KR20080110110A - Water purifying divice for manufacturing pure water and ultra-pure water - Google Patents

Abstract

An apparatus for manufacturing pure water and ultra pure water is provide to maintain stored purified water at a fresh state and to be used by selecting the pure water and ultra pure water according to need of users with single equipment. An apparatus for manufacturing pure water and ultra pure water contains a pure water manufacturing module(10) refining raw water flown into the pure water by using one or more filters, a water tank(50) storing the pure water manufactured in the pure water manufacturing module, a pure water purification module(20) containing an ultraviolet ray chamber(21) sterilizing and disinfecting the pure water, receiving the pure water stored in the water tank, sterilizing and disinfecting the pure water through the ultraviolet ray chamber and re-collecting the pure water to the water tank and an ultra pure water production module(30) refining ultra pure water by receiving the pure water stored in the water tank.

Description

Pure and Ultrapure Water Production Equipment {WATER PURIFYING DIVICE FOR MANUFACTURING PURE WATER AND ULTRA-PURE WATER}

1 is a schematic view showing a general configuration of a pure water and / or ultrapure water producing apparatus used in the related art.

2 is a view schematically showing the configuration of the pure and ultrapure water producing apparatus provided by the present invention.

Figure 3 is a flow chart showing the control flow for the production and sterilization disinfection process of pure water in the present invention.

4 is a diagram showing an example in which the vibrator used in the present invention is installed in the water storage tank.

Figure 5 is an external perspective view of the pure and ultrapure water producing apparatus according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: pure water production module 20: pure water purification module

30: ultrapure water production module 50: water storage tank

55: vibrator

The present invention relates to a device for producing pure water and ultrapure water used for various purposes such as various physical and chemical laboratories, microbial culture, reagent preparation, hospital laboratory and semiconductor cleaning, more specifically, a pure water production module for purifying raw water with pure water; It is equipped with an ultrapure water production module for treating the purified water purified in the pure water manufacturing module to ultra-pure water to selectively use pure water and ultrapure water according to the user's needs, so that the pure water purified in the pure water module can be sterilized. It includes ultraviolet sterilization means and circulates the pure water stored in the water tank after a certain time to disinfect ultraviolet light. In addition, the water tank is equipped with a vibrator, which vibrates every certain time to attach organic particles to the inner wall of the tank, where microorganisms grow. To ensure that the stored purified water is always It relates to an apparatus for producing pure and ultrapure water to keep in the state.

In general, water used for various chemical laboratories, microbial cultivation, drug manufacturing, hospital laboratory, cosmetic manufacturing, and semiconductor cleaning has a significant effect on the purity of the water compared to industrial water used for other general purposes. As it is very large, the degree of water purification is very important. Accordingly, the water grade is regulated by law in Korea as well as in developed countries such as Europe and the United States.

Therefore, in the case of the water used in the laboratory, pharmaceutical industry, semiconductor manufacturing facilities, etc. as described above, the raw water is purified and treated to have high purity, and the water used in these facilities is 25 ° C temperature corrected according to the degree of purification. In the state, it can be divided into two grades: pure water having a resistivity of 0.25-4 Pa · cm and ultra pure water having a resistivity of 18.2 Pa · cm or more.

Here, the pure water is used for general physicochemical experiments, reagent preparation, sterile water, hospital laboratory and pre-treatment of the ultrapure water production apparatus, ultrapure water is the analyzer, biotechnology, semiconductor water and It is mainly used in the field of biochemistry, especially in the case where water purity is important.

Looking at the existing equipment in such a pure water or ultrapure water purification system, the pure water and ultrapure water production apparatus used in the prior art as shown in Figure 1 roughly purified externally supplied raw water to produce pure water as pure water The production module (m1), the storage tank (t) for temporarily storing the purified water purified in the pure water production module (m1), receiving and purifying the purified water stored in the storage tank (t) to finally produce ultrapure water It is generally configured to include an ultrapure water producing module (m2) for discharging.

Here, the pure water production module (m1) includes a filter of several stages in order to purify the raw water to produce pure water, raw water, such as tap water obtained from the outside is a pre-filter and a carbon filter (carbon filter) ) And reverse osmosis membrane filter in order to remove most of the various contaminants contained in the water is generated as pure water. The pure water produced in the pure water production module (m1) is activated carbon filter, ion exchange filter (DI filter) UV sterilization lamp (UV lamp), ultrafiltration membrane (UF membrane) and final filter provided in the ultrapure water production module (m2). The remaining contaminants are removed and finally produced as ultrapure water while passing through the back, and the pure water or ultrapure water prepared as described above is discharged to the outside through the discharge coke or the like by the user's choice, and used accordingly.

