KR102033684B1 - A plating metal plate and manufacturing method for metal piping - Google Patents

Abstract

The present invention relates to a metal for a steel pipe capable of water quality improvement, which is provided to form a pipe that can improve water quality by preventing a sticking phenomenon and using a micro-current. To this end, the present invention comprises: an appearance maintenance layer of an aluminum material to which an adhesive is applied; an oxidation prevention layer accumulated on the adhesive; a pyroclastic mineral layer deposited on the oxidation prevention layer, and formed by the mixture of minerals such as scoria and pumice, which are provided for their antibacterial effects to improve water quality, and at which countless micro-voids are formed; and a silicate mineral layer deposited on the oxidation prevention layer to be connected to the pyroclastic mineral layer, and formed by the mixture of tourmaline, cordierite, clinoptilolite, and shungite, which are provided to prevent a sticking phenomenon for water quality improvement. Here, the pyroclastic mineral layer and the silicate mineral layer are repetitively deposited on the oxidation prevention layer to individually have a uniform width along a longitudinal direction of the appearance maintenance layer. In addition, the pyroclastic mineral layer is deposited to have a width wider than that of the silicate mineral layer in a longitudinal direction of the appearance maintenance layer.

Description

Metal material for steel pipes with improved water quality and steel pipe manufacturing method using the metals {A plating metal plate and manufacturing method for metal piping}

The present invention relates to a metal material for steel piping capable of improving the water quality for forming a pipe or the like that can improve the water quality using a sticking phenomenon or a fine current.

Generally, polyvinyl chloride resin, which is a material used for piping, is widely used in various fields because of its excellent physical and chemical properties compared to the low price, but it is vulnerable to heat resistance, tensile strength and impact resistance, and is discolored with heat deformation or time. To compensate for this, additives such as heat stabilizers, processing aids, UV inhibitors, impact modifiers and fillers are used.

As an example, Korean Patent Registration No. 601004 discloses a method for manufacturing a fibish tube using a mixed powder consisting of a stabilizer and a polyvinyl chloride resin. In the above technique, the impact resistance is improved due to the action of the impact modifier. However, as the strength of the synthetic resin tube increases, cracks occur, causing the tube to tear and brittle fracture.

Meanwhile, Korean Patent Publication No. 2010-0012480 relates to polyvinyl chloride pipes and pipe fittings which are mainly used as water pipes or sewer pipes. A polyvinyl chloride resin composition containing 8 to 25 parts by weight, 2 to 3 parts by weight of a composite stabilizer and 6 to 8 parts by weight of an impact modifier is proposed. However, in the present technology, as the heterogeneous material is added, the adhesion between the polyvinyl chloride resin and the loess is reduced due to the addition of the loess, and thus the strength is reduced. The loess is hydrophobic due to its porosity, and thus the loess is hydrophobic. Because of its high miscibility with synthetic resins such as polyvinyl chloride, it is difficult to uniformly disperse. Dispersion of the yellow soil is problematic, such as in antimicrobial non-uniform, deterioration of mechanical properties.

On the other hand, metal pipes such as cast iron pipes or zinc pipes, which are conventionally used as water pipes, easily cause corrosion of the inner wall of the pipe due to dissolved oxygen when they are used for a long period of time. .

Due to these problems, water pipes using high-density polyethylene have excellent properties in terms of durability and chemical resistance.However, when water is flowed at a low speed or stays for a long time, harmful microorganisms such as Escherichia coli propagate. Sticking to the surface of the water pipe causes long-term corrosion and further hinders the flow of water, leading to blockage.

Korea Patent Registration No. 601004 Republic of Korea Patent Publication 2010-0012480

The present invention has been proposed to solve the above problems, to improve the water quality of the water moving the pipe, that is, to block the growth of microorganisms, etc. to prevent the sticking phenomenon due to the foreign matter contained in the water There is a purpose.

In order to solve the above technical problem, the metal material for improving water quality according to the present invention may be deposited on the outer surface maintenance layer made of aluminum, an antioxidant layer laminated on the adhesive, and the antioxidant layer. In order to improve the antimicrobial effect, a volcanic chain mineral layer composed of a mixture of minerals formed with countless micropores of SCORIA and PUMICE and the volcanic chain mineral layer are deposited on the antioxidant layer so as to be connected with each other. Including a silicate mineral layer consisting of a mixture of tourmaline, cordierite, clinoptilolite, and chlorite (SHUNGITE) to prevent sticking for improvement, the volcanic chain mineral layer And the silicate mineral layer each having a predetermined width along the longitudinal direction of the outer shape maintaining layer, the oxidation prevention repeatedly The volcanic chain mineral layer is deposited on the layer, and the volcanic chain mineral layer is deposited to have a wider width in the longitudinal direction of the outer shape maintaining layer than the silicate mineral layer.

