KR970003570Y1 - Water clarifier - Google Patents

Abstract

None.

Description

water purifier

1 is an exploded perspective view of the present invention.

Figure 2 is a longitudinal cross-sectional view of the subject innovation.

* Explanation of symbols for main parts of the drawings

1: housing 2: first filtration tube

3: second filtration tube 4: ceramic filter

5: second inner cylinder 6, 16: holder

7: copper (Cu), zinc (Zn) alloy granules 8: calcium sulfite (CaSo3)

9, 15: Activated Coconut Shell

10: water pipe 11: feed water inlet

12,13: space part 14: second inner cylinder

17 socket 18 lower cap

19: discharge pipe 51, 141: inlet hole

61, 161: discharge hole

The present invention relates to a water purifier for purifying various impurities such as heavy metals, organic matter and bacteria contained in water to supply drinking water, as well as clean and clean water for living, and in particular, by utilizing a complex and multi-step water purification means. The present invention relates to a water purifier capable of maximizing the water purification efficiency.

In general, the feed water supplied from the tap water contains various harmful elements.

For example, various heavy metals and organic compounds resulting from water pollution caused by industrial discharge of industrial wastewater and excessive use of synthetic detergents in general households, odor of dosing during filtration or purification treatment at source, and deterioration of water supply facilities. And greenery generated during the water-transmission process.

Purifying means for obtaining clean and clean water from the source water containing these various harmful elements are mainly developed and used such as electrolysis method, coagulant injection method, UV radiation chamber method, ion exchange method, osmosis and reverse osmosis method. have.

However, in the above-described water purification apparatus, a large water tank having a large volume and volume is indispensably required, and the components are complicated, and the water purification time per unit time is limited to a small amount as well as water purification time. As an effective means of supplying purified water to supply a large amount of drinking water and daily water, such as excessive demand, it was not possible to meet the expectations.

In addition, since the water purifying device is configured and provided separately from the water supply hydrant (water tapping), there is a problem in the installation due to the limitation of the installation location, and a separate water pipe for resupplying raw water to the water purifying device when the purified water is used up The water supply to the water purifier or through the use of a separate fresh water container was accompanied by the hassle of having to be dehydrated daily, which in turn implies a huge disadvantage of efficiency. As another means of improving the drawback, the water purifying apparatus includes a conventional general ceramic filter or other filtration members such as activated carbon in a filtration case that can be directly connected to a water supply (water tap). It is also well known that a method has been developed that allows for direct purification of the source water.

However, many problems are also scattered in the above system.

In other words, the water purifier can be installed directly in the tap water to achieve miniaturization and to satisfy the water purification amount and water purifying time per unit time, but the high pressure water pressure and the high speed flow rate are in conflict with the direct supply of raw water from the tap water. The filter member, which is an independent entity, was insufficient to remove and purify the various harmful elements contained in the feed water at once.

The present invention aims at eliminating all the drawbacks of the conventional water purifying apparatus as described above, and providing a water purifier with excellent performance which greatly improves the water purification efficiency by the miniaturization of the apparatus and the multi-stage water purifying means.

As a characteristic element of the present invention for achieving the above object, a second inner cylinder in which a ceramic filter is embedded in a first filtration tube and copper, zinc alloy granules, calcium sulfite and activated carbon are contained in the inner hollow portion of the ceramic filter is constituted. It is designed to be able to perform complex multistage water purification.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing the entire configuration of the present invention, Figure 2 is a combined longitudinal cross-sectional view of the present invention.

As shown in the illustrative example, the present invention assembles the first filtration tube 2 and the second filtration tube 3 on an upper portion of the housing 1 in which a feed water inlet 11 is formed on one side and coupled with a water tap (not shown). The basic structure is assembled by screwing means so that it can be disassembled.

In the first filtration tube (2), the inside is a hollow body, and a ceramic filter (4) containing silver (Ag) and copper (Cu) in the hollow part 41 of the ceramic filter (4). The first inner cylinder 5 containing zinc (Zn) -containing granules (7), calcium sulfite (CaSO3) (8), and activated carbon (9) in combination is housed concentrically by the holder (6). It is.

The ceramic filter 4 is a mixture of silver (Ag) having a purity of 99.99% on the inner and outer walls thereof, and in order to be able to sterilize various bacteria such as bacteria and E. coli almost completely. The size of is preferably about 0.2μ.

The copper + zinc alloy granules 7 have a suitable compounding ratio of about 40:60 and a particle size of about 0.2 mm to Φ 0.2 mm.

The calcium sulfite 8 preferably has a size of 1.5 mm to Φ 1 mm, and the activated carbon 9 is preferably about 40 to 50 mesh.

In the case where the holder 6 supporting the ceramic filter 4 and the first inner cylinder 5 is installed in the housing 1, the spaces 12 and 13 on both sides of the housing 1 communicate with each other. The lower part of the holder 6 is assembled to the water flow pipe 10 having the water flow passage 101 so as to be assembled and disassembled by screwing means.

On the other hand, in the second filtration tube (3), a radial inlet hole (141) is drilled in the upper surface and the second inner cylinder (14) in which another activated carbon (Activated Coconut Shell) 15 is accommodated therein. 16) is built in, standing supported by.

The holder 16 is assembled to the rotating material socket 17 in the center of the space 13 of the housing 1 so that the lower part thereof can be assembled and disassembled by screwing means, and the socket 17 is connected to the housing. (1) It is comprised by screwing means to the lower cap 18 installed so that rotation was possible in the lower part.