On the other hand, in the pure water and ultra-pure water production system as described above is generally provided in the pure water production module (m1) by having a storage tank (t) between the pure water production module (m1) and the ultrapure water production module (m2). Once the pure water is stored in the storage tank (t), when the user wants to use pure water or ultra pure water, the pure water is immediately discharged from the storage tank or the pure water is stored in the storage tank (t) in the ultrapure water production module (m2). It has a structure to discharge into ultrapure water.

The reason for this configuration is to consider the production rate of pure water, which is relatively slower than ultrapure water, that is, in the case of the reverse osmosis method of producing pure water in the pure water production module (m1), the production rate is very slow due to its characteristics. Therefore, the pure water production module (m1) is normally operated to generate pure water in advance and store it in the water storage tank. When the user needs pure water or ultrapure water, the pure water stored in the water storage tank is discharged or purified to be ultrapure water. By discharging, it is possible to use pure or ultrapure water as soon as possible without waiting time.

However, in the conventional pure water / ultra pure water production system as described above, since the storage tank having a role of a buffer is provided, there is an advantage that the pure water or ultra pure water can be used immediately whenever necessary, unless it is suddenly used. If the pure water stored in the storage tank is not used for a long time, there is a concern that the microorganisms may grow in the pure water stored in the water storage tank and contaminate the water. In other words, in the case of pure water stored in the storage tank, various organic matters that can be used to feed microorganisms contained in the raw water are almost removed through various filters, but a small amount of organic matter remaining in the water after a considerable time has elapsed after being stored in the storage tank. Microorganisms can be propagated by feeding them, which not only directly causes water quality, but also deionized filters, ultraviolet sterilization lamps, ultrafiltration membranes, etc. in ultrapure water modules that generate ultrapure water by purifying contaminated pure water. There was a problem in that a lot of load adversely affects the filter life.

In addition, according to the existing pure water / ultra pure water production system, the use time is increased and various residual impurities or microorganisms contained in the water (pure water) stored in the reservoir tank are deposited on the inner wall of the reservoir tank. Carcasses of these microorganisms act as a kind of toxin as well as hygiene problems, and have a fatal adverse effect on the water quality. Accordingly, the water tank has to be disassembled and cleaned and disinfected at regular intervals.

Therefore, the present invention has been made to overcome the problems shown in the conventional pure / ultra-pure water production system as described above, specifically, the present invention is purified or purified water used in various laboratories, pharmaceutical industry, semiconductor manufacturing facilities, etc. In the water purification system for manufacturing the water, the pure water stored in the water tank circulates after a certain period of time to disinfect ultraviolet sterilization, and the reservoir tank is equipped with a vibrator to vibrate every predetermined time to attach organic particles to the inner wall of the tank to grow microorganisms. It is a technical problem to be solved to provide an improved pure and ultrapure water production apparatus that can be prevented to keep the stored purified water (pure water) always fresh.

In order to achieve the above technical problem, in the present invention, a purified water device for producing pure water and ultrapure water by purifying raw water, a valve and a pump for controlling the flow of water in the housing, filtering means for purifying water and storage of purified water An apparatus for producing pure water and ultrapure water having a water storage tank, comprising: a pure water manufacturing module for purifying the introduced raw water into pure water using one or more filters; A storage tank for storing the pure water produced in the pure water manufacturing module; A pure water purification module including a ultraviolet chamber for sterilizing and disinfecting pure water, and receiving pure water stored in the water storage tank to sterilize and sterilize the pure water and recover the water back into the storage tank; It provides a pure water and ultra-pure water production apparatus comprising a; and ultra-pure water production module for receiving purified water stored in the storage tank and purified into ultra-pure water.

In addition, the present invention provides a more preferred configuration for the basic configuration as described above, the storage tank provides a pure water and ultra-pure water production apparatus, characterized in that further equipped with a vibrator, wherein the vibrator is on one side of the storage tank It is particularly desirable to configure it so that it can be attached and apply vibration directly to the reservoir tank.

On the other hand, in the present invention as described above is preferably configured to further include a deion filter in the pure water purification module.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the configuration and effect of the pure and ultrapure water production apparatus of the present invention as described above.

