KR200383891Y1 - A structure for cold alkali-water purifier - Google Patents

Abstract

The present invention is to maintain the temperature of the alkaline water obtained by the water supply tank along the flow passage to maintain the temperature of the alkaline water as the alkaline water obtained by electrolysis through the re-cooling coil disposed in the quick cooling tank again. The hydrogen ion concentration is always kept constant, and also relates to the structure of the cold alkaline water purifier which makes it easy to drink high-quality alkaline water without dregs.

The present invention is a conventional cold alkaline water purifier configured to cool the alkaline water obtained by electrolysis after cooling to a constant temperature, the room temperature water supplied along the flow path in the water supply tank while maintaining the temperature of 10 ℃ to 15 ℃ Electrolyzed into acidic water and alkaline water through the water, and this electrolyzed alkaline water is a cooling coil disposed in a quick cooling tank. It is a cooling coil maintained at a temperature of -10 ° C to -15 ° C and 4 ° C to 7 ° C in a recooling coil. After cooling to the temperature it is configured to be discharged through the discharge cock.

Description

Structure of cold alkali water purifier {A structure for cold alkali-water purifier}

The present invention relates to a cold alkaline water purifier, and more particularly, the alkaline water obtained by electrolysis while maintaining the normal temperature water obtained as a water supply tank along the flow path at about 10 ° C. to 15 ° C. is again stored in the rapid cooling tank. The structure of the cold alkaline water purifier, which allows the water to be discharged through the re-cooled coil, which maintains the temperature and potential hydrogen (pH) of alkali water at all times, and makes it easy to drink high-quality alkaline water without residue. It is about.

In general, preferred drinking water is water free of various heavy metals, harmful substances and bacteria, and contains an appropriate amount of minerals, and mineral water containing weakly alkaline Ca ⁺ and Na ⁺ is known to be ideal. .

To this end, an electrolytic water generating device has been developed for electrolyzing water to separate and discharge the alkaline water, which is a mineral water of + ions, and the acidic water, which is non-drinking water. Ionizers have a water purification function configured to discharge water through an electrolytic cell.

Conventional electrolyzed water generator is configured to be discharged divided into alkaline water of + ion and acidic water of + ion separated by flowing into electrolyzer where water is electrolyzed, and in addition to ionizer for drinking water, salt is separated from seawater It is also applied to the device to switch to, or general industrial use.

Techniques related to such an electrolytic water generating apparatus can be found in Korean Patent Publication Nos. 2003-0064640, 2002-0020163, and Korean Registered Utility Model Nos. 0250783, 0339730, and the like. As the structure itself is complicated and relatively expensive, it is not popularized.

On the other hand, the cold alkaline water purifier is manufactured in a relatively simple structure by using the above-mentioned principle, the electrolyzed bottled water or raw water obtained along the flow path through the electrolytic cell to separate the acidic water and alkaline water, and the alkaline water in the water supply tank After cooling to a predetermined temperature, it can be used as drinking water.

In connection with such cold alkali water purifier, for example, in the Korean Utility Model Registration No. 225292, the alkaline water obtained by electrolyzing tap water is stored in a cold state and stored in a cold alkaline water maker for easy drinking whenever needed. Is disclosed.

That is, as shown in Figure 1, the segment filter 10 for filtering foreign matter contained in the tap water, the carbon filter 11 for removing residual chlorine contained in the tap water and the activated carbon filter 12 for removing odors The filter structure consisting of a water supply pipe 13 and the flow path 14 is connected through, one side of the filter body is provided with a conventional electrolytic cell 15 for electrolyzing tap water into alkaline water and acidic water, the acidic water is external The alkaline water is supplied to the water supply tank 18 through the connecting pipe 16 and the sterilizer 17.

In addition, the water supply tank 18 has a cooling coil 20 for cooling the alkali water in the water supply tank 18 and a blowout cock for extracting the cold alkaline water in the water supply tank 18 to the outside according to the operation of the compressor 19. (21) is provided.

Therefore, as the tap water supplied through the water supply pipe 13 is supplied to the electrolytic cell 15 while foreign substances and odors are removed while passing through the filters 10, 11 and 12, acidic water and alkaline water by electrolysis This alkaline water is sterilized by the sterilizer 17 and stored in the water supply tank 18 at the same time.

After that, as the compressor 19 is driven, the cooling water 20 through which the coolant flows cools the alkali water in the water supply tank 18 to about 4 ° C to 7 ° C and presses the blower cock 21. Always drink cold alkaline water.

However, in such a cold alkaline water production machine, alkaline water can be obtained from normal tap water, but as the storage time of alkaline water stored in the water supply tank elapses, debris is generated in the water supply tank with a change in pH concentration, which is not suitable for drinking water. There was a problem.

The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to generate an alkaline water by electrolysis in a state in which normal temperature water obtained as a water supply tank is maintained at about 10 ° C to 15 ° C, and the alkaline water is rapidly As the water is discharged through the re-cooled coil disposed inside the cooling tank, the temperature and pH of the alkaline water are always maintained in the most suitable state as drinking water, and the reclaimed coil does not produce debris to drink high-quality alkaline water. To provide a structure of a cold alkaline water purifier.

