KR100475101B1 - A filtered water supply with apparatus generating oxygen-mixer - Google Patents

Abstract

The water purifier provided with the oxygen generator integrally was invented. The water purifier supplies oxygen generated in the oxygen generator A4 to the main tank A2 and the mixer A3 to increase the amount of dissolved oxygen in the water purifier. The mixer A3 is equipped with a suitable cooling device 31 and a curved flow path 32 to help dissolve oxygen and to enable uniform distribution of dissolved oxygen. In addition, a suitable acid diffuser such as acidite may be used for the mixer A3. In addition, the water purifier is provided with an adjustable control valve (A5) it is possible for the user to adjust the amount of oxygen dissolved in water as needed.

According to the present invention, by injecting clean oxygen into the body through the drinking water, the water purifier serves not only as a simple drinking water but also as a health drink.

Description

Water purifier with oxygen generator and mixer {A FILTERED WATER SUPPLY WITH APPARATUS GENERATING OXYGEN-MIXER}

The present invention relates to a water purifier. More precisely, the present invention relates to a water purifier having an oxygen generator and integrally equipped with a mixer for increasing the amount of dissolved oxygen by mixing the generated oxygen with water in an appropriate manner.

Conventional water purifiers include ion generators or sterilizing filters, but it is difficult to provide a water purifier in the form of supplying oxygen directly to the human body through negative water. This is because the complexity of the oxygen generating device and the supplied oxygen are difficult to properly mix or dissolve in water.

Water purifiers equipped with oxygen generators include 'Bottled water chillers equipped with a built-in oxygen generator and oxygen injection system' of Korean Patent Publication No. 10-2001-0099698, and 'Cold water heaters' and Utility Model Registration No. 20-2001-0223211. Oxygen generator of water purifier ”. The apparatus is configured as a water purifier having an oxygen generator in which the oxygen generator and the water purifier are integrally formed, but since the generated oxygen is not properly mixed with water and does not have a mixer to increase the amount of dissolved oxygen, reliability of increasing the amount of dissolved oxygen is increased. Not only could not be guaranteed, but also had a problem that the user can not directly control the amount of dissolved oxygen.

In order to solve the problems with the conventional water purifier as described above, the present invention is not only integrally formed with the oxygen generator, but also has a mixer so that oxygen supplied from the oxygen generator can be properly incorporated into water to reduce the amount of dissolved oxygen. The aim is to ensure an increase.

In addition, an object of the present invention is to enable the user to adjust the amount of oxygen supplied as needed by using a control valve installed in the middle of the oxygen supply passage connected to the mixer.

In addition, the present invention aims to make the mixer in a transparent form so that the user can check the supply of oxygen directly, and also the oxygen generator and the mixer is formed integrally with the water purifier as a whole to produce a compact form It is done.

To this end, the present invention includes a control device for generating oxygen from an oxygen generator using oxygen introduced from the outside and controlling the amount of generated oxygen. A control sensing device provided in the main tank A2 is used to control the oxygen generation of the oxygen generator, and this control device may also be installed on the regulating valve A5 installed in the middle of the oxygen supply passage of the mixer A3. In addition, the present invention is to make the mixer (A3) transparent to check the supply of oxygen and to the mixer (A3) in order to help the uniform diffusion and dissolution of oxygen in the annular or curved flow path 32 or acid stone / Plates are prepared.

Hereinafter, the contents of the present invention will be described with reference to the drawings.

1 is a block diagram showing the overall configuration of the present invention in the form of a block. The process of increasing the dissolved oxygen amount of the water flowing through the water purifier outlet A7 using the oxygen generator and the mixer formed integrally with the water purifier used in the present invention according to the configuration shown in the drawings as follows.

The water purification filter system A1 is an apparatus for purifying water using a filter before the water supplied from the water intake source is supplied to the main tank A2.

The filter may be any filter known in the art as a device for filtering microorganisms or small particles harmful to the human body contained in the water.

The water purified by the water filter system A1 is stored in the main tank A2 for the user to use with the water purifier outlet A7.

Oxygen mixer (A3) as one feature of the present invention serves to increase the amount of dissolved oxygen by dissolving and diffusing oxygen in the oxygen supplied from the oxygen generator (A4) and the water supplied from the main tank (A2). .

Oxygen is supplied to the water flowing out from the oxygen generator A4 to the water purifier outlet A7 through two separate oxygen supply paths A6a and A6b.