Pure and ultrapure water production apparatus provided by the present invention can be selectively intake / use of pure and ultrapure water as a single equipment used for various purposes, such as various chemical laboratory, microbial culture, reagent preparation, hospital laboratory and semiconductor cleaning By minimizing the installation space and promoting the convenience of use, it is possible to use very reasonably in terms of economy.

The basic configuration of the pure water and ultrapure water production apparatus provided in the present invention as shown in Figure 2, the pure water manufacturing module 10 for purifying the raw water introduced from the outside with pure water; A storage tank 50 for storing the pure water produced by the pure water manufacturing module 10; A pure water purifying module 20 including an ultraviolet chamber 21 for sterilizing and disinfecting pure water, and purifying the pure water stored in the water storage tank and purifying the pure water, and then recovering the water to the water storage tank 50 again; And an ultrapure water production module 30 for receiving pure water stored in the water storage tank 50 and refining the ultrapure water. Here, the pure water purification module 20 is basically provided with an ultraviolet chamber 21 for sterilizing and disinfecting the supplied pure water. In addition, the deionization filter 22 for removing various ions from pure water is further provided. At the same time as the sterilization and disinfection of the pure water supplied from the tank 50 can be configured to be removed.

In the configuration of the present invention as described above, the pure water manufacturing module 10 corresponds to an apparatus module for receiving ordinary raw water such as tap water from the outside and filtering it to produce a pure water. To this end, there are several stages of filters for removing contaminants in the inside of the pure water manufacturing module 10. Specifically, one or more pre-filters for filtering suspended solids and particles contained in raw water. (11) and a carbon filter 12 for removing chlorine components, odors and some organic substances contained in raw water, and a reverse osmosis filter for removing various ionic heavy metals and microorganisms remaining in raw water by a reverse osmosis water purification method (RO) membrane) 13.

In the filter configuration as described above, the pre-filter 11 and the carbon filter 12 is located in the previous stage of the reverse osmosis filter 13 to serve as a pre-treatment filtration to remove chlorine components, organic matter, various suspended particles, etc. in the tap water. As a result, it protects the performance of the reverse osmosis filter 13 and extends its life. In addition, the reverse osmosis filter 13 is a part that plays a most important function in producing pure water in the pure water manufacturing module 10, and the reverse osmosis filter 13 is provided with a very thin semi-permeable reverse osmosis membrane to reverse osmosis phenomenon. The raw water is processed as pure water, and the reverse osmosis filter 13 removes most of the contaminants such as heavy metal ions and microorganisms contained in the raw water (up to 99% of inorganic ions, 99% or more of various particles, 99% or more of microorganisms, Dissolved organic matter (> 300 MW)> 99%) to form pure water.

Next, the water storage tank 50 is to store the pure water generated in the pure water manufacturing module 10 as described above, which is the case of the reverse osmosis method that is most commonly applied in the production of pure water as described above Due to the characteristics of the water purification mechanism, there is a limitation that the production speed is very slow. As a result, the pure water is prepared in advance and stored in the storage tank 50 in advance so that the pure water stored in the storage tank 50 may be stored at the user's request. This is to discharge it as it is or to purify the ultrapure water by the ultrapure water production module so that it can be used immediately without the time required for pure water production.

Such a storage tank 50 is preferably manufactured in an appropriate size according to the use capacity, but it is preferably made completely sealed so that it can be completely protected from secondary pollution from the outside. An air filter is installed to prevent secondary contamination by outside air. In addition, the material of the water storage tank 50 is not particularly limited, but it may be said that the synthetic resin material such as inert polyethylene is particularly preferable in terms of manufacturing cost or weight.

On the other hand, according to the present invention, the reservoir tank 50 can be configured to be further equipped with a vibrator (vibrator) 55, which is a device for generating vibration, and this is also a preferred feature of the present invention as a preferred configuration Is one of. That is, according to the present invention, as the vibrator 55 is further provided, the vibrator 55 vibrates water stored in the storage tank body or the storage tank, so that organic matter, suspended particles, microorganisms, etc. are formed on the inner wall surface of the storage tank 50. It is possible to prevent the sticking to prevent water degradation and at the same time have the advantage of reducing the frequency of cleaning and disinfecting the water storage tank (50).

