KR102143859B1 - Industrial-use water purification apparatus improved in purification efficiency and industrial water purification method using the apparatus - Google Patents

Abstract

The present invention relates to an industrial water purification device with improved purification efficiency and an industrial water purification method using the device, and in more detail, a body portion 100 and a plurality of +,-electrodes inside the body portion 100 The organic material adsorption unit 200 and the purification unit 400 are each configured, and a collection unit 300 is formed under the body 100 to achieve the original purpose of the purification device. While maintaining it as it is, after adsorbing the organic material contained in the industrial water injected into the electrode plate composed of the + and-electrodes, the adsorbed organic material can be easily treated, providing convenience in use. When passing through a UV lamp before moving industrial water from which organic substances have been separated to the pipe and mold side, the transfer time can be delayed so that efficient sterilization treatment can be performed, thereby increasing the efficiency of purification to remove scale, slime, and sludge. It is a useful invention that can extend the life of the mold and improve the quality of the product by minimizing it.

Description

Industrial-use water purification apparatus improved in purification efficiency and industrial water purification method using the apparatus}

The present invention relates to an industrial water purification device with improved purification efficiency, and an industrial water purification method using the device, and more specifically, to be filtered by electrolyzing organic substances contained in industrial water moving inside, This is a technology related to a purification apparatus for industrial water with improved purification efficiency that increases purification efficiency by increasing the area of photocatalytic action during purification, and a technology for purifying industrial water using the device.

Corrosion and fouling of molds and pipes, which are commonly used for industrial water, cause the working fluid (water) of cold and hot water to move inside the pipe for a long period of time, thereby accumulating organic substances and shortening the life of the mold due to scale, slime, and sludge. In addition, it is acting as the biggest factor in reducing the quality of injection molded products.

In addition, by preventing the flow of water in the mold pipe, the pump power for transporting water is increased, resulting in a decrease in production efficiency, as well as lowering the heat transfer efficiency in the injection molding machine and the mold, which must maintain a constant temperature, leading to a decrease in quality.

Meanwhile, in order to improve the above-described problems, in the prior art, a cleaning tool was introduced inside the mold pipe to clean the inside of the mold pipe to remove scale, etc., or by replacing the mold in which the internal pipe was corroded, the fundamental impeding factor could be solved. The method can be solved as a defect factor in the work, but there are drawbacks that involve time, money, and manpower.

In particular, due to the weight of the injection mold, cleaning cannot be performed frequently in a continuous process, and when chemicals are added, environmental pollution is increasing.

Accordingly, in recent years, the electrolyzed industrial water is converted into the mold and pipe by electrolyzing organic substances in the industrial water moving by using the + and-electrodes to respond to the organic substances contained in the industrial water moving to the mold and pipe. Technologies that enable it to be transferred are developed and used.

First of all, looking at the conventional technologies,

Registration No. 10-0481699 (special) a housing made of a non-conductive material constituting the outside by forming an internal space of a certain size inside; An electric field reaction tube made of a non-conductive material having a predetermined length in which an inlet for introducing raw water and an outlet for outflowing the reaction water after the reaction are provided, and a reaction space for the internal influent is formed, and installed in the inner space of the housing; Ion oxygen injection means for injecting ionized air into the electric field reaction tube to increase dissolved oxygen in the influent water introduced into the electric field reaction tube; An AC/DC rectifier installed on the upper side of the electric field reaction tube to convert an applied AC voltage into a DC voltage and supply it; And an electrode installed inside the electric field reaction tube and generating an electric field through the voltage supplied from the AC/DC rectifier to kill or decompose microorganisms or non-degradable organic matter contained in the influent water inside the electric field reaction tube. It is a technology related to the electric field reaction device.

Registration No. 10-0460225 (Special) Power supply device 12 for applying negative and positive voltages of 0.1 to 2.0 volts; While connected to the power supply 12, one or more purification reactors 10 having activated carbon electrodes 20 and 30 that adsorb and desorb inorganic ions in water as positive and negative ions respectively are connected to one or more This is a technology related to a large-capacity electrosorption and desorption type water purification device using a positive and negative same type activated carbon electrode installed and installed.