First, the oxygen supply path A6a primarily increases the amount of dissolved oxygen while supplying oxygen to the main tank A2. The main tank A2 is advantageously in a low temperature and high pressure state in order to maintain the dissolved oxygen amount.

A control detector A8 is installed in the main tank A2 so that a value necessary for controlling oxygen generation is measured, and the measured control value is transmitted to the control device A6 installed in the oxygen generator A4. The oxygen supplied from the oxygen generator A4 controls the generation of oxygen using the control value received from the control device A6.

For example, when the control value becomes the pressure, when the pressure value of the main tank (A2) is above a certain value, the amount of dissolved oxygen does not increase efficiently compared to the amount of oxygen supplied, so that the supply of oxygen is temporarily or constant time. Need to be stopped for a while.

When a certain value or more is detected by the pressure sensor installed in the main tank A2 and the detected value is transmitted to the control device A6, the control device A6 stops the oxygen generation of the oxygen generator A4 and no longer. There is no supply of oxygen to the main tank A2.

After a certain time elapses, the pressure sensor again transmits the pressure to the control device A6, and the pressure is compared with a predetermined value in the control device A6 to determine whether oxygen of the oxygen generator A4 is generated. The measurement period of the control value of the control detector A8 is determined in advance at appropriate intervals as necessary.

The oxygen supplied to the mixer A3 determines whether or not the user supplies the dissolved oxygen amount by adjusting the control valve A5.

 That is, the valve A5 is installed outside to allow the user to directly adjust and determine the supply of oxygen according to the user's needs.

When the valve A5 is opened, oxygen is supplied to the mixer A3 through the oxygen supply path A6b and diffuses the supplied oxygen into the mixer A3 using an acid pipe or a suitable acid substrate or acid stone. Improves the solubility of oxygen in water The water having the dissolved oxygen increased as described above is supplied to the user through the outlet A7. The control valve A5 may be provided with an instrument panel A9 or an LCD window. The instrument panel A9 or LCD window is for determining the amount of oxygen supplied, and the value displayed on the instrument panel A9 or LCD window is the amount of oxygen supplied to the mixer.

The amount of oxygen finally supplied to the water is determined through two routes.

As described above, the first oxygen supply passage is made in the main tank through the supply passage A6a and the second oxygen supply is made through the control valve A5. The amount of oxygen supplied through the main tank A2 is determined when the temperature and pressure of the main tank are measured, and the amount of dissolved oxygen finally dissolved in water is made through the control valve A5 which determines the amount of oxygen supplied to the mixer. .

The instrument panel A9 or LCD window installed in the control valve A5 should be displayed in view of the amount of oxygen supplied from the main tank A2. The value displayed on the instrument panel (A9) or LCD window is appropriately expressed as the amount of dissolved oxygen per unit volume, and the value actually measured takes into account the cross-sectional area of the pipeline by using the pressure or passage speed of oxygen passing through the control valve (A5). Should be determined experimentally.

Since the pressure or rate of oxygen measured by the above method determines the amount of oxygen per unit volume supplied to the mixer A3, it may be appropriate to convert the pressure or rate into the amount of dissolved oxygen to be displayed.

Such a method makes it possible to supply an appropriate amount of oxygen required by the user depending on the user, for example, whether he is a healthy person or an elderly person or according to age.

2 shows a device diagram of an oxygen generator used in the present invention.

The air compressor 21 compresses the air introduced from the outside, and generally, the inlet air is composed of about 20% oxygen, 80% nitrogen, and a small amount of carbon dioxide. The air compressed by the air compressor 21 is introduced into the adsorption devices 23a and 23b through the solenoid valve 22. The solenoid valve 22 may be a solenoid valve or the like and serves to connect the flow of air to any one of the adsorption devices 23a and 23b. The adsorption apparatus is filled with a molecular zeolite capable of adsorbing nitrogen and the like to adsorb gases other than oxygen.

Check valve 25 is installed to prevent backflow of the air flow between the adsorption devices (23a, 23b) and the air passing through the check valve 25 passes through the cleaning valve 26, unnecessary substances such as contaminants Remove them.

The parallel valve 24 serves to connect the two adsorption devices and keep them parallel.

A pressure regulator 27 for adjusting the amount of oxygen introduced into the main tank A2 or the mixer A3 of FIG. 1 is installed, and the pressure regulator 27 serves to control the inflow of air. The air passing through the pressure regulator 27 is introduced into the oxygen flow meter 28 and purified again through the oxygen filter 29. As a result, in the present invention, the generation of oxygen is controlled in two ways.

