KR20030086466A - Coldness and warmth clean water device system - Google Patents

Abstract

PURPOSE: Provided is a hot/cold water purifier system that purifies water after lowering temperature of raw water to below a predetermined temperature, electrolyzes the purified water to alkaline and acid water and selectively provides hot and cold water. CONSTITUTION: The system comprises a filter(10) installed in a water supply pipe connected to a tap for eliminating impurities in raw water to be purified; a valve(20) connected to the water supply pipe for separately providing hot and cold water, respectively; a pressure sensor(30) for detecting water pressure of water supplied via the valve(20); a cooling system(50) which includes an evaporator(51) for depriving heat from the supplied raw water to lower temperature of the raw water, a compressor(52), a condenser(53), a drier(54), and a reducing capillary tube(55); a conventional water purifying system(70) for purifying water supplied via the evaporator(51) of the cooling system(50); a solenoid valve installed before the cooling system(50) for bypassing raw water when the raw water is supplied in excessive amount to the evaporator(51); a bypass pipe(60) for providing the water bypassed by the solenoid valve to the water purifying system(70); a temperature sensor(80) for detecting temperature of the water purified by the water purifying system(70); an electrolyzer(90) for electrolyzing the purified water to alkaline and acid water; and a controller(100) for controlling all of the compartments of the whole system.

Description

Cold and hot water ionizer system {Coldness and warmth clean water device system}

The present invention relates to a cold and hot water ionizer system, and more particularly, to cool the cooled water through a water purification system in a state in which the temperature of the water is lowered to a predetermined temperature through the refrigerant system, and then ionized through the electrolytic cell. It relates to a cold and hot water ionizer system.

Recently, environmental pollution due to various pollutions has emerged as the most important social problem. Among the various environmental pollutions such as air pollution, land pollution, and water pollution, especially pollution of natural water such as river water, seawater, and hot spring water restricts the use of drinking water. It is becoming a serious problem. Therefore, in public places such as homes, schools, workplaces, and public offices without drinking tap water, cold and hot water purifiers are installed so that cold and hot water can be selected according to the taste of people who want to drink water.

In modern medicine, the cause of various adult diseases such as high blood pressure, diabetes, heart disease, etc. is found to be acidification of constitution due to excessive intake of acidic foods. Alkaline ionized to drink.

However, the conventional ionizer has a drawback that its structure is not only able to dispose of acidic ionized water obtained by electrolysis and to drink only alkaline ionized water, but also to control the concentration or pH of alkali ionized water.

The pH concentration of the ionized water production is proportional to the opening voltage, and in order to increase the pH concentration in inverse proportion to the quantity (flow rate), the voltage is increased or the quantity is reduced.

However, due to the increase and decrease in voltage and quantity, the production of the appropriate pH concentration ionized water is limited and difficult to use.

Recently, as the acidic ionized water has been found to have an excellent effect on not only skin care but also cleaning, there is a need to utilize acidic ionized water, but conventional ionized water is limited in its structure to dispose of acidic ionized water as sewage. There was a problem that it was not available.

In addition, the cold and hot water purifier is supplied with water to remove impurities contained in the water through an osmotic method or a filter, and cool or hot water from which impurities are removed so that the user can use the required water.

However, as described above, when water is simply purified and used, impurities (heavy metal, etc.) dissolved in water may not be properly purified, which is because water such as heavy metals is smaller than particles of various minerals dissolved in water. There is a problem that can not properly clean the water dissolved in the inside.

In addition, the cold and hot water purifier as described above has a function of removing only impurities dissolved in water and a function of using only cold water and hot water, and there are no other functions. There is a problem that cannot be used.

Water storage tank method that is discharged by cold and hot water in the state connected directly to the water is a problem of timely safety due to the overflow of water, which causes electrical short occurs due to the overflow of water, causing the breakdown of the equipment, There is always a problem that can be entered into other foreign matters had a disadvantage in that it is a problem in hygiene.

The present invention is to solve the problems as described above, by purifying water using a conventional water purification system in a state in which water is supplied and lowered below a certain temperature, and electrolyzed the purified water through an electrolytic cell It is an object of the present invention to provide a cold / hot water purified water ionizer system that allows a user to selectively use hot or cold water as alkaline or acidic ionized water.

1 is a block diagram showing a cold water purified water ionizer system according to the present invention.

