KR200369817Y1 - Apparatus for improving activity of water by using ceramics - Google Patents

Abstract

The present invention relates to a ceramic water dispenser having a water quality improvement chamber in which artificial water is installed and a water pump is installed in a water pipe to improve water properties.

The present invention, the inlet is formed on the lower side of the water quality improvement chamber by placing the water pump in the lower side of the water quality improvement chamber, the outlet force is formed on the upper side by the action force according to the flow resistance of the water applied to the artificial stone And to reverse the direction of gravity of the artificial stone provides a ceramic water repellent configured to achieve a smooth flow and impact of the artificial stone in the water quality improvement room.

According to the present invention, the small size promotes water activation, supplies mineral-rich weak alkaline water, minimizes the amount of residual chlorine, and is effectively improved to prevent rust and scale formation in the pipe due to the surfactant activity. Effect is obtained.

Description

Ceramic Water Repellent {APPARATUS FOR IMPROVING ACTIVITY OF WATER BY USING CERAMICS}

The present invention relates to a water softener for improving the properties of water, and more particularly, a cylindrical partition wall formed by molding various functional ceramic materials on the inner wall, and inside the ceramic ball radiating far infrared rays to pass through the water. To improve water activation, supply mineral-rich weak alkaline water, minimize residual chlorine, and effectively prevent rust and scale formation in the pipe due to the surfactant activity. It is about.

In general, the water dispenser 100 conventionally presented in order to improve water quality is disclosed in Korean Patent No. 0182844, as shown in FIG.

Such a conventional technique forms a casing-shaped water quality improvement chamber 120 in the middle of the pipe 110 through which water passes, and loads artificial stone 130 made of a plurality of ceramic balls therein, through which water By passing through the far-infrared rays emitted from the artificial stone 130 stimulates and vibrates the water molecules to improve the water quality.

Such a conventional technique is that far-infrared rays emitted from the artificial stone 130 to stimulate and vibrate the water molecule group, the size of the water molecule group is reduced to promote the activation of water.

The ceramic water repeller 100 according to the related art includes a water supply pipe 140 installed in the water supply pipe 110 and a water quality improvement room 120 having an artificial stone 130 made of balls of ceramic material. It is installed in the middle of the 110, the mesh member 150 is disposed in the upper and lower entrances and exits of the water quality improvement room 120 is a structure so that the artificial stone 130 is embedded.

In addition, the conventional ceramic water-repellent 100 makes the inlet diameter (D1) of the water quality improvement chamber 120 larger than the diameter (D2) of the water supply pipe (110), and the outlet diameter of the water quality improvement chamber (120). Smaller than the inlet diameter of the improvement chamber 120, the water pump 140 is driven to pressurize the water to 2.4-10 Kg / ㎠ to pass through the water quality improvement chamber 120.

In this process, the artificial stone 130 made of pressurized water and ceramic balls collide with each other to generate a strong electromagnetic field, thereby splitting the water into small monomolecules (clusters) by far infrared rays with stable wavelengths, thereby reforming the water well.

However, the conventional ceramic water-repellent 100 as described above is limited in time and space through which water passes, and there is a performance limit in obtaining alkaline water by splitting water molecules only by friction between artificial stones 130. In addition, since the inlet port P1 is formed at the upper side of the water quality improvement chamber 120, and the outlet port P2 is formed at the lower side, the water passes, so that water flows into the artificial stone 130 while the water is introduced. The artificial stone 130 is driven to the lower portion of the water quality improvement room 120 by resistance and gravity action, so that the collision between the artificial stones 130 is difficult to be made because the concentration is high.

The present invention is to solve the conventional problems as described above, by creating a smooth flow state and collision of the artificial stone in the water quality improvement room by inverting the action force according to the flow resistance of the water applied to the artificial stone of the ceramic material and the direction of gravity of the artificial stone A first object is to provide a ceramic water dispenser capable of achieving an effective water quality improvement.

In addition, the present invention facilitates the collision between artificial stones in the water quality improvement room, and maximizes the impact area and the number of artificial stones in unit time and space to maximize the far-infrared radiation to maximize the water quality improvement effect. There is a second purpose in providing handwriting.

