KR20090047824A - A heat cable - Google Patents

Abstract

The silver coating heating wire according to the present invention has a heating wire used as a heating wire such as nichrome wire, and a silver coating layer coated with a thickness of 0.1 to 1.0 mm applied in a molten state on the heating wire, and a heating wire when the silver coating heating wire is operated. The silver coating layer applied on it is heated and spreads around as the silver nanoparticles evaporate, so that the silver nanoparticles can be contacted to users who use heating and heating equipment, which shows the sterilizing effect of silver nanoparticles and the oxygen metabolism of cells. In addition to activating the cells to activate the body at the same time greatly improve the body's immunity to increase the resistance to disease can improve the health of the user.

Description

Silver heating wire {A heat cable}

The present invention relates to a silver coated heating wire, and more specifically, the silver coating layer of 0.1 to 1.0 mm is coated on the outer surface of the heating wire, so that the fine silver nanoparticles are evaporated in a vapor form in the silver coating layer when the heating wire is heated. Since silver nanoparticles are in close proximity to the user of a heating device or a heating device using a silver coated heating wire, the effect of silver nanoparticles is directly propagated to the user. It combines with the anions of the biofilm surrounding the back) and destroys the cell membrane and releases energy when the silver nanoparticles' ions are immediately activated by light and these activated silver ions are stabilized again. Free radicals are formed around silver to promote the aging of pathogen cells and oxidize proteins. This sterilization effect shows sterilization effect, promotes oxygen metabolism of cells and activates the cells, and at the same time, greatly improves the body's immunity and improves the resistance to diseases, thereby improving the user's health. It is about.

In general, various products using silver, namely, silver nano washing machines, silver nano refrigerators, silver and aging cosmetics, and various products are being released. Furthermore, the silver nano container is released, and the freshness of the meat contained in the silver nano container is effective enough to remain intact even after a few days. Therefore, products applied to various parts of daily life are being released.

There will be no new technology areas that are as close to life and economically as effective as nanotechnology. Nanotechnology is already changing our lives slowly. The first is "silver nanotechnology," which is bringing about a revolution in consumer electronics.

The 'silver nanotechnology' is a technology for forming silver into 'silver nanoparticles' of fine size, and 'silver nano' of silver nanoparticles is a compound word of silver and nano, and nano represents one billionth of a unit. It is derived from the Greek dwarf (nanos), which means 'one nano billion', and one nanometer corresponds to one thousandth the hair's thickness. The biggest strength that can be obtained from 'silver nano' is strong sterilization and antibacterial effect. Silver (Ag) is known to kill more than 650 bacteria. It is widely known and scientifically proven that silver kills more than 650 microbes that cause disease and is safe for humans. Regardless of the East and the West, silver has long been recognized as having a good effect. Our ancestors used silver spoons to disinfect food, and in the American Wild West, we put silver coins in the milk bottles to keep the milk fresh. NASA uses silver for water purifier systems in spacecraft. Modern science explains the efficacy of silver, which is regarded as such a noble substance for two reasons. One is that a positively charged metal cation combines with the negative ions of pathogen cell membrane phospholipids (the main components of biological membranes that surround cell membranes, mitochondria, nerve fibers, etc.) to destroy cell membranes. Because of the nature of. When the activated silver ions stabilize again, they release energy, which causes free radicals around silver to promote aging of pathogenic cells and to oxidize proteins to sterilize the surroundings. Both are valid in their own right, but the full mechanism is not yet known.

In addition, the silver nano hot air is hot in home appliances. It is no exaggeration to say that almost all high-end consumer electronics models use silver nano. The silver nano technology applied to Samsung's drum washing machine was recently introduced to the US news weekly time. Silver Nano Drum Washing Machine is a device that removes bacteria in clothes or water by generating silver ions by applying voltage to the silver plate, and using silver nano in the well-being wind. 'Household appliances are pouring.'

