WO2012099324A2

WO2012099324A2 - Apparatus for improving the quality of a liquid

Info

Publication number: WO2012099324A2
Application number: PCT/KR2011/008742
Authority: WO
Inventors: 강성모
Original assignee: Kang Sung-Mo
Priority date: 2011-01-20
Filing date: 2011-11-16
Publication date: 2012-07-26
Also published as: WO2012099324A3

Abstract

The present invention relates to an apparatus which is to be built into a tube to improve the quality of a liquid. The apparatus for improving the quality of a liquid includes: a casing made of a flexible material, the casing including an inlet through which water is fed and an outlet through which the water is discharged, wherein said inlet and outlet are in communication with one another; a ceramic filter composition that is filled into the casing; a magnet disposed on at least one side of the inlet and outlet of the casing; and a plug including an outlet inserted in and coupled to the outlet of the casing so as to prevent the ceramic filter composition from being separated and allowing only purified liquid to pass therethrough. The casing may be built into a tube through which the liquid to be purified passes.

Description

[Revision 29.12.2011] under Rule 26. Water quality improvement system

The present invention relates to a water quality improving device containing a substance for improving the quality of a liquid, and more particularly, water, shower, car wash high pressure sprayer, sprinkler, urinal, aquarium, refrigerator, washing machine, farm, Regarding the liquid quality improvement device that embeds substances that improve the quality of liquids in flexible tubes, such as improving the quality and function of water or liquid needed for animal kennels, leisure facilities, parks, public facilities, military facilities, etc. will be.

In general, the device for improving the quality of the liquid, in particular, the water purifier is a device for filtering the heavy metals or foreign substances contained in the water to drink clean water, the water filter system is provided.

The water filtered in the purified water filter system may be supplied to the cold water tank and the hot water tank through the purified water tank or may be immediately supplied to the cold water tank and the hot water tank.

In general, the water purification method of the water filter system is various, the system has a structure in which a plurality of water filters are connected by a tube.

For example, the water purification method is a reverse osmosis method using reverse osmosis, a pure water molecule is passed through a membrane filter, and the foreign matter is filtered through a membrane filter by forcibly applying pressure to water using a pump. The hollow fiber tube is classified into a hollow fiber membrane water purification system which is bundled in thousands of bundles.

In addition, the water purifier filter removes suspended solids and harmful bacteria contained in the drinking water to purify the drinking water so that the water is suitable for drinking water. It is most common to pass the filter (REVERS OSMOSYS MEMBRAIN) in order to be purified.

However, such a conventional filter is not only easy to install, but its purpose is limited to filter out impurities to make drinking water. Therefore, as an example, when washing dishes in the kitchen, the use of detergent is inevitable because the tap water is simply used, and the use of such detergent is harmful to the human body and contaminates water resources.

In addition, in the case of a filter adapted to be used by using an adapter in a conventional faucet, the aesthetic appearance is not good, and there is an inconvenience that the so-called cobra-shaped connecting pipe does not sag down.

In addition, in many cases, a separate water purifier or a device that improves the quality of the liquid must be installed and used. Therefore, it is costly, it takes a long time to install, and it is economically effective, requiring a separate installation place. I couldn't.

Therefore, the present inventors are continuously researching to develop a composition for improving the quality of a liquid that can solve the above problems and a method for easily applying the composition. Among the fine ceramic materials, especially aluminosilicate and silicic anhydride It was found that the filter composition mainly composed of calcium, calcium carbonate and aluminum oxide emits energy as the wavelength band of the best model for the human body, and it is possible to separate and purify high purity raw materials, and to maintain the sustainability and the same radiation for a long time. The present invention was completed by allowing the filter composition to be easily installed without using a separate device.

The present invention was conceived in view of the above, it is an object of the present invention is to provide a pipe-mounted water quality improvement device that can be improved to improve the filter performance as well as easy to install drinking water as well as the quality of the liquid.

