KR200277327Y1 - Far infrared radiation pipe - Google Patents

Abstract

The present invention relates to a far-infrared radiation pipe, since the pipe used in the boiler is usually used for high temperature heating to obtain a far-infrared radiation pipe mixed with minerals emitted according to the temperature,

In addition to maintaining excellent water resistance, chemical resistance, durability and corrosion resistance, in addition to the action of the ceramic powder that emits far-infrared rays can be emitted to the outside by the hot heat of the boiler tube to obtain a beneficial wavelength to the human body There is an excellent effect of suppressing the reproduction of the back.

Description

Far Infrared Radiation Pipe {.}

The present invention relates to a far-infrared radiation pipe, and more particularly, to a pipe used in a boiler is a far-infrared radiation pipe that is mixed with minerals radiated according to the temperature because the pipe is usually used for high temperature heating.

The conventional water pipe was cast a rigid pipe to change the role and material of the supply pipe or the transfer pipe to send only the contents.

Next, the conventional metal pipe has a disadvantage that the rust generated in the inner wall of the pipe gradually increases its thickness to reduce the water flow capacity by narrowing the pipe diameter, the weight per unit length is heavy, difficult to transport and difficult to connect the pipe body It is pointed out.

Synthetic resin water pipes have recently attracted attention as water pipe materials that can solve various problems of the metal pipe, and in reality, conventional metal water pipes are being replaced with synthetic water pipes.

The material mainly used as synthetic resin water pipe is FVC (polyvinyl chloride) pipe, which has strong characteristics such as water resistance, corrosion resistance, and chemical resistance, so that rust does not occur inside the pipe wall. Therefore, the pollution of the water quality due to rust is also prevented, even when installed in seawater or corrosive soil has the advantage that the life is not shortened or reduced by corrosion.

In addition, the synthetic resin water pipe has the advantage that the installation is easy because the weight is light and the pipe connection work is made easily.

As described above, although the problems caused by the use of metal pipes have been solved by replacing the material of the water pipes with synthetic resin pipes from conventional metal pipes, even when tap water reached homes through synthetic water pipes, it is directly used as drinking water. The reality is that you can't do it.

In addition, the reason for not drinking tap water as it is is because there is a problem in the water quality, which is the primary cause of the poor quality of the raw water itself due to pollution of the water supply source, and from the water purification plant to each household This is due to the fact that bacteria can grow during the distribution of tap water through the water pipe and that it is difficult to completely remove the harmful heavy metal even after the water treatment.

As such, there is a limit to complete water treatment with raw water that is getting more and more polluted. Therefore, it is possible to prevent secondary pollution from water pipes connected to each household from the water purification plant, as well as harmful heavy metals and bacteria contained in tap water. There is an urgent need for the emergence of a water pipe that exhibits a water quality improvement function that can be removed in the course of flowing the water pipe.

In order to solve this problem, the synthetic resin water pipes of utility model registration No. 209202 have a water quality improvement function that can improve the water quality of tap water flowing therein while maintaining the advantages of synthetic resin water pipes. There is a known technique for forming a synthetic resin water pipe.

However, since the conventional synthetic resin pipe is used to affect the water quality flowing through the pipe to save sterilization and water properties, it is difficult to see a different effect on the boiler continuously circulated.

Therefore, the object of the present invention to devise to solve the conventional problems is to provide a far-infrared radiation pipe that can be far-infrared radiated by using the temperature of the water passing through the pipe, the effect of sterilization and deodorization of charcoal.

Another object of the present invention is to provide a far-infrared radiation pipe, in which the pipes used in the boiler are usually used for heating at a high temperature, in which minerals emitted according to the temperature are mixed.

The far-infrared radiation pipe of the present invention is a pipe made of synthetic resin containing 1% fine powder char, 0.02% inorganic germanium, and 0.001% gold or silver powder in PVC resin, PVC, PP or Nairon synthetic resin control. Achieved.

1 is a partially cutaway perspective view showing a far-infrared radiation pipe of a preferred embodiment of the present invention,

Figure 2 is a cross-sectional view showing a far infrared radiation pipe of another embodiment of the present invention,

Figure 3 is a cross-sectional view showing a far infrared radiation pipe of another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: pipe or pipe 20: general synthetic resin pipe

Hereinafter, an embodiment of the present invention will be described with reference to the far-infrared radiation pipe with reference to the drawings.

First, the far-infrared radiation pipe of the present invention is a synthetic resin tube of fibrous (PVC), Phi Phi (PP), Nairon,

The synthetic resin is composed of a synthetic resin (10) containing 1% fine powder char, 0.02 inorganic germanium and 0.001% gold or silver powder.

First, a synthetic resin tube or pipe is a filler that is inexpensive compared to resin as a means to reduce the production cost by reducing the amount of raw material resin within the range satisfying the characteristics required in the tube as calcium carbonate (CaCO3) or magnesium carbonate ( CaMgO) is added about 8 parts by weight, in the present invention

Fine powder char, inorganic germanium and gold or silver powder are added in place of the conventional fillers.

At this time, when the content of fine powder charcoal, inorganic germanium and gold or silver powder is less than 5 parts by weight, the effect of far infrared rays and other minerals cannot be expected, and if it exceeds 10 parts by weight, impact resistance and flexibility may be reduced. Since it is necessary to maintain the content of the elvan powder 5 to 10 parts by weight.

1 and the fine powder char 1% and inorganic germanium 0.02% and gold or silver powder formed in the synthetic resin pipe as shown in Figure 1 or the inner tube is a general synthetic resin pipe as shown in Figure 2 the fine powder char 1% and 0.02% inorganic germanium A double tube was formed from a tube mixed with gold or silver powder.

In another embodiment, the subject innovation shown in FIG. 3 is characterized by forming a synthetic resin tube having a centrally cut structure 30 so that it can be inserted into a general pipe or tube.

For example, the far-infrared radiation pipe of the present invention will be described in detail, but the scope of the present invention is not limited thereto, and it will be apparent to those skilled in the art that any number of parts, etc. can be substituted or modified within the scope of the technical idea of the present invention. Also, of course, it belongs to the scope of the present invention.

As described above, the far-infrared radiation pipe of the present invention maintains excellent water resistance, chemical resistance, durability and corrosion resistance, while in addition to the action of the ceramic powder that emits far infrared rays to the outside by the hot heat of the boiler tube to the outside It is a very useful design in the health care industry because it can obtain a beneficial wavelength and has an excellent effect of inhibiting the growth of fungi or bacteria in the tube.

Claims (3)

In synthetic resin pipes of PVC, PP and Nairon, Far-infrared radiation pipe, characterized in that made of a synthetic resin (10) containing 1% fine powder char, 0.02 inorganic germanium and 0.001% gold or silver powder in the synthetic resin material. According to claim 1, wherein the inside is formed of a conventional general synthetic resin 20 layer, the outside is made of a synthetic resin tube 10 containing 1% fine powder char, 0.02 inorganic germanium and 0.001% gold or silver powder. Far-infrared radiation pipe, characterized by the formation of a heavy pipe. 2. The far-infrared radiation pipe according to claim 1, wherein the synthetic resin pipe (10) forms a cut out structure (30), the center of which is cut and fitted into another general pipe or pipe.