The present invention for achieving the above object is a conventional cold alkaline water purifier configured to drink the alkaline water obtained by electrolysis after cooling to a constant temperature, the room temperature water supplied along the flow path in the water supply tank 10 It is maintained at a temperature of 15 ° C to 15 ° C and electrolyzed into acidic water and alkaline water through an electrolytic cell, and the electrolyzed alkaline water is a cooling coil disposed in a rapid cooling tank, and is used in a refrigerant maintained at a temperature of -10 ° C to -15 ° C. It is characterized in that it is configured to be discharged through the discharge cock after cooling to 4 ℃ ~ 7 ℃ temperature in the re-cooling coil.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

First, Figure 2 is a view for explaining the structure of the cold alkaline water purifier according to the present invention, the segment filter 30 for filtering out foreign substances contained in the water and the carbon filter 31 for removing residual chlorine as in the prior art And a filter structure including an activated carbon filter 32 for removing odors through a water supply pipe 33 and a flow path 34.

Of course, the filter structure may be installed by adding another filter according to its use or need, and a water supply tank 35 connected to the flow path 34 is disposed at one side of the filter structure, thereby providing a general temperature control unit. By using (T1), the room temperature water can be maintained at a temperature of about 10 ° C to 15 ° C and connected to the electrolytic cell 38 via the connection pipe 36 and the calcium filter 37, thereby allowing the room temperature water to be alkaline and acidic water. Electrolysis can be achieved.

In addition, the acidic water separated from the electrolytic cell 38 is discharged to the outside through the shut-off valve 39 is supplied to a separate storage tank (not shown), the alkaline water is a rapid cooling tank 41 through the connection pipe (40) It is configured to be obtained by the re-cooling coil 42 which is installed inside.

The recooling coil 42 is connected to the discharge cock 43 mounted on the bottom surface of the quick cooling tank 41, and an air inlet 44 is mounted on the upper end of the connection pipe 40.

In addition, a cooling coil 46 operated by the compressor 45 is disposed inside the rapid cooling tank 41 to maintain the refrigerant at a temperature of about -10 ° C to -15 ° C and at the same time the rapid cooling tank 41. In the upper end of the) is mounted a normal temperature control unit (T2).

According to the present invention configured as described above, when a cup or a bowl is brought into contact with the discharge cock 43 to drink alkaline water, the room temperature water maintained at 10 ° C. to 15 ° C. in the water supply tank 35 is connected to the connection pipe 36. And into the electrolytic cell 38 together with the dissolved calcium through the calcium filter 37.

In the electrolytic cell 38, as power is applied to the diaphragm provided between the positive electrode plate and the negative electrode plate, positive ions of mineral components such as calcium and magnesium present in water adhere to the negative electrode plate, and chlorine, sulfuric acid, sulfur, etc. Negative ions of will stick to the anode plate.

At the same time, the anode hydroxyl ions (OH ^-) on the cathode side receives is in an oxygen molecule (O ₂₎ so throw flown into the air hydroxyl ions (OH ^-) is increased by the water is acidified, the negative hydrogen ions in the anode side It receives (H ⁺ ) and becomes a hydrogen molecule (2H) and blows it into the air, but because of the high molecular weight of hydrogen, active hydrogen ions increase, so the water becomes alkaline.

Accordingly, the water entering the electrolytic cell 38 is electrolyzed into acidic water and alkaline water, and the acidic water is discharged to the outside through the shutoff valve 39, and the alkaline water is rapidly cooled along the connection pipe 40. Is discharged to the discharge cock (43) via the re-cooling coil (42) installed in the interior.

At this time, the alkali water is passed through the re-cooling coil 42 as the refrigerant temperature inside the rapid cooling tank 41 is maintained at -10 ° C to -15 ° C by the cooling coil 46 operating as the compressor 45. It becomes possible to cool about 4 to 7 degreeC which is the most suitable as drinking water.

In addition, the acidic water is supplied to the storage tank (not shown) through the shutoff valve 39 to be used for purposes other than drinking water, and when the supply of the alkaline water is stopped, the water supplied by the circuit operation is blocked. By allowing the air inlet 44 to open at the same time, freezing can be prevented by allowing the alkali water inside the recooling coil 42 to flow out.

The above-described embodiment is described with respect to the most preferred example of the present invention, and is not limited to the above embodiment, of course, various modifications are possible without departing from the technical spirit of the present invention.

As described above, according to the structure of the cold alkaline water purifier according to the present invention, the alkaline water is generated by electrolysis while maintaining the normal temperature water obtained in the water supply tank along the flow path at 10 ° C. to 15 ° C., and the alkaline water is rapidly By allowing the water to be discharged through the recooling coil disposed in the cooling tank, it is possible to maintain the temperature and pH concentration of the alkaline water at an appropriate state at all times.

1 is a schematic configuration diagram showing the structure of a typical cold alkaline water purifier,

2 is a schematic view showing the structure of a cold alkaline water purifier according to the present invention.

* Description of the symbols for the main parts of the drawings *

30: segment filter 31: carbon filter

32: activated carbon filter 33: water supply pipe

34: Euro 35: water tank

36: connector 37: calcium filter

38: electrolyzer 39: shutoff valve

40: connection tube 41: rapid cooling tank

42: re-cooled coil 43: discharge cock

44: air inlet 45: compressor

46: cooling coil

Claims (1)

In a typical cold alkaline water purifier configured to drink an alkaline water obtained by electrolysis after cooling to a predetermined temperature, The normal temperature water supplied along the flow path is maintained at a temperature of 10 ° C. to 15 ° C. in the water supply tank 35, and electrolyzed into acidic water and alkaline water through the electrolytic cell 38, and the electrolyzed alkaline water is rapidly cooled in a tank 41. ) Cooling in the re-cooling coil 42 to 4 ° C ~ 7 ° C temperature by the refrigerant maintained at -10 ° C to -15 ° C temperature as the cooling coil 46 disposed in the) and discharged through the discharge cock 43 A structure of a cold alkaline water purifier, characterized in that configured so as to.