Tube built-in water quality improvement device of the present invention for achieving the above object is formed of a flexible material, the casing is in communication with the inlet to the water inlet and the outlet of the inlet water; A ceramic filter composition filled in the casing; A magnet installed on at least one of an inlet and an outlet of the casing; A plug having an outlet inserted into and coupled to an outlet of the casing to prevent separation of the ceramic filter composition and allowing only the purified liquid to pass therethrough, wherein the casing may be embedded in a tube through which the liquid to be purified passes. It is done.

Here, the casing is preferably mountable and detachable into the liquid supply pipe through a branch formed on the side of the liquid supply pipe through which the liquid passes.

In addition, the inlet of the casing is formed at one end, the outlet is preferably formed on the side adjacent to the other end.

In addition, each of the casing and the branch portion is preferably provided with a positioning portion for determining the engaging position so that the outlet of the casing communicates with the liquid movement path of the liquid supply pipe, and secures the engaging position.

In addition, the magnet is provided with a plurality, it is preferable that the inlet and the outlet of the casing is provided respectively.

In addition, it is preferable to further include a sealing member installed between the stopper and the casing, the stopper is tightly coupled to the outlet of the casing.

In addition, the ceramic filter composition, to include aluminosilicate 25 to 35% by weight, calcium carbonate 15 to 25% by weight, anhydrous silicic acid 12 to 18% by weight, aluminum oxide 8 to 10% by weight.

In addition, the ceramic filter composition additionally, ferrous oxide 5 to 7% by weight, ferric oxide 5 to 7% by weight, magnesium oxide 2 to 4% by weight, calcium oxide 1 to 3% by weight, sodium 2 to 4% by weight, It is preferably made up of 3 to 5% by weight of potassium, 0.1 to 0.5% by weight, 0.1 to 0.5% by weight of phosphoric anhydride, 0.1 to 0.5% by weight of manganese oxide and 0.5 to 1.5% by weight of other components.

In addition, the ceramic filter composition, it is preferable that the other component is a mineral element of Ti, Se, Ge or Mn series as natural rare mineral elements.

According to the tube-type water quality improving device of the present invention, by enhancing the washing function of the water by the ceramic filter composition it is possible to improve the quality of the liquid harmless to the human body.

In particular, the water improved through the ceramic filter composition exerts an excellent cleaning effect without using detergent when washing dishes, thereby providing an eco-friendly product that can reduce environmental pollution as well as the cost of using the detergent. .

In addition, the water quality improving apparatus including the ceramic filter composition can be easily installed in the water supply pipe without using a separate mechanism or exchanging existing faucets.

Therefore, since it is not necessary to separately install the water quality improving device outside the water supply pipe as in the prior art, the installation space is not additionally required, and there is an advantage that does not harm the aesthetics because it is not exposed to the outside.

In particular, when the external filter is installed in, for example, a small cobra type connection pipe, a problem such as sagging of the connection pipe due to the weight of the external filter occurs, but in the case of the present invention, it can be installed inside the connection pipe. Therefore, it is possible to reduce the weight and thus fundamentally solve the problems caused by sagging of the connecting pipe.

1 is an exploded perspective view illustrating a pipe-type water quality improving apparatus according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a combined tube water quality improving device shown in FIG. 1.

3 is a schematic view for explaining a state in which the built-in water quality improvement apparatus according to an embodiment of the present invention is installed in the shower hose.

4 is a schematic view for explaining a method for installing a pipe-type water quality improving device according to an embodiment of the present invention in a water supply pipe.

5 is a view showing an example in which the built-in water quality improvement device according to an embodiment of the present invention is installed in a spiral water supply pipe.

Figure 6 is a schematic perspective view showing a tube-type water quality improvement apparatus according to another embodiment of the present invention.

FIG. 7 is a cross sectional view of the tube-type water quality improving device shown in FIG. 6.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the tube-type water quality improvement apparatus according to an embodiment of the present invention.