Of course, there is no disagreement about the strong antiseptic and antimicrobial effects of silver. The effect is as clear as '99 .9% '. It is known that the bacteria do not die or proliferate in silver nano appliances because of oxygen, not silver. Silver only helps oxygen decompose bacteria (as a catalyst), and when oxygen molecules (O) touch the silver surface, they are adsorbed as oxygen atoms, which oxidize bacteria and viruses to eliminate bacteria. In other words, 'sterilization' only appears when silver and bacteria are in direct contact. Scientists can now apply nano-size silver particles to polypropylene to make antimicrobial materials. The material could be used everywhere, from carpets to napkins and surgical masks. The combination of silver and polypropylene succeeded in making safe antimicrobial fiber with wide applicability, and it was evaluated to realize economic applicability by optimizing antimicrobial effect by maximizing nano size silver particle surface.

However, content that was reported in a magazine just over a year ago is now available every day in TV commercials, and the term 'silver nanotechnology' is no longer a strange word. From washing machines to car seats, toothbrushes, soaps and shampoos and underwear, silver nanotechnology is closely related to our lives.

It is because of its excellent antibacterial and antiseptic effect. It is known that no bacteria can survive for more than six minutes in contact with silver. Because of the silver effect, it is possible to prevent germs and molds to be removed so that there is no smell and refrigerator and sterilizing clothes and washing machines.

But these benefits can't be achieved by the silver clumps themselves. This is because expensive chunks of silver cannot increase the surface of the silver that will react. That's why nanotechnology is needed. Nano is a term that comes from Greek mythology and is derived from nanos, meaning "one billionth," and one nanometer corresponds to one thousandth of the thickness of hair.

Nanoscale materials have new properties that are different from the existing ones we knew. In the nano state, silver is no longer silver, but rather black. But we're excited about nanotechnology because, above all, we can make a material very small. Small means that it can be applied anywhere.

To broaden the surface of silver, silver must be made into fine particles in nanometers. The principle is simple. Taking a washing machine as an example, install a silver plate where tap water is supplied and connect the electrode to it. If power is supplied to the silver plate while water is being supplied, the silver plate is electrolyzed and silver ions (Ag +) are released and mixed with water. At this time, the silver ions are united several times to form a colloidal state to maximize the reaction surface.

In fact, the antibacterial and disinfecting effects of silver have long been known in the East and the West. The reason why the king and the upper class used silver cutlery is that the color of the toxins that are harmful to the human body, such as pufferfish eggs and poisonous mushrooms, can change color and determine the presence of toxins.

New areas of silver nanotechnology are also based on a long knowledge tradition. It is silver's conductivity. Silver's electrical conductivity is the largest of all metals except platinum. This is equivalent to saying that the electrical resistance is the smallest. If the electrical resistance is small, a battery of the same size may be used for a long time.

I want to use this principle in my mobile phone. Using nanotechnology, silver is coated on the synthetic resin to make electricity flow. At this time, the excellent ductility and malleability of silver, that is, the property of elongation and thinness are used. One gram of silver can make a 1800 meter strip. The clamshell phone folds and turns dozens of times a day. However, if the wire to the cover folder is copper, it will be broken in a few days. Silver nanotechnology is being used to open and close cell phone folders without worry.

The concern about using a mobile phone is the generation of electromagnetic waves. Electromagnetic waves generated from mobile phones are also expected to be blocked by silver nanotechnology. Fine silver particles may be sprayed on the cell phone case to block electromagnetic waves from the phone, or the tape may be made of silver to stick to the LCD surface to block electromagnetic waves from the screen.

However, the silver nanoparticles, which are beneficial to the human body, are generated by colloidation only by the electrolysis method, and there was a problem that other than that is not well known.

An object of the present invention is to solve such a problem, by forming a silver coating layer on the heating line used as a heating heating device material, the silver coating layer on the heating wire is heated on the surface of the silver coating layer when the heating heating device is operated. Particles are energized and activated to evaporate into nano-sized silver nanoparticles, spreading around them, making it possible to contact the silver nanoparticles with users of heating and heating equipment. It promotes metabolism and activates cells, and at the same time, it greatly improves the body's immunity, thereby increasing resistance to disease, and provides a silver heating fever that can improve the health of the user.

This object of the present invention is applied to the surface of the heating wire with a heating wire using a nichrome wire or other heating wire that generates heat when the current is generally used, and the heating wire passes through the melting furnace. It is achieved by a silver coating heating wire formed with a silver coating layer according to the present invention consisting of a silver coating layer.