Registration No. 10-1652976 (Special) It is connected by a water tank installed in a public bath or swimming pool, and a supply pipe in which the water tank and the pumping unit are installed, so that foreign substances contained in the water can be filtered, and periodic cleaning of the filter member is possible. A purification unit, a sterilization unit connected by an outlet of the purification unit and a connection pipe, and for sterilizing water purified by the purification unit, and a return pipe connecting the discharge pipe of the sterilization unit and the water tank, and the sterilization The unit includes a housing having an internal space, a sub-housing installed in the internal space of the housing to divide the sterilizing space part from the internal space, a sterilizing lamp installed inside the sub-housing to sterilize water, and the housing An inlet pipe installed in the inner space of the unit and provided with an auxiliary heating heater for heating water lower than a set temperature, and an inlet pipe installed in the housing and connected to a connection pipe to supply water to the sterilization space part of the sub-housing, and the housing It is installed in the sterilization space and after sterilization is performed, the heated water is selectively discharged while passing through the internal space

And a discharge pipe connected to a return pipe to perform the purification unit, wherein the purification unit includes a main body having an inlet and an outlet connected to the supply pipe and having an open top thereof; A cover member coupled to an upper portion of the main body and having a foreign matter discharge portion formed thereon; A mesh member which is inserted into the inner wall of the main body at regular intervals to divide a first space part in communication with the inlet port and a second space part in communication with the outlet port, and has a small hole; Filter members installed in the first space and including sand; The cover member is driven by a motor and is rotatably supported and extends to the first space and includes a stirring screw for agitating the filter members, branched from the supply pipe and connected to a branch pipe on which a first valve is installed, and the A washing water inlet is formed in the main body to communicate with the second space part, foreign matter and washing water separated from the filter member are discharged to the cover member, and a second valve is installed.

It has a toothed drain pipe, is installed on the upper side of the shaft of the stirring screw and has a separating blade for activating the separation of filter members and foreign substances, and is installed on the upper surface of the stirring screw and extends in the radial direction. It is a technology related to a water purification and sterilization treatment apparatus including guide friction pieces for improving agitation and guiding the purified water toward the second space and removing foreign substances attached to the filter member by friction contact with the filter member.

The above-described conventional techniques are constructed so that the electrode is installed, electrolyzed to decompose organic substances, and supplied to the pipe and mold, so that proper purification is not performed because only organic substances are decomposed and supplied. have.

In other words, in purifying industrial water, since it is simply electrolyzed and then moved as it is, clean purification cannot be achieved, and when used for a long period of time, the same problems as those of the prior art are inevitable.

Accordingly, an object of the present invention is to reduce the discharge time during purification, before moving the industrial water from which the organic substances are separated into pipes and molds, after adsorbing organic substances contained in the input industrial water using a plurality of electrodes. In case of delay and photocatalyst, the area is widened and discharged after complete sterilization with a UV lamp so that it can be transferred to the pipe and mold, thereby minimizing the accumulation of scale, slime, and sludge inside the pipe and mold to extend the life of the mold. In addition, the technical task was accomplished with the focus on providing an industrial water purification device with improved purification efficiency to suppress the defect rate and an industrial water purification method using the device.

As a technical idea for achieving the above object, in an industrial water purification device that purifies industrial water input by using + and-electrodes, an inlet 111 into which industrial water is introduced into one side and the purified industrial water is discharged into the other side. The body portion 100 in which the outlet 113 is formed; Adsorption of organic substances in which the + and-electrodes 210 and 220 are separated from each other and arranged continuously in the interior of the body part 100 to separate and adsorb organic substances contained in the industrial water introduced into the inlet 111 Part 200; A collecting part 300 collecting the organic material falling from the organic material adsorbing part 200 under the body part 100; It is fitted in the upper portion of the body portion 100 and disposed inside the body portion 100, and is disposed to be spaced apart from the organic material adsorption portion 200, and includes a UV lamp 420 for sterilization treatment therein, A purification unit 400 configured to move the industrial water from which organic substances are separated from the outside is configured to purify the industrial water from which the organic substances are separated and discharge them to the outlet; It is characterized in that it consists of a technical feature.

