KR101509015B1 - Industrial water furifier using superfine fibers - Google Patents

Abstract

The present invention provides an industrial water purifier using a superfine fiber filter. When a superfine fiber filter is backwashed by adding high pressure air and water in a housing of a water purifier, the overall parts of the superfine fiber filter are evenly washed so that the superfine fiber filter may be semi-permanently used and water always purified at a particular or higher level may be provided. The industrial water purifier according to the present invention comprises: a housing including a housing body having a cylindrical shape, a cover coupled with an upper part of the housing body, an underground water feeding hole formed in the cover, and a purified water discharging hole and an air feeding hole formed in a lower part of the housing body; a backwashing sieve installed to be spaced apart at particular intervals from an inner wall surface of the housing body and having a cylindrical shape in which holes formed at regular intervals are uniformly distributed; a filter disposed in the backwashing sieve and having both ends respectively banded on a top end head having a disc-shaped top surface and a bottom end head having a through-hole in up and down directions; and a purified water/backwashed water discharging unit including a coupling unit formed in a bottom end unit thereof and disposed in the through-hole of the bottom end head, having holes uniformly distributed in a side surface thereof in an upper part of the coupling unit, equipped with a cylindrical discharging unit body having a closed top surface and with a mesh sieve disposed on the outer circumferential surface of the discharging unit body, coupled with the top end of the purified water discharging hole, and disposed in a superfine fibers of the filter.

Description

{Industrial water furifier using superfine fibers}

The present invention relates to an industrial water purifier, and more particularly, to an industrial water purifier which is capable of cleaning all portions of a filter uniformly while backing up a microfine filter installed inside a housing of a water purifier, To an industrial water purifier.

Generally, raw water that does not pass through the filter of a water purifier (water purifier) contains various impurities. When raw water that does not purify impurities is used as industrial water, for example, as a cooling water for producing plastic products, impurities are deposited And the performance of the heat exchanger is severely hampered. In addition, when the water is used as an irrigation water, damage to crops is caused.

Such industrial water purification equipment (water purifier) is a facility to supply water for industrial or industrial use. It is used for processing or manufacturing various products. It is used for cooling or washing, organic and inorganic pollutants contained in ground water, It is a facility to supply purified water by removing ionic materials including heavy metals. It is currently used in a wide range of fields and is being used in an increasingly widespread use.

A lot of technologies such as industrial water purification system (No. 876548) and public utility model 1998-69008 "industrial water purifier" have appeared on industrial water purification system (water purifier). However, since industrial water purifiers are mainly used in industrial sites where a lot of ground water is used, since the water quality of the ground water varies widely, it is necessary to frequently replace the filter installed in the housing of the water purifier in the poor water quality. There is a problem that the maintenance cost is considerably burdensome to the user because the service life is short.

In order to solve this problem, when foreign matters and contaminants contained in the raw water accumulate in the housing during the purification process, the water purification function is lowered. Therefore, the high pressure air and the water are automatically injected to perform back washing ), A water purifier having a backwash function, such as patent registration No. 912186, "backwashing device for water purifier filter", and utility model registration No. 159897, "water purifier with automatic backwash filter function", has appeared. However, since the water purifier having the backwash function that has appeared until now injects backwash water through the water outlet of the purified water when backwashing, only a part of the lower portion of the filter is cleaned, The cleaning function is deteriorated and the purification function is deteriorated. In the end, there is a problem that a high-priced filter should be replaced. In particular, in the case of a microfiber filter having a higher price than other filters, do.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a water purifier that is capable of uniformly filtering all the portions of a filter when the micro- The present invention is to provide an industrial water purifier that uses a microfiber filter that can be used semi-permanently and can always supply purified water above a predetermined level.

In order to solve the above problems, an industrial water purifier using a microfine filter according to the present invention comprises a cylindrical housing body, a lid to be fastened to the upper portion of the housing body, a ground water inlet formed in the lid, A water outlet formed in the housing and an air inlet; A backwash installed at regular intervals from the inner wall surface of the housing main body and having a cylindrical shape in which holes formed at regular intervals are uniformly distributed; A filter which is positioned inside the backwashing network and is composed of an upper end head having an upper face disk shape and a lower end head having a through hole formed in a vertical direction and made of microfibers having both ends bent; And a mesh network positioned on an outer circumferential surface of the ejector main body, the mesh network having a cylindrical upper end closed and an upper end formed with a hole distributed uniformly on a side of the upper end of the coupling part, And a water inlet and a water outlet. The water inlet is connected to the upper end of the water outlet and is located inside the microfibers of the filter. And the tip end of the air inlet is disposed at equal intervals between the outer circumferential surface of the reverse osmosis membrane and the inner wall surface of the housing main body.

