KR100664374B1 - Waterways purification apparatus for seramic ball - Google Patents

Abstract

A water purifying apparatus by using ceramic balls is provided to discharge easily the contaminant such as sludge and the like attached on the ceramic balls and the partition within the housing. An inlet is formed at the lower portion of the water purifying apparatus so that the water is inputted. A housing with a predetermined size is formed at the upper portion of the water purifying apparatus and has an outlet(120) for discharging the inputted water. A water treatment member(140) is partitioned by plural partitions(130) having the punched filtration holes. A permanent magnet(150) is installed at a side of the water treatment member. A water treatment supply member(310) is communicated with the water treatment member.

Description

Water purification apparatus for seramic ball

1 is an exemplary view for showing the interior of the conventional purification device

Figure 2 is an exemplary view for showing the inside of the purifying apparatus according to the present invention

Figure 3 is a partially cutaway perspective view showing the separation plate in the purifying apparatus according to the present invention

4 is an exemplary view showing a state of discharging contaminants inside the water treatment unit in the purification apparatus according to the present invention.

<Code Description of Main Parts of Drawing>

100 housing 110 inlet

120: outlet 130: bulkhead

131: filter hole 140: water treatment unit

200: ceramic ball 300: high pressure pump

310: washing water supply port 320: polluted water outlet

400: rotating table 410: rotating plate

411 through hole 412 brush

500: Sludge Suction Pump

The present invention relates to a purification device using a ceramic ball, and more particularly, when impurities are attached to the ceramic ball due to long-term use, it is automatically detached to maintain the water purification efficiency of the ceramic ball at the best state, so that the water treatment is efficiently performed. The invention relates to a purification device to be achieved.

Conventionally, ceramic balls are widely used for purification equipment such as industrial water, agricultural water, and drinking water due to filtration function, far infrared ray emission function, or anion emission function. It is composed of (Zr2O3) and the like, and has far-infrared emission, deodorizing and sterilizing action.

Such ceramic balls are presented in Korean Patent Application No. 1988-8273 and Utility Model Registration Application No. 2003-32393. In particular, the conventional purification device using the ceramic ball as described above has a purification device as shown in FIG. The inlet 11 is formed on one side and the inlet 11 is filled with the ceramic ball 20 inside the housing 10 in which the outlet 12 is formed, and the permanent magnet 30 is installed to flow into the inlet 11. As water passes between the ceramic balls 20, a reaction occurs, and far infrared emission and sterilization deodorization are performed.

However, when used for a long time, contaminants are attached to the surface of the ceramic ball 20 so that far infrared emission and purification are not efficiently performed, and thus the function of the purification device cannot be properly performed. Therefore, the water purification function should be restored by periodically detaching the contaminants attached to the ceramic ball 20. However, since the apparatus has to be disassembled and the contaminants attached to each ceramic ball 20 must be detached, a lot of work time is required. There is a problem, which is inefficient.

Therefore, the present invention has been made to solve the above problems of the prior art, the object of the present invention is to easily remove the contaminants attached to the ceramic ball in the housing without disassembly of the device to restore the purification function.

Configuration of the present invention for achieving the above object is the lower inlet is formed in the upper and the outlet is formed in the housing; A ceramic ball filled in the housing; A purifier comprising a permanent magnet installed in the water treatment unit, the purifying device comprising: a partition wall having a filter hole for dividing the inside of the housing into a water treatment unit having a predetermined size; A ceramic ball filled with a predetermined volume inside the water treatment unit; A high pressure pump provided at one side of the housing to administer high pressure washing water; A washing water supply port connected to the upper one side of the high pressure pump and the housing so as to communicate with the water treatment unit; Contaminated water discharge port which is drawn out of the housing from one side of the water treatment unit;

In addition, the present invention is a rotating table is installed from the upper portion of the housing to a predetermined height inside the water treatment unit, the end of the rotating table is attached to the upper and lower sides of the brush is formed a plurality of holes of a predetermined size is coupled to the lifting plate can be elevated It features.

In addition, the contaminated water discharge port of the present invention is characterized in that the sludge suction pump for collecting the sludge is further provided.

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

Figure 2 is an exemplary view for showing the interior of the purifying apparatus according to the present invention, Figure 3 is a partially cutaway perspective view showing the separation plate in the purifying apparatus according to the present invention, Figure 4 is a purifying apparatus according to the present invention Exemplary diagram showing a state of discharging contaminants in the water treatment unit.

The lower portion of the purification apparatus of the present invention is provided with an inlet 110 through which water is introduced, and a housing 100 having a predetermined size having an outlet 120 through which the introduced water is discharged. The interior of the housing 100 is partitioned into a plurality of partitions 130 through which the filtration holes 131 are formed to form a water treatment unit 140. In the water treatment unit 140, a known ceramic ball 200 is formed. Inserted in approximately 50% to 80% volume to ensure space. One side of the water treatment unit 140 is installed a permanent magnet 150.

In addition, a water treatment supply port 310 is formed at an upper side of the housing 100 in communication with an internal water treatment unit 140, and at one side of the water treatment unit 140, contaminated water drawn out to the outside of the housing 100. The outlet 320 is formed. In this case, in order to prevent the ceramic ball 200 from being discharged together with the contaminated water, it is preferable to install a net 321 having a through hole of a predetermined size.