In addition, the volcanic chain mineral layer is obtained by mixing the finely ground powder Korea and pumice in a weight ratio of 10: 3 but firing the mixture at 700 to 750 ° C. for 2 to 3 hours. The layer is mixed with finely pulverized powdered tourmaline, cordierite, clinoptilolite and? Gite in a 10: 1: 3: 2 weight ratio, and the mixture is calcined at 1000-1300 ° C. for 5-6 hours. It is preferable to obtain by).

According to the present invention, the volcanic chain mineral layer and microcurrents having an antimicrobial effect for water quality improvement are permanently generated on the surface of the plate-shaped outer shape retaining layer provided to form a pipe differently from the conventional ones. In addition, by depositing a silicate mineral layer to prevent the sticking shape due to foreign matter has the effect of maximizing the advantages of water quality improvement.

1 is a cross-sectional view showing a metal material for steel pipes capable of improving the water quality according to the present invention.
Figure 2 is a flow chart showing a steel pipe manufacturing method using a metal material for steel pipe capable of improving the water quality according to the present invention.

Hereinafter, other objects and features of the present invention in addition to the above object will be apparent through the description of the embodiments with reference to the accompanying drawings, and unless otherwise defined, all terms used herein, including technical or scientific terms, are used herein. The invention has the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the metal material for steel pipes (hereinafter, simply referred to as "metal material") that can improve the water quality according to the present invention.

First, as shown in FIG. 1, the metal material 1 according to the present invention largely includes an outer shape maintaining layer 100, an antioxidant layer 200, a volcanic chain mineral layer 300, and a silicate mineral layer 400. do.

In more detail, the outer shape maintaining layer 100 is formed of the metal material 1 of the present invention, the drinking water or waste water having a tubular shape (hereinafter, simply referred to as 'water') water / sewage pipe and the like can be moved This will maintain the shape of the pipe (PIPE) during use.

The outer shape maintaining layer 100 may be formed of an iron plate or aluminum, but preferably, an aluminum material is used to improve corrosion resistance and ease of installation, and an antioxidant layer on an outer surface (the inner surface thereof when forming into a tubular shape). Adhesive 110 for adhesion of 200 is applied.

The outer shape holding layer 100 has a structure that can be connected to each other by fastening means, such as bolts or screws, further formed with a flange (not shown) protruding outwardly at both ends thereof when forming a tubular shape having a predetermined length. In this case, the flange is not in direct contact with water, so that the adhesive 110, as well as the antioxidant layer 200, the volcanic chain mineral layer 300, and the silicate mineral layer 400, which will be described later, are not provided.

In addition, the anti-oxidation layer 200 is partially lost due to the volcanic chain mineral layer 300 and the silicate mineral layer 400, which will be described later, being exposed to water for a long time, such as breakage of the external shape maintenance layer 100 described above. It is a structure for preventing durability from falling.

The anti-oxidation layer 200 may be bonded to the adhesive 110 to have a predetermined thickness by pressing a thermosetting resin such as epoxy melamine or the like to the plate-shaped outer surface holding layer 100 to which the adhesive 110 is applied. If necessary, the adhesive 110 may be sprayed to form a predetermined thickness by spraying using a spray or the like on a surface of the outer surface holding layer 100 that is not provided, so that the outer surface holding layer 100 may be provided on the outer surface. do.

At this time, the anti-oxidation layer 200 is preferably adhered to the outer shape maintaining layer 100 in a clean room (not shown) so that foreign matters due to the external environment is stuck to the adhesion force is not lowered.

In addition, the volcanic chain mineral layer 300 is deposited on the antioxidant layer 200 to have a predetermined thickness so that the boundary S is formed on the outer surface maintaining layer 100 to which the antioxidant layer 200 is adhered, and thus the water quality of the water. It is a configuration for generating an antimicrobial effect to improve.