In addition, the present invention minimizes the impact and noise caused by the collision between the artificial stones from the water quality improvement room, and protects the artificial stones from the impact from the outside to the water quality improvement room. A third object is to provide a ceramic water dispenser with greatly improved durability.

1 is a partial cutaway side view showing a water purifier according to the prior art;

Figure 2 is a partially cut away perspective view showing a ceramic water dispenser according to the present invention;

3 is a cross-sectional view showing a ceramic water repellent according to the present invention;

4 is a perspective view showing the mesh member and the sealing gasket provided in the ceramic water repellent according to the present invention.

<Description of the symbols for the main parts of the drawings>

1 ..... Ceramic Water Repellent 10 .... Water Pipe

12 .... Water Pump 15 ..... Artificial Stone

20 .... Water Quality Improvement Room 22 .... Water Tank

24 .. Ceramic bulkhead 26 .... Damper member

40 .... mesh member 42 .... sealing gasket

50a, 50b .... Upper and lower cap 57 .... Thread

P1 .... inlet P2 .... outlet

In order to achieve the above object, the present invention is to provide a water pump in the water pipe having a water quality improvement chamber with a water pump installed in the artificial stone, so that the water pump is located on the lower side of the water quality improvement chamber Inlet is formed in the lower side of the water quality improvement chamber, and the outlet is formed in the upper side to reverse the action force according to the flow resistance of the water applied to the artificial stone and the direction of gravity of the artificial stone and the smooth flow of the artificial stone in the water quality improvement room It provides a ceramic water repellent, characterized in that configured to make an impact.

In addition, the present invention is preferably characterized in that the water quality improvement chamber is configured to induce friction and collision with artificial stone by mounting a ceramic partition wall made of various functional materials in the inside of the outer container of the water drawer, and to achieve increased emission of far infrared rays Provide a ceramic water dispenser.

In addition, the present invention preferably provides a ceramic water repellent, characterized in that the damper member is inserted between the outer cylinder and the ceramic partition wall to cushion the external shock or impact and noise of artificial stones.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the drawings.

2 and 3 show the ceramic water drawer 1 according to the present invention as a whole. Ceramic water repellent (1) of the present invention is provided with a water quality improvement chamber (20) in which a water pump (12) is installed in the water pipe (10) and a built-in artificial stone (15), and the water pump (12) The inlet port P1 is formed at the lower side of the water quality improvement room 20 and the outlet port P2 is formed at the upper side by being positioned at the lower side of the water quality improvement room 20. With this structure, smooth flow and impact of the artificial stone 15 in the water quality improvement chamber 20 is achieved by reversing the action force according to the flow resistance of water applied to the artificial stone 15 and the direction of gravity of the artificial stone 15. This can be done.

In addition, the present invention induces increased friction and collision of the artificial stone 15 in the inside of the water reservoir outer cylinder 22 constituting the water quality improvement chamber 20, and accordingly to achieve an increased emission of far infrared rays ceramic partition wall (24) is attached. The ceramic partition wall 24 preferably has a cylindrical structure, and is made of various functional materials.

As a material of the ceramic partition wall 24 as described above, tourmaline, elvan, silicon dioxide and the like can be used, and components can be configured differently according to the purpose of use such as household, agricultural, and industrial purposes.

In addition, the ceramic partition wall 24 has a built-in artificial stone 15 made of a ceramic material therein, and the artificial stone 15 has a raw material of silicon dioxide, aluminum oxide, ferric oxide, etc. having a diameter of about 2 to 7 mm. It is manufactured by molding into a sphere shape and firing at 1700 to 1800 ° C.

In addition, the present invention is preferably inserted into the damper member 26 between the water tank outer cylinder 22 and the ceramic partition wall 24 to cushion the external shock or impact and noise of the artificial stone 15. The damper member 26 is preferably made of a cylindrical synthetic plastic material with excellent cushioning function, the outer diameter of which corresponds to the inner diameter of the water drawer outer cylinder 22, and the inner diameter of which corresponds to the outer diameter of the ceramic partition 24. To combine.

By having such a structure, a large amount of artificial stone 15 can be filled in the water quality improvement room 20 of a limited size.