Preferably, four air introducing ports are provided at equal intervals so that the tip ends of the air inlet are located between the housing main body and the back net. The two air inlet holes are equal in height to each other, So that the entirety of the filter is cleaned.

In the industrial water purifier according to the present invention having the above-described characteristics, the microfibers are restored to their original state due to the high-pressure backwash water supplied from the lower end of the housing to the inside of the backwash during backwashing, At this time, high-pressure air is injected into the entire housing through the backwashing installed from the bottom to the top of the housing, so that all parts of the filter are cleaned evenly, and the foreign substances and pollutants adhered to the microfibers are cleanly removed. It can be used, but it can always supply purified water above a certain level.

1A and 1B are perspective views showing a water purifier of the present invention.
2 is a sectional view of a water purifier according to the present invention.
FIG. 3 is a view showing an integer / reverse water ejector. FIG.
4 is a view showing a microfine filter used in the water purifier of the present invention.

The most significant technical feature of the industrial water purifier according to the present invention is that the backwash water is installed in the entire housing and the high pressure air and backwash water are used to wash all the parts of the filter evenly, The whole filter is cleaned every time, so that it is possible to supply purified water of constant quantity and quality at all times.

The industrial water purifier of the present invention comprises a housing 10, a reverse osmosis network 17 for discharging air installed inside the housing 10, a filter 20 and a filter 20 located inside the reverse osmosis network 17, And a water / water discharge unit 18 located inside the water / water discharge unit 18.

The housing 10 includes a housing main body 11 made of stainless steel and a lid 12 fastened to the upper portion of the housing main body 11, a ground water inlet 13 formed in the lid 12, (14) and an air inlet (15) formed in the lower part of the main body (11), and are fastened and fixed to the base plate. The water outlet 14 and the air inlet 15 may be provided on the bottom surface of the housing 10 but may be provided on the bottom surface of the housing main body 11.

The stationary net 17 has a plate-like member formed in a cylindrical shape and is spaced apart from the inner wall surface of the housing main body 11 by a predetermined distance. In the reverse net 17, So that the high pressure air supplied through the air inlet 15 during backwashing is introduced into the filter 20 through the holes formed in the backwashing pipe 17.

When the filter 20 is mounted on the water purifier, the filter 20 is positioned inside the backwashing pipe 17. The filter 20 has an upper end head 22 whose upper surface is a disk shape and a lower end head 23 having a through hole formed vertically Both ends of the microfibers 21 are each banded by a band 24 (see Fig. 4). The upper head 22 and the lower head 23 are made of a plastic material. The upper head 22 has a disk-shaped upper surface and a protruding portion formed at a lower portion thereof. And both ends of the microfibers 21 are bent by the bands 24 on the outer circumferential surface of the projecting portion of the upper head 22 and the bobbin-like outer circumferential surface of the lower end head 23, respectively, in the form of a bobbin .

The purified water / reverse water discharge unit 18 includes a cylindrical discharger main body 181 having a closed upper part, a fastening part 183 fixed to the lower end of the discharger main body 181, The mesh 182 is connected to the upper end of the water discharge port 14 of the housing and is positioned inside the microfibers 21 of the filter. The purified water flows into the main body 181 and the backwash of high pressure flows from the main body 181 to the outside of the mesh net 182 during backwashing.

The purified water / reverse water discharge unit 18 has a cylindrical discharger main body 181 having a coupling part 183 located at the lower end thereof located in the through hole of the lower end head 23 of the filter, And the mesh net 182 is located on the upper part of the fastening part 183 and the mesh net 182 having a fine hole like the sieve is positioned on the outer circumferential face of the ejector main body 181, The strands of the microfibers 21 are uniformly distributed in the ejector body 181 by the high pressure so as not to block the holes formed.

Four air inlet ports 15 are provided at equally spaced intervals so that the tip ends thereof are positioned between the housing main body 11 and the retro-net 17. The heights of the air inlet ports 15 may be the same, The height of the tip of the air inlet 15 is preferably set to be different. In other words, of the four air inlet ports 15, two of the air inlet ports 15 positioned opposite to each other are provided at the same height, and the other two air outlet ports 15 are provided at a higher height, Install differently. Of course, the number of the air inlet ports 15 is not necessarily limited to four, and the number of the air inlet ports 15 may be increased according to the size of the water purifier. In this case, .

