KR200388925Y1 - NaOCL extract apparatus - Google Patents

Abstract

The present invention relates to a sodium hypochlorite refining apparatus for filtering various foreign substances such as iron and minerals contained in sodium hypochlorite. More specifically, it is opened and closed by a lid, and inside the refining space for refining sodium hypochlorite with a diaphragm interposed therein, and a storage space for storing purified sodium hypochlorite, each compartment is formed in the refining space and hypochlorous acid At least one filter member for filtering foreign substances contained in sodium, tubular bodies fixedly installed on the diaphragm and fitted into the inner diameter of the filter member, and formed on the circumferential surface of the tubular body and hypochlorous acid passed through the filter member. And an inlet hole for introducing sodium into the tube and through holes for penetrating the plate and discharging sodium hypochlorite introduced into the tube into the storage space. A sodium chlorate purification device is presented.

Description

Sodium hypochlorite purification apparatus {NaOCL extract apparatus}

The present invention relates to a sodium hypochlorite refining apparatus, and in particular to a sodium hypochlorite refining apparatus for filtering various foreign substances such as iron and minerals contained in the sodium hypochlorite produced primarily through a sodium hypochlorite generating device. It is about.

As is well known, sodium hypochloride (NaOCL) refers to a substance used as a raw material of Lax, a disinfectant and bleach that is frequently used in real life.

On the other hand, the sodium hypochlorite using a DC current added across the electrode in the course of passing a series of electrodes without a diaphragm (suitable concentration of brine (Nacl)) through a device called a sodium hypochlorite generator. The salt is then electrolyzed and reacted with water to produce sodium hypochlorite as a safe form of chlorine with a small amount of hydrogen gas.The sodium hypochlorite thus produced is placed in a predetermined container and then disinfectant or bleach on the market. Sold as (Lax).

However, sodium hypochlorite produced through the generator as described above contains various foreign substances such as iron and minerals.If these foreign substances are placed in a sales container without removing these foreign substances, the sodium hypochlorite is separated from the foreign substances in the distribution process. It causes a chemical reaction to generate gas, and the gas generated here causes the sales container to swell or burst, causing various defective rates such as degrading the value of the product.

Therefore, the present invention for solving the above problems is to provide a sodium hypochlorite purification device to remove various foreign substances contained in the sodium hypochlorite produced primarily through the generator.

Another object of the present invention is to provide a sodium hypochlorite refining apparatus which can prevent the container from being corroded during the refining process by injection molding the container which is a refining apparatus to plastic.

Another object of the present invention is to provide a sodium hypochlorite refining apparatus that can be configured so that the filter member, which is a refining apparatus, to be in close contact with the upper surface of the diaphragm to prevent the unpurified sodium hypochlorite from leaking into the storage space.

Still another object of the present invention is to provide a sodium hypochlorite purification device capable of increasing the purification efficiency of sodium hypochlorite by providing a plurality of the purification device.

The present invention for achieving the above objects is a sodium hypochlorite refining apparatus, the storage space for refining sodium hypochlorite, and the purification space for refining sodium hypochlorite with a diaphragm in between the opening and closing with a lid; A container having a space each partitioned therein, at least one filter member positioned in the refining space to filter foreign substances contained in sodium hypochlorite, tubular bodies fixedly installed on the diaphragm and fitted to the inner diameter of the filter member, A plurality of inlet holes are formed on the circumferential surface of the tube and introduce sodium sodium chlorine that has passed through the filter member into the tube, and the sodium hypochlorite, which penetrates the tube and communicates with the tube, is introduced into the tube. Sodium hypochlorite, characterized in that it comprises a through hole for discharge into the space Present a purifier.

The upper end of the filter member is preferably configured to be fitted with a cap for pressing the filter member by the tension of the spring.

In addition, the container, the tube and the diaphragm are preferably manufactured by injection molding of plastic.

In addition, the sodium hypochlorite purification device is preferably provided with a plurality of the same configuration.

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

1 to 3 are views showing the configuration of the sodium hypochlorite purification device to be implemented in the present invention.

Referring to the drawings, the sodium hypochlorite refining apparatus 100 has an outer shape as a container 10 opened and closed by a lid 12, and a supply line 14 for supplying sodium hypochlorite to one upper end of the container 10. ) Is provided, and the other end is provided with a discharge pipe 16 for discharging sodium hypochlorite.

In the vessel 10, a purification space 20 for purifying sodium hypochlorite supplied from the supply line 14 is formed, and partitioned with a diaphragm 18 under the purification space 20, purified hypochlorous acid Storage spaces 22 for storing sodium to be discharged to the discharge pipe line 16 are formed.

In the refining space 20, a plurality of filter members 24 are positioned vertically at regular intervals, and the filter members 24 filter out various foreign substances such as iron and minerals contained in the sodium hypochlorite. Given. In this case, the filter member 24 may use various materials, but in the present invention, it is preferable to use a carbon material having excellent adsorption performance.

On the other hand, on the upper surface of the diaphragm 18, a plurality of tubular bodies 26 are vertically fixed in the same number as the filter members 24, and these tubular bodies 26 are the inner diameter of the filter member 24. It is inserted into each to support the filter member 24 and to discharge the sodium hypochlorite passed through the filter member 24 to the storage space (22). That is, a plurality of inlet holes 28 are formed on the circumferential surface of the tubular body 26 with a predetermined interval up and down, as shown in FIGS. 2 and 3, and the filter member through the inlet hole 28. Sodium hypochlorite having passed through (24) can be introduced into the tube (26), and then sodium hypochlorite introduced into the tube (26) through the through holes 30 are formed through the diaphragm (18) Will be able to be discharged to the storage space (22). At this time, the through holes 30 are preferably arranged on the same line perpendicular to the tubular 26 to communicate with each other.