In addition, the present invention has the mesh member 40 and the sealing gaskets 42 as shown in FIG. 4 on the upper and lower sides of the water-repellent outer cylinder 22, the damper member 26, and the ceramic partition wall 24 as described above. Is installed to keep the artificial stone 15 is contained in the interior of the water container outer cylinder (22).

The mesh members 40 and the sealing gaskets 42 are upper and lower caps 50a and 50b that are coupled to the upper and lower flanges 22a of the outer cylinder 22 by fasteners 28 such as bolts and nuts. As disposed therebetween, the sealing gasket 42 prevents leakage from occurring at the connection portion between the water drawer outer cylinder 22 and the upper and lower caps 50a and 50b.

The upper and lower caps 50a and 50b each form a funnel shape of an arc-shaped cross-section, as shown in cross section in FIG. 3, and a flange 22b for coupling to the upper and lower flanges 22a of the outer cylinder 22. Is provided at one end, and the other end forms a threaded portion 57 for fixing to the water pipe 10, respectively.

That is, the upper and lower caps (50a, 50b) of each of the one side is connected to the water tank outer cylinder 22 by the fastener 28, the other side is connected to the water pipe 10, etc. by the screw connection of the water pipe 10 The upper and lower caps 50a and 50b manufactured by adjusting the size of the screw 57 in advance to fit the diameter can be used to mount the ceramic water repellent 1 of the present invention to water pipes 10 of various sizes. .

Thus, the present invention, due to the mounting structure using the upper and lower caps 50a and 50b, the screw portions 57 of the upper and lower caps 50a and 50b can be screwed to various diameters of the water pipe 10, respectively. If manufactured in various sizes in advance, these caps (50a, 50b) can be easily mounted on the existing water pipe 10 by the exchange of only.

The upper and lower caps 50a and 50b each have the same size of the threaded portion 57. Unlike the prior art, the diameter of the inlet port P1 on the side of the cap 50b into which the water enters the outer container 22 and the diameter of the outlet P2 on the side of the cap 50a exiting the outer container 22 are the same. By applying the same, the effect of minimizing the hydraulic pressure loss due to the water passing through the inside of the outer container 22 is obtained.

The ceramic water drawer 1 of the present invention configured as described above is sealed with the mesh member 40 as shown in FIG. 4 between the lower cap 50b having the inlet P1 and the water drawer outer cylinder 22. The gaskets 42 are arranged and flanged to the fastener 28, and then the ceramic partition 24 and the damper members 26 are sequentially overlapped and mounted in the water container outer cylinder 22. Then, the artificial stone 15 of the desired amount is filled in the ceramic partition 24, and the upper side mesh between the upper cap 50a having the upper end of the outer container 22 and the water outlet P2 formed therein. The member 40 and sealing gaskets 42 are placed and then fastened with fasteners 28.

Then, when the ceramic water-repellent (1) of the present invention assembled as described above is fixed to the water pipe 10 by screwing, the mounting is completed. When mounted in this way, the lower inlet (P1) is connected to the water supply source side or the water pump (12) side, the upper outlet (P2) is connected to the water use destination or demand side. In this state, when water flows from the lower inlet P1 to the artificial stone 15 through the lower mesh member 40 and exits to the upper outlet P2 side through the upper mesh member 40, the water is artificial stone ( 15) while moving between the artificial stone 15 by applying a lift force by the water flow resistance to ensure that the artificial stone 15 flows smoothly. Therefore, these artificial stones 15 are rubbed, vibrated, and collided with each other in the flow process, and at the same time, the artificial stones 15 flowing in this way collide with the ceramic partition 24 to emit more far infrared rays.

As described above, the artificial stones 15 maximize the emission of far infrared rays by increasing the collision area and the number of collisions between them by inducing friction between the ceramic partition walls 24 as well as the collision between them.

Due to such far infrared rays, clusters of water molecules are split into smaller pieces, and water is converted into activated weak alkaline water and exits through the outlet (P2), and chlorine contained in the water is removed as much as possible. In addition, in the process of passing through the artificial stone 15, the water has an interfacial effect to remove scale and rust in the pipe.