For example, the volcanic clath mineral layer 300 according to the present invention is a kind of volcanic rock, which means a rock hardened in a deep underground layer by lava flows generated by volcanic eruptions cooling near the surface in most cases. Is obtained by pulverizing minerals of SCORIA and PUMICE, which have better antimicrobial activity and far-infrared emissivity than basalt, mixing them in powder form, and then firing the mixture at a certain temperature.

In addition, the firing conditions of the volcanic chain mineral layer 300 is calcined by heating the mixture of Suk Korea and pumice to 700 ~ 750 ℃ for about 2 to 3 hours, the reason for the firing conditions are organic matter that can remain in the mixture Of course, this is to ensure that the crystallized water (complex water) or the like is sufficiently dissipated so that the metal 1 of the present invention can maintain its durability when used as a pipe.

The powder of the s Korea and pumice to form the volcanic cladding mineral layer 300 is formed to have a mesh within 0.6 ~ 0.65mm so that it can be deposited on the antioxidant layer 200 while the preservation of naturally formed micropores is maintained. In addition, when necessary, a predetermined curing agent may be added to the antioxidant layer 200 to be deposited.

At this time, the volcanic chain mineral layer 300 deposited on the anti-oxidation layer 200 is used by mixing so that the weight ratio of s Korea and pumice has a ratio of 10: 3, because the pumice stone is exposed to water for a long time. This is because the cohesion with the said Korea decreases, and the volcanic chain mineral layer 300 deposited at the weight ratio is not permanent, so when the metal 1 according to the present invention is used as a pipe, the timing and period of replacement of the pipe are matched. For sake.

In addition, the silicate mineral layer 400 is configured to prevent the foreign matter mixed in the water (1) of the present invention to be fixed in the form of agglomerates by a minute current emitted from the mineral.

For example, the silicate minerals (silicate minerals) forming the silicate mineral layer 400 in the present invention means a mineral containing a silicate (silicate), the silicate mineral is a ligand having one or more silicon core atoms negatively charged It is a kind of compound containing anion surrounded by it belongs to a mineral having permanent electrical characteristics, and by the generation of such a microcurrent to improve the water quality, and to prevent the phenomenon that the foreign matter is fixed.

The silicate mineral layer 400 having such electrical characteristics generates a microcurrent of about 0.06A, and upon receiving a filtration pressure, the silicate mineral layer 400 is transformed into a property of a conductor so that it can be deposited on the antioxidant layer 200 through firing. Make sure

At this time, the silicate mineral is pulverized tourmaline (TOURMALINE), cordierite (CORDIERITE), Clinoptilillolite (CLINOPTILOLITE) and? Guide (SHUNGITE), but in a powder form having a weight ratio of 10: 1: 3: 2 1000 ~ It is preferable to bake for 5 to 6 hours at 1300 ℃.

Powdered silicate mineral mixture particle size forming the silicate mineral layer 400 is formed to have a mesh within 0.2 ~ 0.4mm and deposited on the antioxidant layer 200, and then deposited volcanic chain mineral layer 300 described above It forms more smoothly in contrast to the surface of), and if necessary, a predetermined curing agent is added to the antioxidant layer 200 during deposition so that it can be deposited.

Hereinafter, a steel pipe manufacturing method (hereinafter, simply referred to as 'manufacturing method') using a metal material for steel pipe which can improve water quality according to the present invention will be described in detail with reference to the accompanying drawings. Prior to the description, the manufacturing method (2) in the present invention is largely the adhesive coating step (S100), the antioxidant layer adhesion step (S200), the volcanic chain mineral layer deposition step (S300) and the silicate mineral layer deposition step ( S400), and to clarify the gist of the present invention will be described by exemplifying the pipe shape of the square pillar.

First, as shown in Figure 2, for the manufacturing method (2) according to the present invention, an adhesive 110 is applied to the inner surface of the tubular outer shape holding layer 100.

For example, the tubular shape formed of the outer shape holding layer 100 may have a rectangular shape rather than a cylindrical shape so that the deposited volcanic chain mineral layer 300 and the silicate mineral layer 400 can be easily deposited on the outer shape holding layer 100. It is formed to have a polygonal shape such as a pillar.

Then, by applying an anti-oxidation layer 200 of a predetermined thickness to the adhesive 110 of the outer surface maintenance layer 100 to protect the outer surface maintenance layer 100 from corrosion by water.