That is, whether or not oxygen is generated is determined using the control device A6 installed in the oxygen generator A4 and the pressure regulator 27. However, the oxygen supply amount substantially mixed in the main tank A2 is made through the control device A6.

The oxygen generator shown in FIG. 2 is presented as an example and a known oxygen generator may be used. Unlike the method of using air introduced from the outside as described above, it is possible to use a method of generating oxygen using metal salts such as manganese dioxide or iron after dissociation with sodium carbonate and hydrogen peroxide using sodium peroxide and the like. In the case of generating oxygen by itself, there is a disadvantage in that a device for removing separate by-products is required, but the device itself is simplified.

On the other hand, the method of introducing external air has the advantage that a separate by-product processing device is not necessary and the air supply is smooth. However, since a separate device for removing gas and dust or bacteria other than oxygen such as compressor and nitrogen is needed, It is difficult to make.

Other known oxygen generators include hollow fiber membrane generators and flat membrane oxygen generators. The hollow fiber membrane oxygen generation method is an oxygen supply device using a gas separation membrane, the air compressed by the air pump is introduced into the gas separation membrane composed of an asymmetric structure hollow fiber bundle consisting of a separation layer having a dense surface and a porous layer below. To generate oxygen.

In addition, the flat membrane oxygen generator is an oxygen generator using a gas separation membrane composed of an asymmetric structural flat film consisting of a separation layer having a dense surface and a porous layer underneath thereof, and an air pump sucks air to one side of the asymmetric membrane. It is an oxygen generator that selectively absorbs and transfers oxygen in the atmosphere.

3 illustrates one embodiment of an apparatus for increasing dissolved oxygen by mixing oxygen introduced from an oxygen generator A4 with water.

The cooling device 31 may be any type of cooling device as a device for cooling the introduced oxygen. By lowering the temperature of the incoming oxygen serves to minimize the flow of oxygen in the mixer (A4) and reduce the diffusion rate of oxygen while maintaining an increased amount of dissolved oxygen.

The temperature of the oxygen passing through the cooling device 31 should be at least lower than the temperature of the water in the mixer. This is to keep oxygen dissolved in water to flow into the mixer A3 and to allow oxygen to diffuse from the bottom of the mixer.

The annular or curved flow path 32 serves to evenly distribute the introduced air in the mixer. The curved flow path 32 may have several inherent dozens of filters having micropores with an acid stone or an acid substrate for diffusing oxygen to the outside.

This is to minimize the loss of oxygen due to the flow of water itself by allowing the incoming air to be mixed in the water at a low rate.

In addition, it is to maintain the dissolved oxygen amount by allowing oxygen to be evenly diffused inside the mixer as much as possible. The flow path 32 is installed on the bottom of the mixer, and the longer the length is, the more advantageous it is.

This allows the incoming oxygen to be incorporated into the water at a low rate, thereby increasing the dissolved oxygen amount by increasing the time for oxygen to dissolve in the water.

As another method of supplying oxygen to the mixer A3, an organic acid structure tube having micropores on the surface may be used to use an acidic structure to help mix oxygen in gaseous state to liquid water.

In addition, it is also possible to use an opiris-type dissolving device that uses a device such as an acidic stone / plate having fine pores or injects oxygen into a sudden flow path reduction portion on the flow path leading to the purified water outlet A7 to assist gas / liquid mixing. Alternatively, it is also possible to increase the dissolution of oxygen by producing fine foams through rapid rotation of the oxygen outlet.

The above schemes may be applied to supplying oxygen to the mixer A3, and may also be applied to supplying oxygen to the main tank A4.

It is advantageous that the filter system device A1, the main tank A2, the oxygen generator A4 and the mixer A3 are made integrally and have a compact shape as a whole.

The mixer A3 may be manufactured in a transparent form so that the user may directly check that oxygen is mixed into water when the user uses the liquid, thereby increasing the reliability of the user.

In addition, the valve (A5) for communicating oxygen to the mixer (A3) should be installed externally so that the user can directly operate the oxygen supply amount to control the valve (A5) so that the user can adjust the degree of mixing of oxygen as needed It may be more advantageous to have an instrument panel A9 or an LCD window in a controllable form so that the user can know the amount of oxygen that is additionally controlled.

Supplying oxygen to the main tank A2 and the mixer A3 may use a blowing method.

That is, oxygen cooled by a suitable method is blown into the main tank A2 under a constant pressure. The low temperature oxygen diffuses out far below the main tank A2 or the mixer A3.