The silver coating heating wire according to the present invention has a heating wire used as a heating wire such as nichrome wire, and a silver coating layer coated with a thickness of 0.1 to 1.0 mm applied in a molten state on the heating wire, and a heating wire when the silver coating heating wire is operated. The silver coating layer applied on it is heated and spreads around as the silver nanoparticles evaporate, so that the silver nanoparticles can be contacted to users who use heating and heating equipment. It promotes metabolism and activates the cells, and at the same time, greatly improves the body's immunity, thereby increasing resistance to disease, thereby improving the health of the user.

The silver coating heating wire 1 according to one embodiment of the present invention was used as an electric cushion or an electric blanket.

The silver coating heating wire 1 may be said to be the most important feature of the present invention, and the silver coating heating wire 1 is composed of a heating line 11 and a silver coating layer 12.

The heating wire 11 may be a nichrome wire or other heating wire that generates heat when electricity is generally used, and a detailed description thereof will be omitted.

The silver coating layer 12 is different from the conventional silver coating layer which is coated on the surface by electrolysis. The silver coating layer 12 is buried on the outer surface of the heating line 11 as the heating wire passes through the molten silver in the liquid state. From the thickness of mm to the thickness of 1mm will have a thickness that is applied differently depending on the thickness of the heating line (11).

As described above, since the silver coating layer 12 is formed by solidifying liquid silver having a relatively thick thickness, when the heating line 11 is heated, fine silver particles of a fine state are activated on the outer surface to be released to the outside. Silver nanoparticles are 1 micrometer divided by 1 billion, that is, ultra fine particles which re-cut hair thickness into 10,000 pieces, and have deodorizing ability to increase sterilization, sterilization and immunity and remove odor, which is the excellent effect of silver. Increasing the immunity of the user will have the effect of improving immunity to the disease.

In the present embodiment, the heating wire 11 of the silver coating heating wire 1 was used a nichrome wire having a thickness of 1 mm, and the silver coating layer 12 coated on the heating wire 11 was coated with a thickness of 0.1 mm. It became. The heating line 11 is designed so that the temperature rises up to 90 ° C. The heating line 11 is designed to control the temperature in the range of 20 ℃ ~ 90 ℃ by the temperature controller (13). As such, when the heating line 11 rises to a temperature of 90 ° C., the silver coating layer 12 coated thereon is heated, so that fine silver nanoparticles on the surface of the silver coating layer 12 are activated and released to the outside.

The reason why the silver nanoparticles of the silver coating layer 12 of the silver coating heating wire 1 is activated is not that the silver coating layer 12 is applied to the outer surface by electrolysis, but the heating wire 11 in the silver molten silver melting furnace. This is possible because the immersed and molten silver is buried and coated on the outer surface of the heating wire 11.

As such, when the heating device (not shown) provided with the silver coating heating wire 1 according to the present invention is used, the silver coating layer 12 of the silver coating heating wire 1 is formed by the heating of the heating wire 11. Since the particles on the surface of (12) are evaporated, the use of the heating device is in contact with the evaporated silver nanoparticles, so that the user can enhance the user's immunity and health by the evaporated silver nanoparticles.

The silver-coated heating wire according to the present invention will be referred to as an industrially applicable invention because it is possible to repeatedly manufacture all of its components.

1 is a perspective view of an electric cushion installed with a silver heating heating wire according to the present invention

Figure 2 is a perspective view of the silver coating heating wire according to an embodiment of the present invention

3 is a longitudinal cross-sectional view taken along the line I-I of FIG.

* Description of the symbols for the main parts of the drawings *

1. Silver coating heating wire 11. Heating line 12. Silver coating layer

13. Thermostat

Claims (2)

In the silver coating heating wire (1), The silver coating heating wire 1 is composed of a heating line 11 and the silver coating layer 12, The heating wire 11 is a heating wire of nichrome wire that generates heat when energized, The silver coating layer 12 is buried on the outer surface of the heating wire 11 as the heating wire passes through the molten silver in the liquid state in the molten silver melting furnace, the coating thickness is applied from 0.1mm thickness to 1mm thickness, The silver-coated heating wire, which is heated during the operation of the heating wire 11 to emit silver nanoparticles from the surface of the silver-coated layer 12. The method of claim 1, The silver coating heating wire (1) is a silver heating heating wire, characterized in that used in the electric cushion or electric blanket

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