KR20190138717A - Water purifier for producing reduced water - Google Patents

Abstract

The present invention relates to a water purifier for reduced water comprising a purifying unit for filtering and purifying raw water, and a reduced water unit for generating alkali reduced water using tourmaline. The water purifier for reduced water comprises a backwashing unit for converting the flow of raw water and purified water in reverse and cleaning a water filter and generates alkali reduced water by processing tourmaline in a ceramic ball form and allowing tourmaline to come in contact with purified water to generate alkali reduced water, thereby purifying water in a reservoir to be clean, cleaning the water filter by itself and converting purified water into alkali reduced water to provide healthy water.

Description

Reduced water purifier {Water purifier for producing reduced water}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purification device for purifying water, and more particularly, to a reduced water purification device having a cleaning function capable of converting water into alkaline reduced water along with purified water and cleaning the water filter by itself.

It is widely known that excessive free radicals are harmful to the human body, and methods of using tourmaline to suppress them have been studied. Tourmaline, a type of tourmaline, is known to break down and alkalize free radicals to promote blood circulation and activate cells and gastrointestinal motility.

When tourmaline comes in contact with water, it causes electrolysis and releases negative ions, making the water slightly alkaline. Based on these characteristics, water purifiers using tourmaline have been developed.

As an example, Korean Patent No. 10-0944185 discloses a water purifier using tourmaline as a mineral powder and used for ionic activity of water. According to Korean Patent No. 10-0647036, tourmaline is viewed. Disclosed is an apparatus for producing alkali reduced water by making it into water and containing it in water.

On the other hand, large water tanks (water tanks) used in buildings or apartments have a high possibility of contamination due to bacteria or foreign substances, and thus, there is a high necessity to install water purifiers. However, maintenance of water purifiers requires a lot of manpower and cost, and in practice, water purifiers are not often installed. Therefore, it is difficult to supply clean and safe water simply by installing a water purifier, and the water purifier must be easily maintained.

Therefore, there is a need for the development of an improved water purification device capable of cleanly purifying raw water, cleaning itself, and supplying healthy water such as alkaline reduced water.

Patent Document 1: Korean Patent No. 10-0944185 Patent Document 2: Korea Patent Registration No. 10-0647036

The present invention is to improve the above problems in the conventional water purification device, the object of the present invention is that the structure can be purified water of the water of the reservoir clean, can clean the water filter by itself, the purified water is alkaline reduced water It is to provide a reduced water purification device that can be converted to provide healthy water.

The reduced water purifying apparatus of the present invention for solving the above technical problem comprises a purified water portion for filtering and filtering the raw water, and a reduced water portion for generating alkaline reduced water using tourmaline.

The water purification unit includes a housing having a raw water inlet for introducing raw water and a purified water outlet for discharging purified water; A water filter installed in the housing to filter and purify the raw water; And a backwash unit for cleaning the water filter by inverting the flow of the raw water and the purified water.

In addition, the backwashing unit, the suction pipe for sucking the purified water in the reverse direction through the water filter; A suction nozzle attached to the suction pipe; A suction pipe driving motor which rotates the suction pipe while moving up and down; And a washing water outlet for discharging the washing water sucked through the suction pipe.

The backwashing unit may further include a plurality of cleaning brushes installed in the axial direction in the suction pipe.

The cleaning brush is disposed in the suction pipe alternately with the nozzles and at regular intervals between the cleaning brushes, and is preferably formed of a fiber or a metal material.

The backwashing unit further includes a differential pressure sensor for measuring a differential pressure between the raw water inlet and the purified water outlet, and based on the differential pressure measured by the differential pressure sensor, the backwashing unit preferably starts cleaning.

On the other hand, the reduced water unit, the housing including a purified water inlet through which the purified water supplied from the purified water inlet and reduced water discharged to discharge the reduced water; An insulating grating plate installed on the upper and lower portions of the housing, the ceramic ball laminate having a tourmaline processed in a ceramic ball shape and laminated between the grating plates; A vortex fan installed at the bottom of the housing and configured to generate the vortex by rotating the purified water; It is installed under the housing, and comprises a vortex fan drive motor for driving the vortex fan.

The ceramic ball is formed by processing tourmaline tourmaline, the tourmaline tourmaline is pulverized and kneaded with sawdust, and then fired by burning the sawdust, it is preferable to have a porosity.

In addition, the reduced water purification apparatus of the present invention may further include an oxygen generating unit for supplying oxygen to the reduced water to generate oxygen by introducing external air.