With reference to Figures 1 to 5, it will be described in detail the tube embedded water quality improvement apparatus according to an embodiment of the present invention.

1 to 5, the tube embedded water quality improving apparatus 100 according to an embodiment of the present invention, the ceramic filter composition 110, the ceramic filter composition 110 is filled therein and flexible material And a casing 120, a magnet 130, and a stopper 140.

The casing 120 may be formed of a flexible material such as rubber, and has a configuration in communication with an inlet through which water is introduced and an outlet through which the inflowed water exits. Thus, the casing 120 is formed of a flexible material, so that the casing 120 is easily inserted into and installed in non-linear (U-shaped, curved) and deformable pipes (shower hoses, etc.) including a linear fluid (water) supply pipe. It becomes possible. Therefore, regardless of the shape of the supply pipe 200 through which the fluid to be purified water passes, all can be applied, the casing 120 in the supply pipe 200, that is, the built-in water quality improvement device 100 according to an embodiment of the present invention. It becomes possible to install.

In this case, the supply pipe 200 may include a pipe connecting the water pipe and the faucet as a straight line, a curved pipe, and a flexible shower hose (see FIG. 3). Therefore, the end of the supply pipe 200 is provided with a coupling portion including a screw thread 201 to be detachably coupled to the faucet 400 (see FIG. 4) or the shower head (300 (see FIG. 3)).

In addition, as a method for installing the water quality improving apparatus 100 according to an embodiment of the present invention inside the supply pipe 200 as described above, as shown in FIG. 4, the main water supply of the supply pipe 200 is provided. The supply pipe 200 is provided by a method in which the branch portion 210 is installed (formed) in an oblique direction so as to branch from the path, and the water quality improving apparatus 100 is pushed into the supply pipe 200 through the branch portion 210. Easily install the water quality improving device 100 inside, and the water quality improving device 100, which has reached the end of its life, can be easily replaced with a new one by opening the branch 210 and pulling out.

The water quality improving device 100 is pushed into the supply pipe 200 through the branch 210, and then the branch 210 is closed by using a stopper 230, so that the water branches 210. Through it can be prevented from leaking to the outside. The branch portion 210 as described above may be connected to and installed after forming a hole in one side of the existing supply pipe 200, or may be integrally formed with the branch portion 210 in the supply pipe 200.

In addition, when the water quality improvement apparatus 100 is to be replaced with a new one, a separate coupling part (not shown) provided in a predetermined portion (not shown) of the supply pipe 200 and the coupling part 401 of the water pipe or the faucet 400 by a screw coupling method. After separating the structure that can be coupled to and separated from each other, including a portion to be connected, that is, a screw 201 structure), it may be separated by discharging the used water quality improving apparatus through the separated portion to the outside.

The ceramic filter composition 110 is accommodated in the casing 120, the size of the particles can be appropriately adjusted according to the size of the inner diameter of the casing 120.

Detailed description of the ceramic filter composition 110 will be described later.

The magnet 130 may be installed on at least one of the inlet or the outlet of the casing 120, preferably, both the inlet and the outlet side as in the embodiment of the present invention, the ceramic filter composition 110 It acts to magnetize the passing fluid (water; hereinafter referred to as water). The magnet 130 may have a ring configuration in which a hole 131 through which water passes is formed in the center portion thereof, or two or more magnets may be installed to face each other in a symmetrical manner. The magnet 130 serves to magnetize the water flowing into the ceramic filter composition 110 and the purified water passing therethrough, thereby generating magnetized water.