On the other hand, the cap 32 is fitted to the upper end of the filter member 24, the cap 32 is pressed against the filter member 24 by the tension of the spring 34 to the lower end and diaphragm of the filter member 24 This prevents the occurrence of a gap between (18). That is, the spring 34 installed on the top of the cap 32 is in contact with the bottom surface of the pressing plate 36 located in the upper portion of the tablet space 20 to generate a tension force, the cap by the tension force generated here 32 presses the filter member 24 downward so that the lower end portion of the filter member 24 is tightly adhered to the diaphragm 18 so as not to generate a gap, so that the unrefined sodium hypochlorite is stored in the storage space 22. It can be prevented from leaking out.

Reference numeral 38 denotes a support, and the support 38 is installed at the center of the upper surface of the diaphragm 18 to support the pressing plate 36.

On the other hand, components of the sodium hypochlorite refining apparatus 100 having the above-described configuration, preferably, the container 10 and the diaphragm 18, the tubular body 26, the pressing plate 36 and the support 38 are all made of a plastic material. It is preferable to use injection molding, which is to prevent corrosion during purification due to the alkalinity of sodium hypochlorite.

On the other hand, the sodium hypochlorite purification device 100 is preferably provided with a plurality of the same configuration as shown in Figure 3, which increases the purification efficiency of sodium hypochlorite to more efficiently foreign matter To remove it. That is, when the discharge pipe line 16 provided in one purification device 100 and the supply pipe 14 of the other purification device 100 are interconnected with the connection pipe line 40, the plurality of purification devices are connected to each other. Therefore, the sodium hypochlorite first purified in one purification apparatus 100 is introduced into the other purification apparatus 100 through the connecting pipe 40 again to be purified again to remove foreign substances contained in sodium hypochlorite. More efficient removal.

Hereinafter, the operation of the sodium hypochlorite purification device of the present invention configured as described above will be described with reference to the accompanying FIG.

The sodium hypochlorite is first produced through a sodium hypochlorite generating device, which is a pretreatment process, and then the sodium hypochlorite is purified in the container through a supply line 14 provided at an upper side of the container 10. When supplied to the sodium hypochlorite passes through the filter member 24 located in the refining space 20, and then through the inlet hole 28 of the tubular body 26 fitted in the inner diameter of the filter member 24 (26) flows into. At this time, various foreign substances such as iron or minerals contained in sodium hypochlorite are caught in the process of passing through the filter member 24, so that only high-quality sodium hypochlorite is introduced into the tubular body 26.

Thereafter, sodium hypochlorite introduced into the tubular body 26 is discharged into the storage space 22 through the through holes 30 of the diaphragm 18 communicating with the tubular body 26 in a state where foreign substances are removed and purified. Lose.

Then, the sodium hypochlorite discharged to the storage space 22 can be transferred directly to the storage tank (not shown in the figure) and stored, but the same through the connecting pipe 40 to purify the sodium hypochlorite of higher quality. After entering into another purification apparatus 100 having a configuration, after the purification process once again, it is transferred to a storage tank and stored.

As described above, when the sodium hypochlorite is put into the sales container by filtration of foreign substances contained in sodium hypochlorite through the purification device of the present invention, sodium hypochlorite reacts with the foreign substances in the distribution process. By preventing the generation of gas in advance, the sales container is inflated, which has the effect of reducing the value of the product or minimizing the occurrence of various defective rates.

In addition, it is possible to prevent the occurrence of corrosion during the purification process by injection molding the container, diaphragm and tubular body of the refining device to plastic.

In addition, by providing a plurality of purification apparatus has the effect of further increasing the purification efficiency of sodium hypochlorite.

Finally, the filter member is strongly adhered to the upper surface of the diaphragm, thereby preventing the purified sodium hypochlorite from leaking into the storage space.

1 is a view showing three-dimensional configuration of the sodium hypochlorite purification device according to a preferred embodiment of the present invention.

2 is a view showing an extract of the filter member and the tube shown in FIG.

3 is a cross-sectional view of the sodium hypochlorite refining apparatus shown in FIG. 1 and a plurality of sodium hypochlorite refining apparatuses connected to each other through a connecting pipe.

<Description of the symbols for the main parts of the drawings>

10: container 18: diaphragm

20: purification space 22: storage space

24: filter member 26: tube

28: inflow hole 30: through hole

32: cap 34: spring

Claims (4)

In the sodium hypochlorite purification apparatus 100, The container 10, which is opened and closed by a lid 12 and has a partition 18 therebetween, with a partition 18 therebetween and a purification space 20 for purifying sodium hypochlorite and a storage space 22 for storing purified sodium hypochlorite, respectively. )Wow; At least one filter member (24) located in the refining space (20) to filter foreign matter contained in sodium hypochlorite; Tubular bodies 26 fixedly installed on the diaphragm 18 and fitted to the inner diameter of the filter member 24; A plurality of inlet holes 28 formed on a circumferential surface of the tube body 26 to introduce sodium hypochlorite having passed through the filter member 24 into the tube body 26; It is formed through the plate 18 and communicates with the tubular body 26, characterized in that it comprises a through hole 30 for discharging sodium hypochlorite introduced into the tubular body 26 into the storage space 22 Sodium hypochlorite purification device. According to claim 1, Sodium hypochlorite refining apparatus, characterized in that the upper end of the filter member 24 is fitted with a cap (32) for pressing the filter member 24 by the tension of the spring (34). The sodium hypochlorite refining apparatus according to claim 1 or 2, wherein the container (10), the tube (26) and the diaphragm (18) are manufactured by injection molding of plastic. The sodium hypochlorite purification device according to claim 3, wherein the sodium hypochlorite purification device (100) has a plurality of devices having the same configuration.