KR890002848B1 - Sterilizing and water-cleaning filter - Google Patents

Abstract

A method for mafg. the sterilizing and water-cleaning filter comprises (i) filling beteen two ( up and down) permeable nonwoven fabrics (11')(11") (coated with adhesive on the inner side only) with silver-added active carbon (12') (obtd. by adsorbing water soluble silver salt i.e. silver nitrate and reacting with same equiv. of NaCl) and untreated active carbon (12") by alternating (12') and (12") in repeating; and (ii) heat-sealing nonwoven fabrics.

Description

Sterilization and Water Filter for Ion Water Purifier

1 is a cross-sectional state diagram of a conventional ion water purifier.

2 is a cross-sectional view of an ion water purifier provided with a filter according to the present invention.

(A) is a perspective view which cut | disconnected a part of filter in this invention, (b) is a transverse surface view with respect to a filter,

4 is an enlarged view of the warm-added activated carbon according to the present invention.

5 (a) and 5 (b) are partially cutaway perspective views and cross-sectional views with the filter of the present invention placed in a housing.

6 is a graph of the change of general bacteria against ionization time.

* Explanation of symbols for main parts of the drawings

8: filter, 9: housing,

10: Eurohome, 11 ', 11 ": Non-woven fabric,

12 ': hot addition activated carbon, 12 "untreated activated carbon.

The present invention relates to a sterilizing water filter of an ionized water group, and the hot-adhesive activated carbon is compressed onto a nonwoven fabric for the purpose of removing residual bacteria and impurities remaining in water without being completely sterilized by alkaline water generated in the ionized water group. The present invention relates to a sterilization and water purification filter for ionizers, which is placed in a plastic housing having a flow path groove and installed in a cathode chamber of the ionizer. The ionizer produces electrolyzed action of alkaline water with high concentration of (+) ions such as calcium, potassium and sodium in the cathode chamber of the vessel, and acidic water with high negative ion concentration such as chlorine and sulfur in the cathode chamber. As a device for generating a beauty water, a diaphragm 34 is installed in the container 31 as the first tile, and divided into a cathode chamber 32 and an anode chamber 33 and delivered to the two polar chambers 32 and 33. Filled with water, which is a substance, each electrode 35, 36 is applied to the water to apply a DC voltage to cause electrolysis. A ferrite electrode is applied to the positive electrode and a stainless electrode is used for the negative electrode. With the electrodes described above, water is electrolyzed in each chamber to produce alkaline water and acidic water.

At this time, the alkaline water is slightly different depending on the time of electric separation (ionization), but the pH range is about 4-5. The alkaline water can be supplied as a face-washing water for skin beauty in order to convert the constitution that is being acidified into acidic acid by ingestion of acidic foods, to achieve health constitution and to prevent alkalinization of the antifungal skin (weak acid) due to aging of the skin. have.

However, in the conventional ionizer, the bactericidal effect in alkali or acid is not shown as neutral (PH is around 7), which is the survival range of bacteria, but in reality, as shown in the graph of FIG. 6, the acidic water is near P.H4.5. Although it is sterilized, it does not show high sterilization effect even after the ionization time, and it is directly electrolyzed by receiving tap water or ground water directly into the container, and impurities in tap water or ground water sink to the bottom of the container and are drained as it is. If you drink it, there was a staircase to drink the remaining bacteria and impurities.

The present invention to give a complete sterilization and water purification effect in the above incomplete sterilization and water purification action is to adsorb a certain amount of water-soluble silver salt between the breathable upper and lower non-woven fabrics and then alternate the silver-added activated carbon and the untreated activated carbon by reacting the chloride salt with the same equivalent The filter is formed by charging in a repetitive arrangement, and it is configured to sterilize and fix alkaline water by embedding it in a housing having a passage hole. The present invention will be described in detail with the accompanying drawings as follows.

2 is a cross-sectional view of an ion water purifier provided with a filter according to the present invention, in which the cathode chamber 2 for generating alkaline water of + ions is formed by forming a diaphragm 4 having numerous holes in the middle of the container 1; And an anode chamber 3 for producing acidic water of -ion and an outlet hole 2a and 3a for drainage at the lower end of each chamber 2 and 3. In the cathode chamber 2 to be formed, a plastic housing 9 containing a filter 8 is charged to perform filtration and sterilization. The anode 5 is connected to the anode chamber 3 by a DC voltage and the cathode ( 6) is placed in the cathode chamber 2 to perform the electrolysis function of the water.