A technical feature is that a plurality of slide holes 121 spaced apart from each other at a predetermined interval are formed in the body part 100 so that both sides of the + and-electrodes 210 and 220 can be inserted, respectively.

A gas outlet 115 through which gas generated while decomposing organic substances in industrial water is discharged is formed on the upper part of the body part 100, and a lower part of the collecting part 300 allows the collected organic substances to be discharged. It is a technical feature that the organic material outlet 310 is formed.

The purification unit 400, a main body 410 made of glass, which is configured inside the body unit 100 and rotates by a motor, and supplies power from a battery or external power inside the main body 400. The supplied UV lamp 420 and Tio2 are coated on the surface, and are configured to be spaced apart from the main body 410 at regular intervals. 430).

The moving blades 430 are formed in plural and the ends are mutually coupled, and a protrusion 431 protruding with a width smaller than the width of the moving blade 430 is formed at one end, and the protrusion 431 It is technical that the locking protrusion 433 is formed on the upper side, the lower end is opened at the other end, and the receiving part 435 is formed in which the protrusion 431 and the locking protrusion 433 are inserted and received. It features.

The purification unit 400 is configured to surround the main body 410 and the moving blade 430, and continuously in a shape of a waveform inside, the sterilization treatment spaces 441 are provided with the moving blade 430 and the moving blade. It is a technical feature that the cover portion 440 positioned between the 430 is formed.

In the purification method using the industrial water purification device, comprising: a purification device arrangement step (S100) disposed between a mold and a moving connection path through which industrial water moves with the purification device; A pipe connection step (S200) of connecting the moving connection path to the inlet of the purification device, and connecting the outlet of the purification device to the mold so that the purified industrial water can be moved; The organic material adsorption unit configured in the purification device-After supplying current to the electrode 220, the organic material contained in the moving industrial water is adsorbed to the-electrode 220, and the organic material is separated for industrial use. A purification step (S300) of purifying water by the purification unit 400 and moving toward the mold; After the purification step (S300), the input of the industrial water introduced into the inlet of the purification device is blocked, the current supplied to the -electrode 210 of the organic material adsorption unit 200 is blocked, and then the +electrode 220 An organic material collecting step (S400) of dropping the organic material adsorbed on the -electrode 220 by supplying current to the collecting unit 300; It is characterized by a technical feature made of.

After a pair of purification devices are provided and arranged in the purification device arrangement step (S100), and after passing through the pipe connection step (S200), the purification step (S300) and the organic material collection step ( S400), but after the organic material collection step (S400), another purification device is operated to input industrial water, and the purification step (S300) and the organic material collection step (S400) are performed. do.

According to the industrial water purification device with improved purification efficiency according to the present invention and the industrial water purification method using the device, the original purpose of the purification device is maintained as it is, and the industrial water is injected into an electrode plate composed of + and-electrodes. After adsorbing organic substances contained in the water, the adsorbed organic substances can be easily treated, providing convenience in use, and a UV lamp before moving industrial water from which organic substances are separated to the pipe and mold side In the case of sterilization treatment by photocatalytic action, it increases the efficiency of purification by increasing the efficiency of purification by expanding the area and delaying the moving time, thereby minimizing scale, slime, and sludge to extend the life of the mold and improve the product quality. It is a useful invention that can be made.