Next, the volcanic chain mineral layer 300 is formed to have a predetermined thickness such that a band-shaped or tornado-shaped boundary S is formed in the longitudinal direction of the outer layer maintaining layer 100 to which the antioxidant layer 200 is applied. Deposited at 200.

At this time, the boundary (S) is to provide a space for the silicate mineral layer 400 to be described later, the width (T1) of the boundary (S) is a volcanic chain mineral layer 300 deposited on the antioxidant layer 200 It is preferable to form narrower than the width (T2) of the) to maximize the antimicrobial effect due to antibacterial or far-infrared radiation rather than to prevent the adhesion of foreign substances.

Finally, the silicate mineral layer 400 is deposited on the antioxidant layer 200 so as to be connected to the volcanic chain mineral layer 300 and disposed at the boundary S, thereby improving the water quality through the manufacturing method (2) of the present invention. Can produce piping.

Metallic material 1 according to the present invention having such a configuration is a volcanic chain mineral having an antibacterial effect for improving water quality on the surface of the plate-shaped outer shape maintaining layer 100 provided to form a pipe differently from the conventional art. By permanently generating the layer 300 and the microcurrent, the silicate mineral layer 400 is deposited to prevent water fixation, as well as fixation due to foreign substances, thereby maximizing the advantages of water quality improvement.

As described above, the present invention has been described by specific embodiments such as specific components and the like, but the embodiments and the drawings are provided only to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions.

Therefore, the spirit of the present invention should not be limited to the embodiments described, and all the things that are equivalent or equivalent to the scope of the claims as well as the following claims will belong to the scope of the present invention. .

1: metal material for steel piping which can improve the water quality according to the present invention
2: steel pipe manufacturing method using a metal material for steel pipe which can improve the water quality according to the present invention
100: appearance holding layer 110: adhesive
200: antioxidant layer 300: volcanic cladding mineral layer
400: silicate mineral layer S: boundary

Claims (3)

An outer shape maintaining layer 100 made of aluminum to which the adhesive 110 is applied;
An antioxidant layer 200 laminated on the adhesive 110;
Deposited on the anti-oxidation layer 200 but made of a mixture of SCORIA and PUMICE to induce antimicrobial effect to improve water quality, but preservation of the micropores naturally possessed by the SKO and the pumice are maintained. Volcanic cladding mineral layer 300 consisting of a mixture of minerals; And
The tourmaline, cordierite, CORDIERITE, CLINOPTILOLITE and the like are deposited on the anti-oxidation layer 200 to be connected to the volcanic chain mineral layer 300 to prevent sticking for water quality improvement. ? Silicate mineral layer 400 made of a mixture of (SHUNGITE); including,
The volcanic cladding mineral layer 300 and the silicate mineral layer 400 are repeatedly deposited on the antioxidant layer 200 to have a predetermined width in the longitudinal direction of the contour maintaining layer 100, respectively.
The volcanic chain mineral layer 300 is a metal pipe for improving water quality, characterized in that the deposit is deposited to have a wider width in the longitudinal direction of the outer surface maintenance layer 100 than the silicate mineral layer (400).
The method of claim 1,
The volcanic cladding mineral layer 300 is obtained by mixing the finely ground powder of scoria and pumice in a weight ratio of 10: 3, and calcining the mixture at 700 to 750 ° C. for 2 to 3 hours.
The silicate mineral layer 400 is a finely ground powder of tourmaline, cordierite, clinoptilolite and? Guide is mixed in a weight ratio of 10: 1: 3: 2, but the mixture is 5 to 6 at 1000 ~ 1300 ℃ Metal material for steel piping, which can be improved by calcination for a period of time.
1) applying an adhesive 110 to the inner surface of the tubular appearance maintaining layer 100;
2) adhering the antioxidant layer 200 to the adhesive 110;
3) depositing a volcanic chain mineral layer (300) in powder form in which plasticity is formed such that neighboring boundaries (S) are formed on surfaces of the antioxidant layer (200) in the longitudinal direction of the outer shape maintaining layer (100); And
4) depositing a silicate mineral layer 400 in powder form on the antioxidant layer 200 which is connected to the volcanic chain mineral layer 300 and is fired so that the boundary S is filled.
The width T1 of the boundary S in the longitudinal direction of the contour maintaining layer 100 is formed to be narrower than the width T2 of the volcanic chain mineral layer 300 deposited on the antioxidant layer 200. Steel pipe manufacturing method using a metal material for steel pipe capable of improving the water quality.

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