The outer side of the housing 100 is provided with a high-pressure pump 300 is connected to the water treatment supply port 310, the upper center of the housing 100 is provided with a rotating table 400 to be rotated by a separate rotating motor To the end of the rotating table 400, the rotating plate 410 as shown in Figure 3 is coupled, but the rotating plate 410 is in close contact with the partition wall 140 to enable the lifting and lowering of the rotating table 400 or Spaced at predetermined intervals. A plurality of through holes 411 of a predetermined size are formed in the rotation plate 410, and a plurality of brushes 412 are attached to the upper and lower directions.

In addition, by installing a separate sludge suction pump 500 in the polluted water outlet 320 of the housing 100, the sludge discharged through the polluted water outlet 320 is collected.

Therefore, when water is introduced through the inlet 110 formed in the lower portion of the purifier housing 100 of the present invention configured as described above, the water to the water treatment unit 140 through the filtration hole 131 of the partition 130. The water introduced while being discharged to the outlet 120 is changed to water having antimicrobial power due to the effect of the known ceramic ball 200, at the moment the ceramic ball 200 and water hit the ceramic ball 200 Due to the emitted electron (-electric) emission effect, when the electromagnetic wave is radiated, the water molecule (H₂O) splits into the hydroxide ion state, and then returns to the water molecule (H₂O) state. At this time, although a small amount, the electrolysis reaction occurs to generate hydrogen and oxygen, and the produced oxygen is very active, thereby changing to activated water.

The water, which was a huge cluster, absorbs electromagnetic waves, and the monomolecules and monomolecules are transformed into smaller clusters (5-6) than the original clusters, and the water is rapidly absorbed by the human body. It decomposes harmful substances in materials, prevents bad microbes from being inhabited, and is made of water with strong reducing power and excellent active oxygen scavenging ability. In addition, the permanent magnet 150 will give a big shock to the water momentarily enough to make a secondary role to make all these changes in the moment.

As the ceramic ball 200 of the water treatment unit 140 is raised and scattered by the water introduced into the housing 100 as described above, collisions occur between the ceramic balls 200, and fall down again by its own weight. During the collision, contaminants attached to the surface of the ceramic ball 200 are detached.

At this time, the swivel table 400 is positioned in contact with the partition wall 130 or spaced at a predetermined interval, and the rotating plate 410 rotating by the swivel table 400 rotates integrally, the rising of the ceramic ball 200 Contaminants are separated by the brush 412 at the bottom of the rotating plate 410. In addition, the brush 412 on the upper portion of the rotating plate 410 detaches the contaminants attached to the lower portion of the partition wall 130. Of course, the contaminants of the partition wall 130 may be separated by lowering the rotating plate 410 by a predetermined distance from the partition wall 130 so that the contaminants of the partition plate 130 may not be detached, and the water introduced therein may be a hole ( Ascending through 411, there is no problem with discharge to outlet 120.

As described above, when the contaminants of the ceramic ball 200 are removed, the activity and amount of activity of the ceramic ball 200 are increased, and the purification efficiency of water is improved by increasing the contact force with the surface of the ceramic ball 200, and the generation rate of far infrared rays is also increased. Is increased.

However, the contaminants detached from the ceramic ball 200 and the partition wall 130 still remain in the water treatment unit 140 to block the filtration holes 131 of the partition wall 130, thereby lowering the filtration efficiency. This again occurs a problem that is attached to the ceramic ball (200).

Therefore, the inlet 110 and the outlet 120 are blocked at predetermined intervals, and then the high pressure pump 300 is operated by a separate timer (not shown) or by an operator to operate the high pressure pump 300 as shown in FIG. 4. The water is supplied into the water treatment unit 140 through the washing water supply port 310.

When high-pressure water is introduced from the upper portion of the partition 130, contaminants such as sludge filtered under the filtration hole 131 are released by high pressure, and the sludge suction pump 500 is operated to operate the sludge suction pump 500. The water is discharged to the polluted water outlet 320 together with the pollutant to collect the sludge.

Therefore, by removing all of the contaminants in the housing 100, the fear of adhesion of the contaminants on the surface of the ceramic ball 200 is reduced, contaminants such as sludge remaining in the water treatment unit 140 is reduced, the function of the purification device This will be kept at its best.

As described above, the present invention can easily detach and discharge the contaminants such as the sludge attached to the ceramic ball and the partition wall inside the housing without disassembling the equipment, thereby maintaining the purification efficiency in the best state and reducing the cost for maintenance. There are advantages to it.

Claims (3)

A housing having an inlet formed at a lower portion thereof and an outlet formed at an upper portion thereof; A ceramic ball filled in the housing; In the purification device consisting of a permanent magnet installed in the water treatment unit, A partition wall formed with a filtration hole for dividing the inside of the housing into a water treatment part having a predetermined size; A ceramic ball filled with a predetermined volume inside the water treatment unit; A high pressure pump provided at one side of the housing to administer high pressure washing water; A washing water supply port connected to an upper side of the high pressure pump and a housing to communicate with the water treatment unit; Purifying apparatus using a ceramic ball, characterized in that consisting of; polluted water outlet which is drawn out of the housing from one side of the water treatment unit. The method of claim 1 Swivels are installed from the upper portion of the housing to a predetermined height inside the water treatment unit, and a ceramic ball is attached to the end of the swivel with a brush attached to upper and lower sides and a plurality of through holes of a predetermined size are coupled to allow the elevating plate to move up and down. Purification device using. The method according to claim 1 or 2, Purification apparatus using a ceramic ball, characterized in that the contaminated water discharge port is further provided with a sludge suction pump for collecting the sludge.

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