1 is a perspective view showing a preferred embodiment of the present invention
2 is a front view showing a preferred embodiment of the present invention
3 is a plan view showing a preferred embodiment of the present invention
4 is a front cross-sectional view showing a preferred embodiment of the present invention
5 is an exploded view showing a preferred embodiment of the present invention
6 is an exploded view showing a preferred embodiment of the present invention
7 is a plan view and an enlarged view showing a preferred embodiment of the present invention
8 is a plan view, an enlarged view showing a preferred embodiment of the present invention
9 is a perspective view showing a preferred embodiment of the present invention
10 is a perspective view and an enlarged view showing a preferred embodiment of the present invention
11 is a perspective view, an enlarged view showing a preferred embodiment of the present invention
12 is a perspective view, an enlarged view showing a preferred embodiment of the present invention
13 is a use state diagram showing a preferred embodiment of the present invention
14 is a flow chart showing a preferred embodiment of the present invention
15 is a use state diagram showing a preferred embodiment of the present invention

The present invention is a purification device for industrial water that improves purification efficiency to increase purification efficiency by increasing the area of photocatalytic action during purification so that organic substances contained in industrial water moving inside can be filtered out by electrolysis. And a method for purifying industrial water using the device.

Hereinafter, a preferred configuration and operation of the present invention for achieving the above object will be described with reference to FIGS. 1 to 15 with reference to the accompanying drawings.

First of all, prior to describing the present invention, a configuration thereof will be described with reference to FIGS. 1 to 4. In an industrial water purification apparatus for purifying industrial water input by using + and-electrodes, an inlet for industrial water into one side ( 111) and a body portion 100 having an outlet 113 through which the purified industrial water is discharged on the other side; Adsorption of organic substances in which the + and-electrodes 210 and 220 are separated from each other and arranged continuously in the interior of the body part 100 to separate and adsorb organic substances contained in the industrial water introduced into the inlet 111 Part 200; A collecting part 300 collecting organic material falling from the organic material adsorbing part 200 under the body part 100; It is fitted on the upper portion of the body portion 100 and disposed inside the body portion 100, and is disposed to be spaced apart from the organic material adsorption portion 200, and includes a UV lamp 420 for sterilization treatment therein, A purification unit 400 configured to move the industrial water from which organic substances are separated from the outside is configured to purify the industrial water from which the organic substances are separated and discharge them to the outlet; Consists of

As shown in FIG. 4, the body part 100 is connected to a pipe used for a conventional mold line on one side and the other side to form an inlet 111 and an outlet 113, respectively, and an organic material adsorption part ( A gas outlet 115 is formed so that the gas generated during electrolysis of organic substances contained in the industrial water injected by 200) can be discharged to the outside, and the other side where the gas outlet 115 is formed is The upper body 110 in which the insertion hole 117 into which the purification unit 400 is inserted is formed, and a space is provided so that the organic material adsorption unit 200 and the purification unit 400 are formed therein, FIG. 4 The organic material adsorption unit 200 is configured on the left side of the reference, and the lower body 120 is configured with the purification unit 400 on the right side, and the upper body 110 is located on the upper side of the lower body 120 Are combined.

At this time, a plurality of slide holes 121 spaced apart from each other at predetermined intervals are formed in the lower body 120 so that both sides of the + and-electrodes 210 and 220 can be inserted, respectively, as shown in FIG. 7. , The + and-electrodes 210 and 220 are slidingly coupled to each of the slide holes 121 one by one, but the + electrode 210 and the-electrode 220 are continuously and repeatedly slidably coupled, and the purification unit inside A lead-in hole 123 into which the 400 is inserted is formed.

In addition, a space is formed between the + electrode 210 and the-electrode 220 in which the industrial water supplied from the inlet 111 can be moved downward.

The organic material adsorption part 200 is composed of a plurality of + electrodes 210 and-electrodes 220, as shown in FIGS. 4, 5, and 8, and are slidably coupled to the sliding holes 121, respectively, and shown in FIG. Although not mentioned, a separate power supply device for supplying current to the + and-electrodes 210 and 220 is connected, so that when industrial water is supplied, the organic material adsorption unit 200 is included in the industrial water by the supplied current. The resulting organic material is adsorbed to the -electrode 220.