The reduced water portion allows oxygen supplied from the oxygen generator to pass between the ceramic ball laminates to simultaneously generate alkaline reduced water while mixing purified water from the purified water device and oxygen from the oxygen generator.

According to the reduced water purification apparatus of the present invention, the following effects can be expected.

First, since the water purifier includes a backwash unit, it is possible to clean the water filter by itself, so that maintenance of the water purifier is easy.

Second, the backwashing unit uses the nozzle and the brush at the same time to clean the water filter, thereby further improving the cleaning effect.

Third, by installing a differential pressure sensor in the water purification device and using it for backwashing the filter, the cleaning efficiency is increased and automatic cleaning is possible.

Fourth, by using a porous ceramic ball formed of tourmaline tourmaline, by converting the purified water into a vortex form and contacting the ceramic ball, it is possible to increase the production efficiency of alkaline reduced water.

Fifth, by mixing the purified water and oxygen using the pores of the ceramic ball laminate of the reduced water portion, the amount of dissolved oxygen can be increased and at the same time it can promote the generation of alkaline reduced water.

1 is a block diagram schematically showing the configuration of a reduced water purification apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram schematically showing the configuration of the water purification unit in the reduced water purification apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating an operation of a backwashing unit in the integer part of FIG. 2.
4 is a cross-sectional view schematically illustrating an arrangement structure of a nozzle and a brush installed in the backwashing unit in the water purification part of FIG. 2.
Figure 5 is a block diagram schematically showing the configuration of the reduced water portion in the reduced water purification apparatus according to an embodiment of the present invention.
Figure 6 is a perspective view schematically showing the configuration of the vortex fan in the reduced water purification apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a schematic block diagram showing the configuration of a reduced water purification apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the reduced water purification apparatus of the present invention includes a purified water unit 100 for filtering and filtering raw water, and a reduced water unit 200 for generating alkaline reduced water using tourmaline. In addition, it may further include an oxygen generating unit 300 for generating oxygen to increase the dissolved oxygen amount of purified water.

First, the water purifying unit 100 will be described with reference to FIG. 2. The water purification unit 100 of the present invention includes a housing 110, a water filter 120, and backwash units 131 to 138.

The housing 110 includes a raw water inlet 111 for introducing raw water and a purified water outlet 112 for discharging purified water. The water filter 120 is cylindrically installed in the housing 110 to filter the raw water from the raw water inlet 111 to purify the water. The water filter 120 may be formed by stacking a polyolefin nonwoven fabric, a polyester nonwoven fabric, a polyamide nonwoven fabric, or the like, and known water filters may be used.

The purified water unit 100 of the present invention includes a backwash unit capable of cleaning the purified water filter 120 by itself. Back washing is to reverse the flow of raw water and purified water, and to carry out cleaning by sucking and discharging contaminants or impurities attached to the filter with the nozzle.

The backwashing unit of the present invention includes a suction pipe 131, a suction nozzle 132, a washing water discharge port 134, and a suction pipe driving motor 136.

The suction pipe 131 sucks the purified water in the reverse direction through the surface of the water filter 120. A suction nozzle 132 is attached to the suction pipe 131 to suck at a high pressure. The washing water sucked into the suction pipe 131 (water containing contaminants detached from the filter) is discharged to the washing water discharge port 134 through the discharge port 133 of the suction pipe 131. The washing water discharge port 134 is provided with a washing water discharge valve 135 capable of turning on / off a discharge operation.

The suction pipe 131 rotates while moving up and down about the drive shaft 137 by the drive motor 136. As the suction pipe 131 rotates while moving up and down, the nozzle 132 can be evenly positioned on the entire surface of the water filter 120. Thus, backwash suction can be attempted for all surfaces of the water filter 120.

The operation of the backwashing unit of the present invention will be described with reference to FIG. Arrows in FIG. 3 indicate the flow of the washing water.

First, when the discharge valve 135 attached to the washing water outlet 134 is opened, a pressure difference is generated between the inside and the outside of the water filter 120 due to the external atmospheric pressure, which causes a high speed into the suction pipe 131 through the nozzle 132. After the washing water flows in, the washing water flows out through the discharge port 133 above the suction pipe 131 to the washing water outlet 134.

In the backwashing unit of the present invention, by installing the nozzle 132 having a small cross section close to the surface of the water filter 120, the suction force can be increased, and contaminants on the filter surface can be removed. In addition, by sucking the purified water through the nozzle 132, it is possible to reduce the amount of purified water consumed for backwashing.