The stopper 140 is press-fitted to the outlet side of the casing 120 to prevent the ceramic filter composition 110 installed in the casing 120 from exiting through the outlet side, so that only water having improved quality is dropped out. It has an outlet 141 to exit. Preferably, the magnet 130 is installed on the coupling part 142 of the stopper 140, and the sealing member 150 is further installed between the magnet 130 and the inner side of the casing 120, thereby closing the stopper 140. And it is possible to prevent the magnet 130 from being separated, as well as sealing between the stopper 140 and the casing 120, while the water leaks between the plug 140 can be more firmly coupled. The outlet 141 formed in the stopper 140 may be formed with an inner diameter smaller than the particle size of the ceramic filter composition 110, otherwise, a filter having a net (net) structure is further installed in the outlet 141. Particles of the ceramic filter composition 110 can be prevented from escaping.

The ceramic filter composition 110 is to improve the quality of the water passing through the casing 120, and is accommodated and installed in the casing 120 in the form of particles. The ceramic filter composition 110 preferably contains 25 to 35% by weight of aluminosilicate, 15 to 25% by weight of calcium carbonate, 12 to 18% by weight of silicic anhydride, and 8 to 10% by weight of aluminum oxide.

In addition, the ceramic filter composition 110 is additionally 5 to 7% by weight ferrous oxide, 5 to 7% by weight ferric oxide, 2 to 4% by weight magnesium oxide, 1 to 3% by weight calcium oxide, 2 to 4% by weight sodium It is preferable to include 3 to 5% by weight of potassium, 0.1 to 0.5% by weight, 0.1 to 0.5% by weight of phosphoric anhydride, 0.1 to 0.5% by weight of manganese oxide, and 0.5 to 1.5% by weight of other components.

Especially more preferably, the fine ceramic filter composition 160 includes 30.5% by weight of aluminosilicate, 19.4% by weight of calcium carbonate, 14.6% by weight of silicic anhydride, 9.5% by weight of aluminum oxide, 6.40% by weight of ferrous oxide, 6.24% by weight of ferric oxide. , 3.55% by weight of magnesium oxide, 2% by weight of calcium oxide, 3.16% by weight of sodium, 4.19% by weight of potassium, 0.3% by weight of alginate, 0.46% by weight of phosphoric anhydride, 0.24% by weight of manganese oxide and 1.06% by weight of other components.

In addition, other components used in the fine ceramic filter composition 110 are natural rare mineral elements of bioactivity, and for example, Ti, Se, Ge, and Mn-based mineral elements may be used. This is a required ingredient in the composition of substances.

The biominerals used in the present invention, Si and Al, are 600 mesh particles that maintain porosity and are biocompatible. Rare minerals (rare metals), Ti-based, Se-based, Ge-based, and Mn-based, are particles of 300 to 500 mesh and remain active and are antibiotic type. In addition, the rare earth minerals Y, Gd and La series are active particles of 500 mesh or more particles. Nonmetallic minerals, Z and B, are biocompatible. Natural minerals Ca, K, Mg, Fe, Zn and Na are 300 to 500 mesh particles, essential elements for bio-balancing, and have a reactive activity with nutrients.

In addition, when the fine ceramic filter composition 110 having the above-described composition is blended and molded, it is preferable to further mix and shape the powder of the incinerator burned at a high temperature. In this way, the powder of the incineration mixture is kneaded and molded to form pores. The pores generated by the powder of the incinerator mixed in this way can be purified to pass through the water naturally.

The mixing ratio of such incinerated powder may be added in a ratio of 20 to 30% relative to the total fine ceramic composition, and the ratio may be selectively changed and optionally applied.

Hereinafter, the quality of the liquid is improved by using the fine ceramic filter composition 110.

Fine ceramic filter material is processed to radiate energy as a wavelength band of the best model for human body compared to conventional far-infrared bio material, and can be applied regardless of constitution, and it is possible to separate and purify high-purity raw materials, and to maintain sustainability and the same radiation for a long time. It can be called semi-permanent and has the advantage of increasing the porosity and dissolved oxygen.

In other words, the fine ceramic filter material can provide nano-clustered water with stability so that the properties can be maintained even after changing the quality of the liquid. Here, bioactive water refers to ordinary water, such as tap water, rainwater, and groundwater, which performs special functions such as electric fields, magnetic fields, far infrared rays, electromagnetic waves, and ultrasonic waves to change its physical properties to have unique information, thereby performing a specific function on the living body. It means the water made.