The collecting unit 300 is configured to be coupled to the lower portion of the lower body 120, and as shown in Figs. 1, 2, 4, and 5, the upper part is open, and the collected organic material is selectively discharged to the lower part. The organic material discharge port 310 is formed so that it can be performed.

At this time, the organic material discharge port 310 may be used by configuring other connecting devices such as pipes and a valve capable of selectively opening and closing the connecting device.

On the other hand, the purification unit 400 is a core component of the present invention, as shown in Figs. 4 to 6 and 9, the main body of a glass material that is configured inside the body unit 100 and rotates by a motor. A body 410, a UV lamp 420 receiving power from a battery or external power inside the main body 400, and a Tio2 coating on the surface thereof, and at a predetermined interval outside the main body 410 Doedoe configured to be spaced apart, it is composed of a moving blade 430 in the form of a pretzel configured on the outside of the main body 410.

As shown in FIG. 4 or 5, the main body 410 is entirely formed of a glass material, and a space is provided so that the UV lamp 420 can be inserted into the inside, and the upper part is not shown in FIG. The motor is connected and configured to be rotated by the motor.

At this time, the main body 410 is configured to be divided into two parts, so that the lower part is located in the inlet hole 123 of the lower body 120, and the upper part is the upper body as shown in FIG. 5 or 6 When positioned in the insertion hole 117 of (110), the mutually abutting portions are combined to form one main body 410.

On the other hand, in the case of the UV lamp 420, which is configured to be inserted into the main body 410, as a normal lamp, when power is supplied from an external power source and irradiated with light, the industrial water decomposed of organic substances is moved. It is a configuration to cause a photocatalytic action to be sterilized when moving by ).

At this time, in the case of the UV lamp 420, it is possible to use one or more, and in the present invention, it is shown as being composed of one.

The moving blade 430 may be integrally formed on the outer side of the main body 410 in a pretzel shape, and as shown in FIG. 10, a plurality of the moving blades 430 are formed so that the ends are mutually coupled. However, a protrusion 431 protruding with a width smaller than the width of the moving blade 430 is formed at one end, and a locking protrusion 433 is formed on the upper side of the protrusion 431, and the lower end is open at the other end. The protrusion 431 and the locking protrusion 433 may be retracted from the inner side to form a receiving part 435.

That is, the moving blades 430 are formed in a plurality so as to have the above-described structure, and as shown in FIG. 10 or 11, when the portion in which the protrusion part 431 is formed is inserted into the receiving part 435, the obstacle Since the device 433 is caught on the side end of the receiving part 435, it is possible to prevent the moving blades 430 from being separated from each other.

In addition, when the moving blades 430 are sequentially coupled and configured in the main body 410, the main body 410 is also fixed by configuring the same structure as the receiving portion 435 of the moving blade 430 It can be made, and a conventional fixing method can be applied as needed, and one or a plurality of the protrusions 431 can be formed, and the receiving portions 435 may correspond according to the number of the protrusions 431 Can be formed.

In addition, since the moving blade 430 is coated with Tio2, when light is irradiated from the UV lamp 420 configured inside the main body 410, sterilization of the moving industrial water is possible.

The purification unit 400 is composed of a plurality of the body portion 100, and as the purification unit 400 is composed of a plurality, the insertion hole 117 and the inlet hole 123 are also formed in a plurality. It is desirable.

On the other hand, the purification unit 400 is configured to surround the main body 410 and the moving blade 430, as shown in Fig. 12, and the sterilization treatment spaces 441 are continuously in the shape of a waveform inside. A cover part 440 positioned between the moving blade 430 and the moving blade 430 is formed, and the configuration of the cover part 440 is substantially the cover part 440 in the inlet hole 123 The industrial water from which the organic material is separated is moved by the moving blade 430 of the purification unit 400 and is discharged through the discharge port 113, and the UV lamp ( 420) and Tio2 coated moving blade 430 when photocatalytic action, by providing a sterilization treatment space 441 to secure more space for the photocatalytic action, so that more efficient purification is possible than before. There is.