Meanwhile, the backwashing unit of the present invention may further include a cleaning brush 138 to increase the cleaning effect of the water filter 120. A plurality of cleaning brushes 138 are installed in the suction pipe 131 in the axial direction, and the ends of the brushes 138 contact the surface of the water filter 120.

The cleaning brush 138 rotates while moving up and down in conjunction with the suction pipe 131, thereby scraping off contaminants and impurities on the surface of the water filter 120. At this time, the cleaning brush 138 is preferably disposed in the suction pipe 131 alternately with the nozzle 132, it is preferable to be provided at regular intervals between the brushes 138 can reduce the resistance by water Do.

That is, as shown in FIG. 4, it is preferable that the cleaning brush 138 and the nozzle 132 are alternately provided at regular intervals. 4 is a cross-sectional view of the suction pipe 132 viewed from above. The intervals and number of installation of the cleaning brush 138 and the nozzle 132 are not limited as shown in FIG. 4, and can be appropriately added or decreased in consideration of raw water, characteristics of the filter, and the like.

The cleaning brush 138 is preferably formed of a fiber or metal material, and preferably has a characteristic of bending to some extent by gravity. This is because the rotation of the suction pipe 131 can reduce damage due to excessive friction with the surface of the water filter 120 while the brush 138 is leveled by the centrifugal force.

On the other hand, the backwashing unit of the present invention may further include a differential pressure sensor (not shown) for measuring the differential pressure between the raw water inlet 111 and the purified water outlet 112,

When a large number of contaminants or impurities are adsorbed on the water filter 120, the throughput of the purified water passing through the water filter decreases, and the pressure difference between the raw water and the purified water increases. The differential pressure sensor measures such a differential pressure, and when the differential pressure becomes equal to or more than a predetermined value, the backwash unit starts the cleaning operation. When the driving operation of the suction pipe 131 by the driving motor 136 and the opening / closing operation of the valve 135 of the washing water outlet 134 are interlocked with the differential pressure sensor described above, the differential pressure sensor turns on / off the operation of the reverse cleaning unit. Can function as a switch to turn off.

Next, the reduced water unit 200 will be described with reference to FIG. 5.

The reduced water part 200 of the present invention includes a housing 210, a ceramic ball stack 220, a vortex fan 230, and a vortex fan driving motor 240.

The housing 210 includes a purified water inlet 211 for introducing purified water supplied from the purified water unit 100 and a reduced water outlet 212 for discharging the reduced water. In addition, when connected to the oxygen generator 300 to be described later, it may also include an oxygen inlet 213 for receiving oxygen.

The ceramic ball stack 220 is disposed in the housing 210. The ceramic ball laminate 220 is formed by stacking ceramic balls 223 processed with tourmaline between the isolation gratings 221 and 222 installed at upper and lower portions of the housing 210. The grid plates 221 and 222 are configured in a mesh form, and separate the ceramic balls 223 and the vortex fan 230, and prevent the ceramic balls 223 from being lost to the outside of the housing 210.

The ceramic ball 223 may be formed by processing tourmaline tourmaline. That is, the ceramic ball 223 is pulverized tourmaline tourmaline in 325 mesh (mesh), kneading the crushed tourmaline powder 80% and sawdust 20% together to form a ball shape of 5mm diameter, and then 8 degrees at 600 degrees Celsius Can be obtained by firing. Since sawdust is burned by firing, a plurality of pores are formed in the ceramic ball 223. In this way, the tourmaline tourmaline is formed of a ceramic ball 223 having a porosity, and then contacted with purified water generates alkaline reduced water.

When water is vortexed at a high pressure, the reduction action by tourmaline occurs more actively. Therefore, the reduced water unit 200 of the present invention is further provided with a vortex fan 230 for generating a vortex by rotating the purified water and a vortex fan driving motor 240 for driving the vortex. As an example of the vortex fan 230, a vortex fan having three rotary vanes is illustrated in FIG. 6, but is not limited thereto. The vortex fan 230 is preferably rotated at 30-40 rpm for proper vortex formation.

The purified water supplied through the purified water inlet 211 is changed into alkaline reduced water while passing through the ceramic ball stack 220 in the vortex form by the vortex fan 230, and is discharged through the reduced water outlet 212.

Next, the oxygen generator 300 will be described.

The oxygen generator 300 may generate oxygen by supplying outside air and supply the oxygen to the reduced water unit 200 to increase the dissolved oxygen amount of the finally discharged reduced water. The oxygen generator 300 may be implemented by using known oxygen generators, and in the present embodiment, an oxygen generator of a method of injecting and compressing external air is used.