In forming the positive electrode 5 and the negative electrode 6, a ferrite electrode is generally used for the positive electrode 5, and a stainless electrode is used for the negative electrode 6. If the configuration of the filter 8 in this configuration is examined, the silver-added activated carbon 12 'and the untreated activated carbon 12 "may be alternately arranged between the breathable upper and lower nonwoven fabrics 11' and 11" as in the third degree. It charges and the filter 8 is formed. In forming the filter 8, an adhesive is applied to one side of the nonwoven fabrics 11 'and 11 ", and the activated carbons are fixed by heat-sealing with the adhesive-treated side facing the active end.

This adhesion prevents the swelling of the nonwoven fabric by water and prevents the release of activated carbon by the 7OH of the nonwoven fabric that is thinner than the mesh of the activated carbon.

In the production of silver-added activated carbon (12 '), one of the main components of the present invention, a silver salt such as silver nitrate (AgNo ₃ ), which is soluble in a 1 liter round flask, is used in a weight ratio of 10-20% and distilled water is 80-90%. To make an aqueous solution. The activated carbon dried in this aqueous solution was immersed at room temperature for 10-20 minutes, and then washed 3-4 times with distilled water to wash off any unreacted silver salt.

At this time, the silver component in the treated activated carbon has a solubility in water and is easily eluted, and thus cannot be used for a long time. Therefore, a process for stabilizing the silver component is required, so that activated carbon treated with silver salt is immersed in a solution (AgNo ₃ ) or sodium chloride (NaCl) solution, an equivalent soluble bowelogen salt such as silver chloride ((AgCl ₂ ), for 30 minutes. After extraction by washing with distilled water three to four times to remove the chlorine component of the sodium chloride solution and dried in a drying furnace of 100 ℃ to 120 ℃ temperature to produce a silver-added activated carbon.

The silver content of the additive-added activated carbon is 0.3-0.5%, so the silver ions are extremely small in water, and the eluted silver ions are sterilized. The above-mentioned metals used for sterilization are selected as silver, because gold or copper having the same sterilization effect does not correspond to the price or use surface. It is unsuitable because it changes from a dragon to an oxidized form, and water is rusted in the water, which may be harmful to the human body. However, silver is suitable for a price and has no harm to the human body.

This silver-added activated carbon 12 'also forms a particle size of the activated carbon to a particle size of 6 to 10 mesh in order to reduce the resistance to a minimum because of the resistance generated in the water by the filter 8 during the treatment of water purification and sterilization.

The silver-added activated carbon formed by the manufacturing method is slightly damaged due to the fine pores 13 having the adsorption capacity as shown in FIG. 4, but the sterilization performance is excellent, but the adsorption capacity to adsorb organic substances is somewhat higher than that of the untreated activated carbon. Will fall.

Therefore, in order to increase the adsorption capacity, the untreated general activated carbon 12 " is arranged between the nonwoven fabric 11 'and 11 " By fusion, the filter 8 is formed.

The filter 8 made in this manner is embedded in a housing 9 made of plastic in which the flow path grooves 10 are formed in the upper and lower portions 9 'and 9 " as shown in the fifth diagram. When the housing 9 with the filter 98 is installed in the cathode chamber 2 and DC power is applied, negative ions are ionized by the voltage toward the ferrite electrode, which is a positive electrode. (+) Ions are ionized toward the electrode, and alkaline water is generated in the cathode chamber 2 in the anode chamber 3.

In this process, the cathode chamber 2 sterilizes the remaining bacteria with a negatively eluted metal component and filters the organic matter with the general activated carbon 12 " and the boutique fabric 11 " (11 "). The alkaline water discharged from the outlet hole 2a through the flow path groove 10 of the housing 9 is very hygienic.

For example, in the above bactericidal action, 50cc of a well contaminated with bacteria is collected in a 100cc Erlenmeyer flask, and deposited into a 5.5g Erlenmeyer flask with silver-activated activated carbon treated by the treatment process of the present invention, followed by closing the stopper of the flask. After leaving for 24 hours, 1cc of water was collected and cultured using an incubator at 37 ° C in the case of agar medium.

Compared with the conventional ones, the sterilization capacity of the ion water group of the present invention in alkaline water is shown to be 100 normal bacteria remaining in 1 cc of water when the electrolysis time is 30 minutes, but 30 minutes when the filter 8 of the present invention is used. It can be seen from FIG. 6 that sterilized to 3 per 1cc after the elapsed time.

As described above, the present invention has an effect that a good alkaline water is supplied by inserting a filter in which a negative additive and a general activated carbon are installed in the cathode chamber of the ionizer, thereby increasing the sterilization of bacteria and filtration of organic substances. .

Claims (1)

Adsorbed activated carbon (12 ') and untreated activated carbon (12 ") made by adsorbing a certain amount of water-soluble silver salts between upper and lower nonwoven fabrics (11') (11") having good air permeability and reacting with sodium chloride at the same amount. ) A sterilization and water purification filter for ionizers, which is formed by thermally bonding nonwoven fabrics 11 'and 11 "

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