When the purification method using the industrial water purification device of the present invention as described above is described with reference to FIGS. 13 to 15,

First, it consists of a purification device arrangement step (S100), a pipe connection step (S200), a purification step (S300), and an organic material collection step (S400).

The purification device arrangement step (S100) is configured in a conventional mold apparatus as shown in FIG. 13 or 15, and is disposed between the mold and the moving connection path through which the industrial water of the mold apparatus moves.

The pipe connection step (S200) is connected to the moving connection path and the inlet 111 of the purification device 10, and the outlet 113 of the purification device 10 is connected to the mold so that the purified industrial water can be moved. Is done.

On the other hand, in the purification step (S300), after supplying current to the -electrode 220 of the organic material adsorption unit configured inside the purification device 10, the organic material contained in the moving industrial water is transferred to the -electrode 220 ), and the industrial water from which organic substances are separated is moved while being purified by the purification unit 400, but when the light is irradiated by the UV lamp 420, when it is moved upward by the moving blade 430, the The sterilization treatment is performed while moving to the sterilization treatment space 441, and the sterilized industrial water is completely purified and discharged through the discharge port 113 to be moved to the mold side.

In the organic material collection step (S400), after the purification step (S300), the input of industrial water introduced into the inlet of the purification device is blocked, and the current supplied to the -electrode 210 of the organic material adsorption unit 200 After blocking, current is supplied to the + electrode 220 to drop the organic material adsorbed on the-electrode 220 to be collected in the collecting unit 300.

At this time, the organic material collected by the collecting unit 300 can be selectively discharged to the outside.

Here, as shown in Fig. 15, after the purification device arrangement step (S100) is provided with a pair of purification devices, and after passing through the pipe connection step (S200), the purification step by using one purification device. (S300) and organic material collection step (S400) are performed, but after the organic material collection step (S400), another purification device is operated to input industrial water, and the purification step (S300) and organic material collection step ( S400) is performed.

In other words, after installing a pair of purifying apparatuses 10 to be spaced apart from each other between ordinary mold apparatuses, the purifying apparatuses 10 are respectively disposed in the above-described method, so that one purifying apparatus 10 is described above. However, when a large amount of organic substances are adsorbed to the one purification device 10, the supply of industrial water supplied through the pipe is blocked and at the same time, the supply to the other purification device 10 is allowed to continue. Since it is possible to adsorb organic substances, there is an effect that each purification device 10 can be used alternately.

In this case, it is preferable that a separate control unit is configured to control each of the purification devices 10.

According to the industrial water purification device with improved purification efficiency according to the present invention and the industrial water purification method using the device, the original purpose of the purification device is maintained as it is, and the industrial water is injected into an electrode plate composed of + and-electrodes. After adsorbing organic substances contained in the water, the adsorbed organic substances can be easily treated, providing convenience in use, and a UV lamp before moving industrial water from which organic substances are separated to the pipe and mold side In the case of sterilization treatment by photocatalytic action, it increases the efficiency of purification by increasing the efficiency of purification by expanding the area and delaying the moving time, thereby minimizing scale, slime, and sludge to extend the life of the mold and improve the product quality. It is a useful invention that can be made.