4 is a view showing an example in which the vibrator 55 as described above is installed in the water storage tank 50. As shown in FIG. 4, in the present invention, the installation of the vibrator is a wall of the water storage tank 50. It is particularly preferable to prevent the sedimentation of contaminants by attaching to the water tank so as to directly vibrate the water storage tank. However, the method of applying the water to the water by installing it so as to be submerged in the water stored in the water storage tank may be sufficiently considered. At this time, the installation position of the vibrator 55 may be installed anywhere on the side of the water storage tank 50 without particular limitation, and the number of installation is also illustrated in Figure 4 attached to one side, but both side walls Depending on the size of the storage tank 50, such as attaching one by one, it is possible to install more than that number.

In addition, the vibrator method may be used by selecting an appropriate method among the known methods, for example, the method using the eccentric motor, the ultrasonic method, the piezoelectric ceramic, and the like, in particular the storage tank 50 as described above In the case of being attached to the wall, it is most preferable to use a vibrator using an eccentric motor in terms of product price or vibration output. On the other hand, in the use of the vibrator 55, it is also possible to continuously apply a vibration every predetermined time by using a timer, the time interval setting of the timer to allow the user to adjust to an appropriate time.

Next, the pure water purification module 20 is connected to the pure water manufacturing module 10 described above to function to sterilize and disinfect the pure water produced in the pure water manufacturing module 10. In order to sterilize the bacterium included, the ultraviolet chamber 21 is basically included. The ultraviolet chamber 21 is preferably configured to have an ultraviolet lamp for irradiating the ultraviolet light having a wavelength of 185nm and 254nm to the incoming pure water, the wavelength of 185nm serves to oxidize the organic material, the wavelength of 254nm Plays a role of sterilization.

Furthermore, the pure water purification module 20 may be configured to further include a deionization filter 22 as a more preferable configuration. The deionization filter 22 removes various organic and inorganic ions present in water, thereby making it possible to use cleaner pure water, and in particular, in the case of organic ions, the deionization filter 22 serves as a contaminant by itself and feeds microorganisms. It can be the cause of bacterial growth bar by removing these organic ions in the pure step to prevent the growth of microorganisms as much as possible.

Next, in the configuration of the present invention, the ultrapure water production module 30 is an apparatus module for processing pure water produced in the pure water production module 10 as described above and processing it as ultrapure water from which dissolved ions and various residual impurities are removed. The pure water produced in the pure water manufacturing module 10 is once stored in the storage tank 50 and supplied to the ultrapure water production module 30 when necessary, and finally processed into ultrapure water and then discharged to the outside through the discharge coke.

To this end, the ultrapure water production module 30 includes a catalytically active carbon filter and a deionization filter using ion exchange resins in multiple stages to process supplied pure water into ultrapure water. In addition to this, various ultrafine filters, ultrafiltration membranes, and final filters may be further provided to be suitable for molecular biological experiments by removing ultraviolet chambers, bacteria, pyrogens, etc. for sterilization and oxidizing organic materials.

On the other hand, according to a preferred configuration of the present invention, the leak detection sensor (indicated by the identification code S in Figure 5) may be further provided inside the housing of the pure and ultrapure water production apparatus provided by the present invention. The leak detection sensor is a conventional sensor that generates an electrical signal when it comes in contact with water, such a leak detection sensor is installed on the bottom side of the housing flows to the floor when the leak occurs in the water storage tank 50 or other pipes, etc. It is good to configure it so that it can come in contact with the water coming down and generate a leak signal. Therefore, according to the configuration of the present invention, it is possible to effectively detect various leaks and to take appropriate measures (buzzer alarm or power cut off, supply water cutoff, etc.), thereby effectively preventing various damages due to leakage such as short circuit or internal corrosion. .

Hereinafter, the operation of the pure and ultrapure water producing apparatus provided by the present invention will be briefly described with reference to FIG. 2 showing the schematic configuration of the present invention and FIG. 3 showing the overall control flow in the present invention.

First, when power is supplied to the pure water and ultrapure water production apparatus of the present invention and starts to operate, the pure water production module 10 in which the raw water is supplied from the outside by operating the water supply pump p1 and opening the water supply valve v1. To be pumped in (step S1 of FIG. 3). On the other hand, the valve element used in the apparatus of the present invention, including the water supply valve (v1), it is preferable to use a solenoid valve capable of controlling the opening and closing operation by an electrical signal.