The blowing method as described above may be repeated at regular time intervals, but in order to increase the practical use of the water purifier, the oxygen is blown at the moment of discharging water from the outlet A7 with an appropriate sensing device connected to the water purifier outlet A7. It is advantageous to do so.

In order to blow the oxygen, a nozzle having a proper pressure and the like having a nozzle is required, and a device for detecting the discharge of water from the outlet A7 and a device for controlling the blowing of the oxygen by receiving the same are required. Do.

As described above, the present invention mixes the oxygen generated in the high concentration oxygen generator (A4) with the water supplied from the main tank (A2) by using an appropriate mixer (A3) to increase the dissolved oxygen amount of the water purifier to provide a smooth oxygen supply to the body. It has the effect of providing the user with more useful health negative numbers where possible.

In addition, by using the valve A5 connected to the mixer A3, the user can directly adjust the amount of dissolved oxygen, so that the user can increase the reliability of using the water of the water purifier as well as the negative water according to the health condition or age of the user. Choosing the right amount of dissolved oxygen for, also serves as a kind of health water purifier.

It is also an advantage of the present invention that the apparatus is manufactured integrally so that a water purifier of a compact form as a whole does not require a separate oxygen generator and a device for mixing the generated oxygen with water.

The mixer A3 is equipped with a suitable acidizer device for increasing the amount of dissolved oxygen, and an annular or curved flow path 32 and a cooling device 31 to have uniformity of oxygen mixing and to increase the mixing time. do.

Dissolved oxygen content of general tap water is 5-7mg / L and in the clean area stream, the dissolved oxygen amount of 10-12mg / L is compared with the water purifier used in the present invention. Can adjust the amount of dissolved oxygen as needed.

1 is a block diagram showing the overall apparatus of the present invention.

Figure 2 is a block diagram showing an embodiment of an oxygen generator used in the present invention.

Figure 3 is a simple device diagram showing one embodiment of a mixer used in the present invention.

<Description of Symbols Used in Drawings>

A1: filter water purification system A2: main tank

A3: Mixer A4: Oxygen Generator

A5: control valve A6: control unit

A6a, A6b: oxygen supply pipe

A7: water purification outlet A8: control detector

A9: dissolved oxygen display instrument panel

21: air compressor 22: solenoid valve

23b, 23c: adsorption device 24: parallel valve

25 check valve 26 cleaning valve

27: pressure regulator 28: oxygen flow meter

29: oxygen purification filter

31: cooling device 32: curved flow path

321: acid substrate

Claims (9)

In the water purifier, A purified water filter system A1 for purifying water introduced from a source of water; A main tank (A2) for storing water introduced from the water filter system (A1); An oxygen generator (A4) for generating oxygen using the air introduced from the outside air and supplying the generated oxygen to the main tank (A2) and the mixer (A3); An annular or curved flow path 32 composed of a cooling device 31 and an acidic stone / plate having fine holes in the surface, and inflow of oxygen supplied from the oxygen generator A4 from the main tank A2. A mixer A3 for mixing with the water to increase the amount of dissolved oxygen; A control valve (A5) installed outside the water purifier to adjust the amount of oxygen introduced into the mixer (A3); An oxygen generation control device (A6) equipped with a sensor in the main tank (A2) to control oxygen generation of the oxygen generator (A4) by using a control value measured by the sensor; Water purifier provided with an oxygen generator (A4) and a mixer (A3) including a. The method according to claim 1, Oxygen generator (A4) comprising the control device (A6) to measure the pressure of the main tank (A2) to adjust the operating time of the oxygen generator (A4) and to adjust the amount of oxygen generated and the amount of oxygen supply through the valve and Water purifier provided with a mixer (A3) integrally. delete The method according to claim 1, The oxygen generator (A4) and the water purifier is integrally provided with a mixer (A3) comprising the oxygen generator (A4) is a hollow fiber membrane (membrane) or a flat membrane type. delete delete The method according to claim 1, The control valve (A5) is provided with an oxygen generator (A4) and a mixer (A3) integrally provided with an instrument panel (A9) or LCD window is provided so that the amount of oxygen supplied to the mixer (A3). delete The method according to claim 1, The supply to the main tank (A2) is made in a blowing (blowing) method and the water is discharged by detecting the discharge of water by using a sensing device connected to the purified water outlet (A7) the main tank (A2) and / or A water purifier provided integrally with an oxygen generator (A4) and a mixer (A3), including the blowing of oxygen into the mixer (A3).