10: purification device
100: body
110: upper body 111: inlet 113: outlet
115: gas outlet 117: insertion hole
120: lower body 121: slide hole 123: inlet hole
200: organic material adsorption unit 210: + electrode 220:-electrode
300: collection unit 310: organic material outlet
400: purification unit 410: main body 420: UV lamp
430: moving blade 431: protrusion 433: stopping protrusion
435: receiving part 440: cover part 441: sterilization treatment space
S100: Purification device arrangement step S200: Pipe connection step
S300: purification step S400: organic material collection step

Claims (8)

A body portion 100 having an inlet 111 into which industrial water is input to one side and an outlet 113 through which purified industrial water is discharged on the other side; Adsorption of organic substances in which the + and-electrodes 210 and 220 are separated from each other and arranged continuously in the interior of the body part 100 to separate and adsorb organic substances contained in the industrial water introduced into the inlet 111 Part 200; A collecting part 300 collecting the organic material falling from the organic material adsorbing part 200 under the body part 100; It is fitted in the upper portion of the body portion 100 and disposed inside the body portion 100, and is disposed to be spaced apart from the organic material adsorption portion 200, and includes a UV lamp 420 for sterilization treatment therein, A purification unit 400 configured to move the industrial water from which organic substances are separated from the outside is configured to purify the industrial water from which the organic substances are separated and discharge them to the outlet; In the industrial water purification device having improved efficiency of sterilization treatment, characterized in that consisting of,
The purification unit 400,
A glass main body 410 configured inside the body part 100 and rotated by a motor, and a UV lamp 420 supplied with power from a battery or external power inside the main body 410 , Tio2 is coated on the surface, and is configured to be spaced apart at regular intervals on the outside of the main body 410, consisting of a moving blade 430 in the form of a pretzel configured on the outside of the main body 410,
The moving blades 430 are formed in plural and the ends are mutually coupled, and a protrusion 431 protruding with a width smaller than the width of the moving blade 430 is formed at one end, and the protrusion 431 The locking protrusion 433 is formed on the upper side, the lower end is opened at the other end, and the receiving portion 435 is formed in which the protrusion 431 and the locking protrusion 433 are inserted and received. Industrial water purification device with improved purification efficiency.
The method of claim 1,
The efficiency of sterilization treatment, characterized in that a plurality of slide holes 121 spaced apart from each other at predetermined intervals so that both sides of the + and-electrodes 210 and 220 can be inserted, respectively, are formed inside the body part 100. Improved industrial water purification device.
The method of claim 1,
A gas outlet 115 through which gas generated while decomposing organic substances in industrial water is discharged is formed on the upper part of the body 100,
An industrial water purification device having improved efficiency of sterilization treatment, characterized in that an organic material discharge port 310 is formed under the collecting unit 300 to discharge the collected organic material.
delete delete The method of claim 1,
In the purification unit 400,
It is configured to surround the main body 410 and the moving blade 430,
Industrial use with improved purification efficiency, characterized in that a cover part 440 in which the sterilization treatment spaces 441 are located between the moving blade 430 and the moving blade 430 are formed continuously in a shape of a wave inside. Accommodation purification device.
In the purification method using the industrial water purification device according to any one of claims 1 to 3, 6,
A purification device arrangement step (S100) disposed between the mold and the moving connection path through which the industrial water moves with the purification device;
A pipe connecting step (S200) of connecting the moving connection path to the inlet of the purification device, and connecting the outlet of the purification device to a mold so that the purified industrial water can be moved;
The organic material adsorption unit configured in the purification device-After supplying current to the electrode 220, the organic material contained in the moving industrial water is adsorbed to the-electrode 220, and the organic material is separated for industrial use. A purification step (S300) of purifying water by the purification unit 400 and moving toward the mold;
After the purification step (S300), the input of the industrial water introduced into the inlet of the purification device is blocked, the current supplied to the -electrode 220 of the organic material adsorption unit 200 is blocked, and then the +electrode 210 An organic material collecting step (S400) of dropping the organic material adsorbed on the -electrode 220 by supplying a current to the collecting unit 300; Consists of,
After a pair of purification devices are provided and arranged in the purification device arrangement step (S100), and after passing through the pipe connection step (S200), the purification step (S300) and the organic material collection step ( S400), but
After the organic material collection step (S400), another purification device is operated to input industrial water, and the purification step (S300) and the organic material collection step (S400) are performed. Industrial water purification method using the industrial water purification device.
delete

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