In this way, the raw water such as tap water supplied to the pure water manufacturing module 10 is first removed by various pre-filters 11 such as various suspended particles, and then included in the raw water while passing through the carbon filter 12. The chlorine component and various organic matters are removed, and finally, when passing through the reverse osmosis filter 13, most of the various contaminants contained in the raw water are removed and finally produced as pure water (step S2 in FIG. 3).

When pure water is produced in the pure water manufacturing module 10 as described above, the pure water is sent to the storage tank 50 to be stored. Here, the storage tank 50 is provided with a level sensor to be able to detect the water level of the pure water stored therein, such a level sensor is inserted into the electrical contact at the height corresponding to the limit level in the storage tank, for example. For water level detection, such as a contact level sensing means for detecting water level by placing water on the electrical contact, or a photo sensor type sensing means for measuring the water level using a pressure sensor or a photo sensor to press the contact by water pressure. It is appropriate to select a suitable one among the methods widely known and used in the past.

Here, if no signal is detected by the level sensor (that is, when the water level is low), no special control signal is sent so that the pure water production module 10 continuously produces pure water until reaching a certain level. When a certain level is reached in the water storage tank 50 and a signal is detected by the level sensor, the water supply pump P1 is stopped and at the same time the water supply valve V1 is closed to further remove the pure water from the pure water production module 10. Control not to produce (step S3, S4 of Figure 3).

The water level monitoring in the water storage tank 50 is continuously performed during the operation of the water purification device of the present invention, and if the pure water is discharged at the request of the user or the ultrapure water production module 30 for processing into ultrapure water. When the pure water is supplied and the pure water in the water storage tank 50 is consumed and the water level in the water storage tank is lowered, the above steps S3 and S4 are executed immediately so that a certain amount or more of pure water is maintained in the water storage tank so that the user's water intake needs to be always maintained. To help.

After the pure water is completely filled in the water storage tank 50 by the above-described process, when a predetermined time elapses by operating a timer, the pure water stored in the water storage tank 50 is sent to the pure water purification module 20 for purification and then stored again. It is to be recovered to the tank 50 (steps S5, S6, S7 of Figure 3). That is, when the pure water produced by the pure water manufacturing module 10 is stored in the water storage tank 50 and a considerable time elapses, there is a possibility that bacteria may grow due to a small amount of organic matter remaining in the pure water. After setting the time for this process, the purified water stored in the storage tank 50 is circulated to sterilize and disinfect by ultraviolet rays and remove the organic ions that can be used to feed microorganisms. This is to keep it fresh.

In the specific control, when the time set by the timer has elapsed (step S5), the circulation pump P2 connected to the water storage tank 50 is operated and the circulation valve V2 is opened to purify the pure water from the water storage tank 50. Pure water to be pumped to the pure water purification module 20 (S6 step), and together with the pure water introduced by sending a control signal to start the operation of the ultraviolet chamber 21 of the pure water purification module 20 by ultraviolet rays Allow sterilization and disinfection (step S7). At this time, the time for circulating and disinfecting the pure water in the water storage tank 50 is about 20 minutes per hour is appropriate.

In addition, according to a preferred aspect of the present invention, the reservoir tank 50 is further provided with a vibrator 55 is applied to the pure water stored in the reservoir tank 50 directly or in the reservoir tank 50 is included in the water Various contaminants are prevented from being deposited on the inner wall of the water storage tank 50. In controlling the operation of the water purification device of the present invention, it is preferable to further include the control of the vibrator 55.

That is, according to the present invention as described above, by circulating the pure water stored in the storage tank 50 to the pure water purification module 20 every time, sterilization and disinfection by ultraviolet light and organic ions that can be fed to microorganisms Although the microorganisms are prevented from breeding in the stored pure water by going through the process of removing water, various organic impurities and microorganisms remaining in trace amounts in pure water are stored in the inner wall of the storage tank 50 even by the circulation process. By sticking to the residue formed there was a problem that the microorganisms continue to multiply through this. On the other hand, according to a preferred aspect of the present invention, further provided with a vibrator 55 as described above by applying a vibration to the storage tank 50 every predetermined time to prevent the deposit of impurities on the inner wall of the storage tank (50) According to the present invention, it is possible to expect an effect that can always be kept fresh without fear of alteration of the stored purified water (pure water).

