve-induced voltage, and can stimulate nerve fibers of a warm-blooded animal such as a human. The contact acupuncture points to oscillate, strengthen blood circulation and eliminate fatigue.

A second object of the present invention is to provide a far-infrared substrate for an electronic device, wherein the far-infrared rays emitted from the far-infrared emitting material have an emissivity of 0.9 or more at a wavelength of 4 to 14 μm.

A far-infrared substrate for an electronic device capable of achieving the above object, comprising: an electronic device operating by electric power, an operating frequency and a signal frequency of the electronic device generating an electromagnetic wave during operation, the electromagnetic wave being electromagnetically converted according to Faraday Inductive law, an induced electromotive force is generated in the circuit of the electronic device, so that the electromagnetic wave is emitted by the electronic device, and the electromagnetic wave is Absorbed by the human body; a far-infrared emitting substance containing 70-95% of alumina and the far-infrared rays released by the far-infrared emitting substance have an emissivity of 0.9 or more at a wavelength of 4 to 14 μm, and can continuously generate a weak electrostatic current of 0.06 mA. It matches the human bioelectricity of 0.06 mA. The far infrared ray with a wavelength of 4 to 14 micrometers is transmitted to the human body by electromagnetic waves, and absorbs and resonates with the far infrared ray of 9.36 micron wavelength emitted by the human body, so that the human body absorbs the energy of the far infrared ray releasing substance.

Referring to FIG. 1 , a far infrared ray substrate for an electronic device provided by the present invention mainly comprises: an electronic device and a far infrared ray releasing material.

The electronic device operates by electric power, and an operating frequency and a signal frequency of the electronic device generate an electromagnetic wave during operation, and the electromagnetic wave generates an induced electromotive force in the circuit of the electronic device according to Faraday's law of electromagnetic induction, thereby generating an electronic device An electromagnetic wave is emitted, which is absorbed by the human body; the electronic device is a mobile device or a smart phone (or mobile phone). The electronic device includes: a casing, a circuit board (such as a printed circuit board (PCB) substrate) loaded by the casing, and the circuit is loaded by the circuit board, such as a microprocessor, a memory, or Multiple wireless transceivers (eg, cellular, WLAN, GPS, Bluetooth antennas, etc., audio and power circuits, etc., are well known to those skilled in the art. The housing is preferably also loaded with a battery (not shown) for powering the circuit. Additionally, the housing includes an audio output sensor (e.g., a speaker) and is coupled to the circuit. One or more user input interface devices (eg, buttons or touch screen interfaces).

The far-infrared emitting material is disposed on the electronic device, and comprises 70-95% of alumina, and the far-infrared rays released by the far-infrared emitting material have an emissivity of 0.9 or more at a wavelength of 4 to 14 micrometers, and can continuously generate 0.06 mA. The weak electrostatic current matches the human bioelectricity of 0.06 mA. The far infrared ray with a wavelength of 4 to 14 microns is transmitted by the electromagnetic wave to the human body, and absorbs and resonates with the far infrared ray of the 9.36 micron wavelength emitted by the human body, so that the human body absorbs the far infrared ray releasing substance. energy of.

Far-infrared rays with a wavelength between 3 and 14 microns are useful for the growth of plants and animals. Far-infrared rays not only do not stimulate the human body, but can increase the bioelectric energy of the human body. Its characteristics are that it can penetrate into the internal tissues of the human body, promote the resonance of water molecules in the cells of the human body, impart vitality to the cells, accelerate blood circulation, activate metabolism, and enhance The ability of tissue regeneration, activation of the immune system, etc., has been medically proven to have therapeutic effects on a variety of human diseases.

According to the above concept, the component of the far-infrared emitting substance comprises at least one of alumina, titania, cerium oxide, magnesium oxide, zirconium oxide, titanium boride, zinc hydroxide, zinc oxide, and carbide.

The raw material of the far-infrared emitting material in this embodiment is a high-efficiency far-infrared ceramic powder, and the biological effect thereof has been confirmed by a number of experiments to have a considerable degree of effect. Its composition consists of several natural mineral components, which may contain 70-95% alumina, 1-20% cerium oxide and 1-10% zirconia. Other ingredients may still contain titanium dioxide, titanium boride or more natural mineral components such as cerium oxide, zinc hydroxide, zinc oxide and carbides. The black body is used as a reference and measured by a far-infrared spectrometer. The far-infrared emitting material has an average release rate of 0.98 or more in the range of 6 to 14 micrometers in the wavelength range of the living light. And the sterilization rate is tested according to the American AATCC100 standard method, and the released far infrared rays have an antibacterial effect of 99.9% or more for both Staphylococcus aureus and Escherichia coli.

Far-infrared rays are about 4 to 1,000 microns in wavelength, and the far-infrared wavelength emitted by the human body usually ranges between 4 and 20 microns. According to optical principles, light waves of the same wavelength can be superimposed. The far-infrared rays with the same wavelength as the human body have a good health care effect on the human body. The far-infrared rays with a wavelength of 4 to 20 micrometers have the same wavelength as the far-infrared rays emitted by the human body, and are easily absorbed by the human body and can be converted into bioelectricity in the human body. Exciting the water particles to generate heat and generate "absorption resonance". When the far-infrared rays with a wavelength of 4 to 20 microns and the human body produce "absorption resonance", they can penetrate deeply into the skin 3 to 5 cm, allowing the water molecules in the cells to resonate to generate internal energy and be absorbed. This will help accelerate blood circulation, activate cell tissue, and promote metabolism to achieve health benefits.