Since the high-pressure air is blown out at different positions, the high-pressure backwash water is injected, and the microfibers 21, which have been spread out in a straight manner, It is possible to separate and clean foreign matter and contaminants which have been adsorbed on the microfiber (21), as well as effectively separate and clean foreign matters and contaminants adhered to the inside wall of the reverse osmosis membrane (17) have.

It is preferable to further provide a pressure gauge 16 on the lid 12 of the housing. If foreign substances and contaminants accumulate on the filter, the pressure inside the housing 10 rises. Every time the pressure gauge 16 measures and reaches a predetermined pressure, an alarm is sounded by the automatic control of the control panel (not shown) or the backwash is automatically performed.

When the groundwater (raw water) is introduced through the groundwater inlet 13, the upper part of the upper head 22 of the filter installed inside the housing 10 is pushed by the water pressure The microfiber 21 is squeezed so that the microfibers 21 of the filter fill the space between the water purification station 18 and the retrofit network 17 and the groundwater is passed through the filter microfibers 21 to the water / The purified water flows out through the hole formed in the discharger main body 181 of the discharge pipe 18 and into the discharger main body 181, and purified water is discharged through the purified water discharger 14. In this process, the foreign matter and pollutants contained in the groundwater are adsorbed to the microfiber 21.

If the constant time constant is used, the water purification function is gradually decreased due to the decrease of the water discharge amount from a certain moment. This is because a large amount of foreign matter and contaminants contained in the ground water (raw water) are adsorbed to the microfiber 21 of the filter, . When the control unit (not shown) detects a state in which the purified water is produced below the reference value as described above, an alarm is sounded to notify the manager, or the purified water is stopped and automatically switched to backwash (backwash).

When backwashing, the supply of groundwater (raw water) supplied through the groundwater inlet 13 is automatically stopped and when backwashing of high pressure (over 5 kg / cm 2) is input through the water outlet 14, The microfibers 21 pressed by the buoyancy force are unfolded and rise. At the same time, when high pressure (about 6 to 8 kg / cm 2) of air is injected into the air inlet 15, the air is introduced into the retro-net 17 through a hole formed in the retro-net 17, So that the foreign substances and contaminants attached thereto are separated and washed. The wastewater and the air to be cleaned are discharged through the ground water inlet 13 located at the upper end of the housing 10.

Through such backwashing, the filter 20 is restored to its original clean state and restored to its purified function. By operating this series of operations in parallel with the automatic control system, the filter can be used semi-permanently, The purified water can be supplied. At this time, the wastewater discharge valve at the upper portion of the housing 10 is closed, the groundwater supply valve is opened, and the reverse operation is performed at the time of backwash. The valves at the bottom are also the same.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and the technical scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: housing 11: housing body
12: Lid 13: Groundwater inlet
14: Water outlet 15: Air inlet
16: Pressure gauge 17:
18: water / reverse water discharger 181:
182: mesh net 183:
20: Filter 21: Microfiber
22: upper head 23: lower head
24: Band

Claims (5)

In industrial water purifiers using microfiber filters,
The water purifier includes:
A housing having a cylindrical main body, a lid to be fastened to the upper portion of the housing main body, a ground water inlet formed in the lid, and a water outlet and an air inlet formed at a lower portion of the housing main body;
A backwash installed at regular intervals from the inner wall surface of the housing main body and having a cylindrical shape in which holes formed at regular intervals are uniformly distributed;
A filter which is positioned inside the backwashing network and is formed by bending both ends of the microfibers on an upper end head having an upper surface in a disk shape and a lower end head having a through hole formed in a vertical direction;
And an upper portion of the fastening portion is formed to have a hole uniformly distributed on a side surface of the fastening portion and has a cylindrical upper end closed and a mesh network A purified / inverted water discharge unit connected to the upper end of the water outlet and positioned inside the microfiber of the filter;
And a tip end of the air inlet is provided between the outer circumferential surface of the stationary net and the inner wall surface of the housing main body so that the tip of the air inlet is located between the outer circumferential surface of the stationary net and the inner wall surface of the housing main body. Wherein the micro-filter is disposed at an interval
The method according to claim 1,
Wherein the air inlet is provided at four equal intervals so that the tip end thereof is positioned between the housing main body and the backwashing net.
3. The method of claim 2,
Wherein the four air inlets are the same in height and the air inlets disposed adjacent to each other are different in height from each other.
The method according to claim 1,
And a pressure gauge is further installed on the lid of the housing.
The method according to claim 1,
Wherein when the water purifier is backwashed, air is introduced through the air inlet while injecting backwash water through the water outlet, and the reverse water and air are discharged through the groundwater inlet. Industrial water purifiers using filters.

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