In addition, the ceramic partition wall 24 can be used for home, industrial, agricultural, etc. according to the purpose of the present invention by diversifying its material, it can maximize the effect.

And, the present invention can be made quiet operation by absorbing the noise and impact generated in the process of activating the water as described above through the damper member 26, by a sudden impact from the outside of the ceramic partition wall ( 24) or artificial stone 15 is to be protected.

In addition, since the present invention is mounted on the water pipe 10 by using the upper and lower caps 50a and 50b, the present invention can be easily installed according to the diameter of the water pipe of the existing building only by replacing the upper and lower caps 50a and 50b.

According to the present invention as described above, the inlet port (P1) is formed on the lower side of the water quality improvement chamber 20, the discharge port (P2) is formed on the upper side to the flow resistance of the water applied to the artificial stone (15). According to the action force and the gravity direction of the artificial stone 15 is reversed, the concentration of the artificial stone 15 in the water quality improvement chamber 20 is prevented and the flow is improved.

In addition, according to the present invention, by mounting a ceramic partition 24 made of various functional materials in the interior of the water quality improvement chamber 20, an increased friction and collision with the artificial stone 15 is induced, It is possible to induce the emission of the far-infrared rays that fit.

In addition, the present invention minimizes the external transmission of the impact and noise caused by the collision between the artificial stone 15 by inserting the damper member 26 in the interior of the water quality improvement chamber 20, and from the external impact ceramic The effect of protecting the partitions 24 and the artificial stones 15 is greatly improved in quiet operation and durability.

In addition, according to the present invention, when the water pipe 10 is mounted to activate water, the water quality is effectively improved by maximizing the activation ratio of water per unit area or unit volume of a limited size.

As such, according to the present invention, it is possible to promote the activation of water at a small size, supply weak alkaline water rich in minerals, minimize the amount of residual chlorine, and effectively prevent rust and scale formation in the pipe due to the surfactant activity. Effect is obtained.

Claims (8)

In a water purifier having a water quality improvement chamber in which an artificial water pump is installed in a water pipe, the inlet is formed at the lower side of the water quality improvement chamber by placing the water pump at a lower side of the water quality improvement chamber. And, by forming the discharge port on the upper side of the ceramic water repellent, characterized in that the smooth flow and impact of the artificial stone in the water quality improvement room by reverse the action force according to the flow resistance of the water applied to the artificial stone and the direction of gravity of the artificial stone . The ceramic bow according to claim 1, wherein the water quality improvement chamber is configured to mount a ceramic partition wall made of various functional materials in the interior of the outer container of the water drawer to induce friction and collision with the artificial stone and to achieve increased emission of far infrared rays. Handwriting. 3. The ceramic water repellent according to claim 2, wherein a damper member is inserted between the outer cylinder of the water repellent and the ceramic partition to cushion external shocks and impacts and noises of artificial stones. According to claim 3, wherein the damper member is made of a synthetic plastic material excellent in cushioning function, the outer diameter is matched to the inner diameter of the outer cylinder of the water-repellent, the inner diameter is coupled to match the outer diameter of the ceramic partition wall Ceramic water dispenser. According to any one of claims 1 to 4, wherein the ceramic bulkhead, tourmaline, ganban stone, silicon dioxide, etc. can be used, and the components can be configured differently according to the purpose of use, such as household, agricultural, industrial, etc. Ceramic water dispenser. The ceramic bow according to any one of claims 1 to 4, wherein upper and lower caps are connected to upper and lower sides of the water quality improvement chamber through a mesh member and sealing gaskets, and connected to a water pipe through the upper and lower caps. Handwriting. The method of claim 6, wherein the upper and lower caps are made of various sizes of the screw in advance so as to be screwed to each of the various diameters of the water pipe is a configuration that can be easily mounted on the existing water pipe by exchanging the cap only Ceramic water dispenser. The top and bottom caps according to any one of claims 1 to 4, wherein the upper and lower caps are made of water in the outer container of the water container by the same inlet diameter of the cap side through which the water flows into the outer container and the outlet diameter of the cap side exiting the outer container is the same. Ceramic water dispenser, characterized in that to minimize the hydraulic pressure loss due to passing through the interior.