Since far infrared ray is a kind of radiant heat energy, the energy is distributed The receiver must have the same wavelength to produce a radiated resonance effect. The far-infrared emitting material of the invention has high emissivity, can emit far-infrared rays with a wavelength of 4-14 micrometers and an emissivity of 0.92 or more at normal temperature, and has a peak radiation wavelength of 9.1 micrometers at a surface temperature of 45 degrees Celsius, and the wavelength is The human body is very close to the heat, and the far infrared ray is released to activate the emission of far infrared rays.

The invention has the advantages of improving the bioelectric current of the human body by using the electromagnetic product. The invention adopts the microscope and the image processing method, and the computer is used when the computer is generally used and the far infrared ray substrate is added, and the other is located in the general use smart type. Use a smart phone (or mobile phone) after adding a far-infrared substrate to the mobile phone (or mobile phone), observe and measure the change of the peripheral circulating blood flow rate (the micro-wall microvessel) of the experimental subject to verify the effectiveness of the far-infrared substrate. .

An experimental subject measured the blood flow rate as a reference value without touching the computer, and then asked the experimental subject to start operating the computer, measuring the blood flow rate every 30 minutes, and measuring twice. Then, the far-infrared substrate is attached to the power supply behind the computer screen, and the flow rate value is measured once in 30 minutes, and the obtained five sets of data are compared.

Nineteen experimental subjects had to use a smart phone (or mobile phone) for 5 minutes before using the far-infrared substrate, and then the experimental subjects were right-handed with a smart phone (or mobile phone) and the first hand was used for the first microcirculation. Measure and measure the blood flow rate of the microvascular in the middle finger of the hand; attach the far infrared ray substrate to the same smart phone (or mobile phone), and please continue to use the smart phone (or mobile phone) for 5 minutes in the same way. The blood flow rate after using the far-infrared substrate was measured. This hair Using a reflective microscope, a baby's oil of appropriate refractive index is applied to the observation site and a suitable light source is used to observe the microcirculation microscopic image of the site to be measured through the skin tissue, and then the image is post-processed and optically flowed. Calculate the blood flow rate. The 19 experimental subjects who received the smart phone (or mobile phone) experiment had higher blood flow rates than the far-infrared substrate before using the far-infrared substrate. The blood flow rate increased by 6%-44. %(Table I).

The experimental subjects who received the computer test used the blood flow measurement of the computer before and after the natural infrared light was not touched with the computer product, and the measurement unit was Pixel/Frame (Table 2). After 30 minutes of using the computer, the blood flow rate of the experimental subjects was reduced by 40.4% compared with the natural state, and the second measurement was decreased by 6.8%; the first measurement was used after the far-infrared substrate was used and not used. Compared with the previous increase of 0.4%, the increase of the second measurement can reach 19.4% (Table 3).

The nineteen experimental subjects of the far-infrared substrate of the present invention tested on a smart phone (or mobile phone) have a positive blood flow rate value, indicating that the far-infrared substrate is in a smart phone (or mobile phone). The application can effectively improve the effect of peripheral blood flow rate, but the effect varies from person to person. Since the natural blood flow rate of each experimental subject is not the same, the blood flow rate of some groups is faster and partly slower, thus causing The difference in flow rate value is 38%, which should be normal. In addition, when the far-infrared substrate is used in a computer, the blood flow measurement value is different from the natural state, but the far-infrared substrate is not used. Compared with the cleaning condition, there is still improvement, and the measurement has a significant effect after 60 minutes of using the far-infrared substrate, and the flow rate value is increased by 19.4%.

From the perspective of microcirculation, blood carries nutrients to supply tissue cells. In the case of poor blood supply to the microcirculation, there will be symptoms such as fatigue, lack of spirit, body aches and pains, and more serious diseases will occur in the long run. The results of the present invention demonstrate that the far infrared ray substrate can improve the microcirculation flow rate for a smart phone (or cell phone) or a user of a computer screen.

In summary, this case is not only innovative in terms of space type, but also can enhance the above-mentioned multiple functions compared with the customary items. It should fully meet the statutory invention patent requirements of novelty and progressiveness, and apply for it according to law. This invention patent application, in order to invent invention, to the sense of virtue.

Claims (1)

A far-infrared substrate for an electronic device includes: an electronic device that operates by electric power, and an operating frequency and a signal frequency of the electronic device generate an electromagnetic wave during operation, the electromagnetic wave being in accordance with Faraday's law of electromagnetic induction An induced electromotive force is generated in the circuit of the device, so that the electromagnetic wave is emitted by the electronic device, and the electromagnetic wave is absorbed by the human body; a far infrared ray releasing material containing 70-95% of the aluminum oxide and the far infrared ray released by the far infrared ray releasing substance The radiation coefficient of wavelength 4~14 microns is above 0.9, and can continuously generate 0.06mA weak electrostatic current to match human bioelectricity 0.06mA. The far infrared rays with wavelength of 4~14 microns are transmitted by electromagnetic waves to human body and radiate with human body. The far-infrared phase with a wavelength of 9.36 microns produces an absorption resonance that allows the body to absorb the energy of the far-infrared emitting material.