On the other hand, the control of the vibrator 55 as described above to generate a control signal for operating the vibrator 55 installed in the device according to the time interval set by the timer to vibrate the water storage tank (50) It can be made by (step S8, S9 of Figure 3), wherein, the time interval of the timer for operating the vibrator 55 is the capacity of the storage tank 50 or foreign matter of pure water produced in the pure water manufacturing module 10 Although a predetermined time interval may be used according to the degree of removal, etc., it is more preferable to arbitrarily adjust by user input.

On the other hand, according to a preferred configuration of the present invention, the inside of the housing of the pure and ultrapure water producing apparatus provided by the present invention to further include a leak detection sensor for generating a signal when contacted with water, the control system for the present invention In the configuration, it is to include the interrupt control for the case where the signal is detected from the leak sensor as described above (step S10, S11 of Figure 3). At this time, the operation of the leak signal of the leak detection sensor may be a control such as ringing the alarm buzzer or cut off the power supply or cut off the water supply.

Figure 5 is an external perspective view (open door) of the pure and ultrapure water production apparatus according to a preferred embodiment of the present invention made to perform the configuration and operation as described above. As shown in Figure 4, the pure and ultrapure water production apparatus of the present invention is a pure water production module 10 and ultra-pure water production module 30, a storage tank (not shown), equipped with various filters for water purification in the housing (H), Pure water purification module (not shown) and various pumps (P) and can be produced by mounting the valve, in particular, in the case of the device provided in the present invention, the external water discharge coke (RO) and the ultra-pure water intake (UP) ) Are provided to allow for selective intake of pure or ultrapure water.

Therefore, the present invention as described above can be used to select the pure water and ultra-pure water according to the user's needs using a single equipment can minimize the installation space and at the same time maximize the utilization of the pure water and ultra-pure water maker Since it does not need to be provided separately, it is convenient to use and economical, and can be said to have excellent practicality as a pure water and ultrapure water production apparatus that can be used for various purposes such as various laboratories, microbial culture, drug manufacturing, and semiconductor cleaning.

Although the present invention has been described in detail with reference to the embodiments described above, those skilled in the art to which the present invention pertains will be capable of various substitutions, additions, and modifications without departing from the technical spirit described above. It is to be understood that such modified embodiments also fall within the protection scope of the present invention as defined by the appended claims.

According to the present invention described in detail as described above, there is provided a pure water production module for purifying raw water into pure water and an ultrapure water production module for processing pure water purified from the pure water production module to refine the ultra pure water according to the needs of the user. By using ultra pure water selectively, pure water and ultra pure water can be selected and used according to the user's needs by using a single device, thereby minimizing installation space and maximizing space utilization. Since it does not have to be provided separately, there is an effect that can improve the ease of use and economics.

In addition, according to the pure water and ultra-pure water production apparatus provided by the present invention, including a ultraviolet sterilization means to sterilize the purified pure water in the pure water module and circulates the pure water stored in the water storage tank after a certain time to sterilize ultraviolet sterilization. Thereby, there is an effect of keeping the purified water stored in a fresh state at all times, and furthermore, the reservoir tank is provided with a vibrator to vibrate every predetermined time to deposit organic particles on the inner wall of the tank to prevent the growth of microorganisms. You can expect the effect.

Claims (5)

A water purifying device for purifying raw water to produce pure water and ultrapure water, comprising: a valve and pump for controlling the flow of water in a housing, a filtering means for purifying water, and a water storage tank for storing purified water. , Pure water production module for purifying the incoming raw water to pure water using one or more filters; A storage tank for storing the pure water produced in the pure water manufacturing module; A pure water purification module including a ultraviolet chamber for sterilizing and disinfecting pure water, and receiving pure water stored in the water storage tank to sterilize and sterilize the pure water and recover the water back into the water storage tank; And, Ultra-pure water production module for receiving purified water stored in the storage tank and purified into ultra-pure water; Pure and ultrapure water production apparatus configured to include. The pure water and ultrapure water production apparatus according to claim 1, wherein the water storage tank is further equipped with a vibrator for generating vibration. The pure water and ultrapure water production apparatus according to claim 2, wherein the vibrator is attached to a wall of the water storage tank so as to directly vibrate the water storage tank. The pure water and ultrapure water production apparatus according to claim 1, wherein the pure water purification module further includes a deionization filter. The pure water and ultrapure water production apparatus according to claim 1, further comprising a leak detection sensor on the bottom of the housing to generate a signal when contacted with water.

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