The characteristic of the present invention in oxygen generation is that the supplied oxygen passes between the ceramic ball stack 220 of the reduced water portion 200. That is, when oxygen supplied from the oxygen generator 300 is introduced into the ceramic ball stack 220, the oxygen collides with the ceramic ball 223 and passes through the micro voids between the ceramic balls 223. Accordingly, oxygen is bubbled finely, so that the mixing of purified water and oxygen is facilitated, and the production of alkaline reduced water is also promoted.

As such, in the present invention, by using the pores of the ceramic ball laminate 220 to smoothly mix the purified water and oxygen without using a separate mixer, the amount of dissolved oxygen can be increased, and at the same time, the production of alkaline reduced water can be promoted. have.

In the above embodiment, the case of purifying water in a large reservoir tank is described, but the reduced water purification apparatus of the present invention is applicable to a small scale of purified water, and may be variously used in the technical field related to the water purification apparatus.

Although the present invention has been described with reference to the above-described preferred embodiments and the accompanying drawings, it is also possible to constitute different embodiments within the spirit and scope of the invention. Therefore, the scope of the present invention is defined by the appended claims, and should be construed as not limited to the specific embodiments described herein.

100 Water Purification Unit 110 Water Purification Unit Housing
111 Raw water inlet 112 Water purification outlet
120 Water Filter 131 Suction Line
132 Suction Nozzle 133 Suction Line Outlet
134 Rinsing water outlet 135 Rinsing water drain valve
136 Suction tube drive motor 137 Drive shaft
138 Cleaning Brush 200 Reduced Water Part
210 Reduced water housing 211 Water purification inlet
212 Reduced water outlet 220 Ceramic ball laminate
221, 222 Grating 223 Ceramic Balls
230 Vortex Fan 240 Vortex Fan Drive Motor
300 oxygen generator

Claims (11)

In a reduced water purification device comprising a purified water portion for filtering and filtering raw water and a reduced water portion for generating alkaline reduced water using tourmaline,
The water purification unit
A housing having a raw water inlet for introducing raw water and a purified water outlet for discharging purified water;
A water filter installed in the housing to filter and purify the raw water; And
And a backwash unit for washing the purified water filter by inverting the flow of the raw water and purified water. The method according to claim 1,
The backwash unit is
A suction pipe for sucking purified water through the water filter in a reverse direction;
A suction nozzle attached to the suction pipe;
A suction pipe driving motor which rotates the suction pipe while moving up and down; And
Reducing water purification apparatus comprising a washing water outlet for discharging the washing water sucked through the suction pipe. The method according to claim 2,
The backwashing unit further includes a plurality of cleaning brushes installed in the axial direction in the suction pipe. The method according to claim 3,
And the cleaning brush is disposed in the suction pipe alternately with the nozzle and at regular intervals between the plurality of cleaning brushes. The method according to claim 3,
The cleaning brush is reduced water purifier, characterized in that made of fiber or metal material. The method according to claim 2,
The backwashing unit further includes a differential pressure sensor for measuring a differential pressure between the raw water inlet and the purified water outlet,
And the backwashing unit starts cleaning based on the differential pressure measured by the differential pressure sensor. The method according to claim 1,
The reduced water portion
A housing including a purified water inlet through which the purified water supplied from the purified water inlet flows and a reduced water outlet for discharging the reduced reduced water;
An insulating grating plate installed at upper and lower portions of the housing, the ceramic ball laminate having a tourmaline processed in a ceramic ball shape and laminated between the grating plates;
A vortex fan installed at the bottom of the housing and configured to generate the vortex by rotating the purified water;
The reduced water purification apparatus is installed in the lower portion of the housing, comprising a vortex fan drive motor for driving the vortex fan. The method according to claim 7,
The ceramic ball is reduced water purification apparatus, characterized in that formed by processing tourmaline tourmaline. The method according to claim 8,
The ceramic ball is pulverized tourmaline tourmaline and kneaded together with sawdust, and then fired by burning the sawdust, reduced water purification apparatus characterized in that it has a porosity. The method according to claim 1,
Reduced water purifying apparatus, characterized in that it further comprises an oxygen generating unit for supplying oxygen to the reduced water to generate oxygen by introducing external air. The method according to claim 10,
The reduced water portion
Reduced water purifying apparatus characterized by passing oxygen supplied from the oxygen generating section between the ceramic ball laminates, and simultaneously producing alkaline reduced water while mixing purified water from the water purifying apparatus and oxygen from the oxygen generator.

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