In addition, the lower cap 18 is configured to variably adjust the discharge direction of the purified water by rotating the lower cap 18 is installed on the lower side of the purified water discharge pipe 19.

In the drawing, reference numeral 20 denotes a packing washer, 30 denotes a packing, and 40, 60 and 50, 70 denote copper, zinc alloy granules (7) calcium sulfite (8) activated carbon (9) and a first inner cylinder (5). The activated carbon 15 is an outflow prevention member such as a cotton or a sponge to prevent the outflow of the second inner cylinder 14 to the outside, and 51 denotes a first inner cylinder having purified water purified primarily from the ceramic filter 4. 5) is an inflow hole that can flow into the water, 61 and 161 are the purified water discharge holes from the first inner cylinder (5) and the second inner cylinder (14), 80 is the socket (17) and the lower pin (18) and O-ring for airtightness at connection part of, and 181 shows the flow path where final water can be discharged

Referring to the effect of the present invention with such a configuration as follows.

First, when the supply source water is introduced after connecting the supply source inlet 11 of the subject innovation housing 1, the supply source water introduced into the space portion 12 of the housing 1 ceramic filter (4) As it passes through, the impurities contained in the feed water are primarily purified.

In the general refining process, the ceramic filter 4 has a high purity of 99.99% pure silver on the inner and outer walls thereof, and is thermally treated. Thus, a very small amount of silver ions (10 to 20 ppb) is released to the source water. Various bacteria such as Escherichia coli and bacteria, such as pathogenic microorganisms (bacteria such as typhoid fever, dysentery and cholera) and unpleasant taste and smell in water can be removed, and various organic substances, suspended substances and heavy metal components in ionic state , Green water will be filtered.

Thereafter, the primary purified water purified in the course of passing through the ceramic filter 4 is introduced into the first inner cylinder 5 through the inlet 51 of the upper portion of the first inner cylinder 5, Unrefined elements, which may arise from direct and continuous high-speed, high-pressure inflow of raw water from the tap, will be refined again.

That is, the purified water primarily purified by the ceramic filter 4 passes through the first inner cylinder 5 in which copper, zinc alloy granules 7, calcium sulfite (8), activated carbon (9), and the like are mixed and accommodated. In the process. Unrefined urea and heavy metals such as dissolved metals such as nitrate (HNO3), lead (Pb), mercury (Hg), cerium, and dissolved metals are removed, and chlorine (C12) and THM'S materials, PCB, PAH, To E. Organic compounds such as TCE, toluene and pesticides are adsorbed and removed.

In addition to the removal of the heavy metals and organic compounds, the components beneficial to the human body, such as magnesium (Mg), calcium (Ca), boron (B), radon (Rn), and the like, are eluted in water. The water quality can be formed to an appropriate acidity to increase the amount of dissolved oxygen in the purified water.

In this way, the secondary water purified again is guided to the flow channel 101 and flows into the space 13 of the housing 1 in which the second filtration tube 3 is installed.

Thereafter, the secondary water is introduced into the second inner cylinder 14 through the radial inlet hole 141 on the upper portion of the second inner cylinder 14, thereby resulting in the final purification of the third.

In the process of passing the purified water having a tendency of soft water, through the activated carbon 15 contained in the second inner cylinder 14, the unrefined elements contained in the secondary water, that is, free chlorine, phenols, organic matter, and radioactivity. Substances, carcinogens, odors, pigments, etc. are finally removed by adsorption so that ultrapure water of ultrapure water can be discharged and supplied through the discharge pipe 19.

As described above, according to the present invention water purifier, the water supply from the tap water is a ceramic filter 4; A first inner cylinder 5 containing copper, zinc alloy granules 7, calcium sulfite (8), activated carbon (9) and the like; In the process of sequentially passing through the second inner cylinder 14 containing another activated carbon (15), there is an advantage that can provide a clear, clean and mineral-rich living bottled water in a step-by-step and complex purification, ionization, There is an extraordinary effect such that a significant improvement in water purification efficiency is expected.

Claims (1)

Flowing water flow path 101 formed on both side spaces 12 and 13 of the housing 1 having a feed source inlet 11 at one side and a first filtration tube 2 at the top thereof with a second filtration tube 3. Configured to be in communication with the tube 10; In one side space portion 12, a hollow ceramic filter 4 in which silver (Ag) is blended and an inner hollow portion 41 of the ceramic filter 4 are formed in copper (Cu), zinc ( Zn) alloy granules (7), calcium sulfite (CaSo3) (8) and activated carbon (Activated Coconut Shell) (9) is compounded and the first inner cylinder (5) in which a plurality of inlet holes (51) are perforated The outlet 6 is formed concentrically with the ceramic filter 4 in the holder 6, and the lower part of the holder 6 is assembled and disassembled to the water pipe 10 so as to be coupled to the other side. In the space 13, a second inner space is installed in a holder 16 in which an outlet hole 161 is formed, and an activated carbon shell 15 is accommodated therein and a plurality of inlet holes 141 are perforated therein. The cylinder 14 is internally constructed, but the holder 16 is assembled and disassembled so as to be assembled and disassembled in a rotatable socket 17 connected to the lower cap 18 having the discharge pipe 19 under the housing 1. Characterized by Purifier.