Specifically, the water changed by the input of external energy is "a new frequency can be generated to transfer energy to other spatially separated objects having the same or similar frequency", so that the entire body of the human body such as molecules, cells, and tissues of the living body You have the potential to influence across.

In addition, the structure is evenly arranged in small clusters that are divided into one-thirds or less in size than ordinary water, making it a dynamic group that is easily absorbed and moved in the body.

In addition, by inputting external energy, it is made of alkaline water (pH 8.00-8.50) and has a low interfacial tension (about 50-40 dyne / cm) compared to ordinary water having an interfacial tension of 72 dyne / cm. Free passage through the tunnel.

Therefore, the bioactive water prevents the breakage of the structure of the water around the cells, prevents the invasion of bad bacteria and inhibits the growth of bacteria to prevent disease.

In addition, bioactive water keeps the skin clean and well-dressed and helps prevent acne and blemishes. In particular, it can be said that it is very effective for skin diseases of children and children, atopic dermatitis, etc., and when used as a face wash, it is very effective for removing residues remaining in pores.

In addition, bioactive water regulates the condition of the stomach to prevent excessive drinking, overeating, and satiety can prevent obesity. In addition, the effect of constipation is excellent, intake by 2ℓ per day can always maintain a light body condition.

In addition, tap water contains a lot of hypochlorous acid for sterilization, but the water-soluble minerals neutralize the chlorine to stably remove the chlorine odor, thereby making the water mild and delicious.

In addition, tap water does not pass electricity due to its low conductivity, but bioactive water has electricity and rises through electricity. Compared to purified water, it is about 100 times higher, but higher conductivity means higher thermal efficiency.

In addition, since the electrical conductivity is high, when various products are treated with bioactive water, antistatic effect is generated, that is, when bioactive water is applied to a TV screen, dust adhesion is greatly reduced. Water is said to be active and active because the water basin and mineral molecules are constantly moving around.

It also changes the taste of the food mildly and gently. In addition, the bitterness of foods and sour tastes more than necessary. Harmonize the bitter taste to change the taste.

On the other hand, it is possible to use bioactive water and ionic soft water at the same time by using a magnet. Therefore, various beneficial advantages (effects) of ion softening can be expected. The benefits of ionic soft water and its characteristics (neutralization, fatigue recovery, blood circulation promotion, adsorption and removal of various ionic components in water, etc.) make generally known hard water soft. Detailed description will be omitted.

As shown in FIG. 5, the apparatus 100 for improving water quality according to the exemplary embodiment of the present invention may be installed in a so-called spirally formed water supply pipe 200 ′. In this case, the water quality improving device 100 may be installed into the water supply pipe 200 'through the branch 210 formed in the water supply pipe 200', and the water quality improving device 100 may be deformed. It is deformed to correspond to the spiral water supply pipe 200 'and can be easily installed therein.

When the water supply pipe 200 'is spirally formed as described above, the flow rate of the water can be reduced, thereby preventing a large load from occurring in the water quality improving apparatus 100, and thus improving the water quality improving effect. Will be.

6 and 7, in the water quality improving apparatus 100 ′ according to another embodiment of the present invention, a ceramic filter composition is accommodated in the casing 220 of a flexible material, and one end of the casing 220 is provided. The stopper 240 having a hole into which liquid, that is, water supplied through the supply pipe 200 ′ is installed, and the other end has a configuration in which a closed coupling part 221 is provided. In addition, an outlet 223 through which the purified liquid is discharged is formed on the outer surface spaced a predetermined distance from the other end of the casing 220.

Therefore, as shown in FIG. 7, in the state where the casing 220 is inserted into and coupled into the supply pipe 200 ′ through the branch 210 formed in the supply pipe 200 ′, the outlet 223 is connected to the supply pipe ( And the liquid introduced into the casing 220 through the end cap 240 of the casing 220 passes through the ceramic filter composition inside the casing 220, thereby improving quality. Thereafter, the outlet 223 may be supplied into the passage of the supply pipe 200 ′ to be used.

In this case, the outlet 223 is coupled to the supply pipe 200 'so that the outlet 220 can be coupled and maintained in a state exposed to a passage (space) without contacting the inner surface of the supply pipe 200'. The positioning unit is further provided.

The positioning part is positioned inside the positioning groove 222 formed on the outer side of the coupling portion 221 of the other end of the casing 220 and the positioning groove 222 to the complementary interior of the branch 210. It has a positioning projection 211 protruding from the. According to the positioning unit having the above configuration, when the casing 220 is inserted into the supply pipe 200 'through the inlet of the branch 210, the positioning groove 222 is positioned in the positioning protrusion 211. Coinciding, but when the outlet 223 is coupled to be positioned toward the liquid supply direction of the supply pipe 200 ', the outlet 223 is automatically positioned to be exposed to the space inside the supply pipe 200' as shown in FIG. By being kept in the coupled state, the movement of the liquid can be maintained smoothly. That is, the water quality improvement device 100 'is easily installed inside the supply pipe 200' while fundamentally solving a problem such that the supply pipe 200 'is clogged or the pressure is increased by incorrectly installing the casing 220. It becomes possible.

Meanwhile, reference numeral 130 ′ in FIG. 6 denotes a magnet, and may be installed inside or outside the

casing

220, and 250 is a sealing member, sealing between the casing 220 and the supply pipe 200 ′. By doing so, all of the liquid moving through the supply pipe 200 ′ may be moved through the outlet 223 only after the quality is improved by passing through the inside of the casing 220.

While the invention has been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

Claims

A casing formed of a flexible material and connected to an inlet through which water flows in and an outlet through which inflow water flows out;

A filter composition filled in the casing;

And a plug having an outlet inserted into and coupled to the outlet of the casing to prevent separation of the filter composition and allowing only the purified liquid to pass therethrough.

The casing is built-in water quality improvement device, characterized in that can be embedded in the interior of the pipe passing the liquid to be purified.
The method of claim 1,

The casing can be mounted and separated into the liquid supply pipe through the branch formed on the side of the liquid supply pipe through which the liquid passes, the embedded water quality improvement apparatus.
The method of claim 2,

The inlet of the casing is formed at one end, the outlet is built-in water quality improvement device, characterized in that formed on the side adjacent to the other end.
The method of claim 3,

And each of the casing and the branching portion is provided with a positioning portion for determining a coupling position so that the outlet of the casing communicates with a liquid movement path of the liquid supply pipe, and for fixing the coupling position.
The method according to any one of claims 1 to 4,

And at least one of the inlet and the outlet of the casing further includes a magnet.
The method according to any one of claims 1 to 4,

And a sealing member installed between the stopper and the casing so that the stopper is tightly coupled at the outlet of the casing.
The filter composition according to any one of claims 1 to 6, wherein

25 to 35% by weight of aluminosilicate, 15 to 25% by weight of calcium carbonate, 12 to 18% by weight of silicic anhydride, 8-10% by weight of aluminum oxide.
The method of claim 7, wherein the filter composition,

In addition, 5 to 7% by weight of ferrous oxide, 5 to 7% by weight of ferric oxide, 2 to 4% by weight of magnesium oxide, 1 to 3% by weight of calcium oxide, 2 to 4% by weight of sodium, 3 to 5% by weight of potassium, 0.1 to 0.5% by weight, 0.1 to 0.5% by weight of phosphoric anhydride, 0.1 to 0.5% by weight of manganese oxide, and 0.5 to 1.5% by weight of other components,

The other components are natural rare mineral elements, tube, embedded water quality improvement device, characterized in that the mineral element of Ti, Se, Ge or Mn series.