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

10 filter 11 supply pipe

20: valve 30: pressure sensing unit

40: solenoid valve (solenoid valve) 50: refrigerant system

51: evaporator 52: compressor

53 condenser 54 dryer

55: decompression capillary 56: pipeline

60: bypass pipe 70: water purification system

80: temperature detection unit 90: electrolytic cell

100: control unit

The present invention configured to achieve the above object is as follows. That is, the cold and hot water ionizer system according to the present invention includes a filter installed in the supply pipe to filter the foreign matter contained in the water when the water is directly connected to the water supply is directly connected to the water supply; A cold / hot water valve configured to separately supply purified water to cold water and hot water, wherein the valve is connected to a supply pipe supplied through the filter to selectively supply water; A pressure sensing unit which checks the pressure of the water supplied to check whether the pressure of the water supplied through the valve is constant; An evaporator that evaporates heat to lower the water supplied through the pressure sensing unit below a certain temperature, a compressor that compresses the refrigerant to evaporate heat through the evaporator, and a vaporized refrigerant to condense the refrigerant in the compressor. To reduce the pressure of the refrigerant containing the heat supplied through the condenser, the evaporator, and to maintain a constant pressure through the reduced pressure capillary, and to remove the moisture generated from the condenser Refrigerant system consisting of a dryer for; Conventional water purification systems for purifying water supplied through the evaporator; An electronic valve (solenoid valve) installed at the front of the refrigerant system to bypass the water passing through the pressure sensing unit in order to eliminate the water supply to the evaporator of the refrigerant system; Bypass pipe for supplying the water bypassed through the solenoid valve (solenoid valve) to the water purification system; An electrolytic cell for electrolyzing the user to selectively use alkaline water or acidic ionized water to detect the temperature of the purified water through the water purification system to detect the temperature and the water supplied through the temperature sensing unit; Detects the pressure of water supplied to the refrigerant system and senses the temperature of the cooled water, and the water is purified through the purification system while the water is continuously cooled, and the purified water is supplied when the electrolysis is carried out by the electrolytic cell. It consists of a control unit for controlling the electrolytic current and the like.

Hereinafter, the cold and hot water purified water ionizer system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a cold and hot water ionizer system according to the present invention.

As shown in FIG. 1, the present invention provides a filter 10 installed in a supply pipe 11 to filter foreign substances included in the water and directly supplied with water when the water is directly supplied to the tap water. And hot and cold water valves are formed to separate and supply the hot water and hot water, respectively, but the pressure of the water supplied through the valve 20 and the valve 20 is connected to the supply pipe supplied through the filter to selectively supply the water. Pressure supply unit 30 to check the pressure of the water supplied to check, the refrigerant system 50 to lower the water supplied through the pressure detection unit 30 below a predetermined temperature, the water supplied through the evaporator In order to bypass the water passing through the pressure sensing unit 30 in order to eliminate the water supply to the evaporator 51 of the normal water purification system, the refrigerant system 50 to purify the purified water The bypass pipe 60 and the water purification system for supplying the water bypassed through the electromagnetic valve (solenoid valve) 40 and the electromagnetic valve (solenoid valve) 40 installed in front of each system to the water purification system 70 ( 70) so that the user can selectively use alkaline water or acidic ionized water to the water supplied through the temperature sensing unit 80 and the temperature sensing unit 80 to detect the temperature of the purified water through Electrolyzer 90 for electrolysis, sensing the pressure of the water supplied to the refrigerant system 50, the temperature of the lowered temperature by detecting the water is continuously purified by the water purification system 70 in the state of low temperature, purified water It is composed of a control unit 100 for controlling the electrolytic current, such as the supplied water is continuously supplied when the electrolysis by the electrolytic cell 90.

The refrigerant system 50 compresses the refrigerant to evaporate the heat through the evaporator 51 and the evaporator 90, which evaporates heat to lower the water supplied through the pressure sensing unit 30 to a predetermined temperature or less. The compressor 52, the condenser 53 for condensing the refrigerant vaporized so that the refrigerant in the compressor 52, the dryer 54 for filtering the water and foreign matter contained in the refrigerant liquefied in the condenser 53 In addition, the pressure of the refrigerant supplied through the dryer 54, the pressure-sensitive capillary tube 55, the pressure of the refrigerant generated through the evaporator 51 and the moisture generated while being uniform to a predetermined pressure through the pressure-sensitive capillary tube 55 It consists of 56.

The water purification system 70 normally cleans water using a method of water purification, and the water purification system 70 may use any one of water purification using a single filter and water purification using an osmotic pressure method. .

In addition, when the temperature of the water supplied to the electrolyzer 80 increases the surface electrolytic current, and if the temperature of the water supplied to the electrolyzer is low, the electrolytic current of the electrolyzer is lowered to produce alkali water and acidic ionized water through electrolysis.

Referring to the effect of the cold and hot water according to the present invention configured as described above are as follows.

When the water is directly connected to the tap water and supplied through the supply pipe 11, the foreign matter contained in the water is first purified through the filter 10, and the purified water again selects the supply of water through the supply pipe 11. It is supplied to the valve 20 which can be made. Check the pressure of the water by the pressure sensing unit 30 so that the pressure of the water supplied through the valve 20 is always maintained at a constant pressure or abnormal pressure (pressure supplied by the stagnation of water) This weighted) is detected in real time and applied to the control unit 100.

Water is supplied to the evaporator 51 of the refrigerant system 50 while checking the pressure of the water identified through the pressure sensing unit 30, and the water supplied to the refrigerant system 50 is no longer supplied into the evaporator. If it is stagnant, the control unit 100 applies a signal to the solenoid valve (solenoid valve) so that the water can be purified immediately, and water is supplied toward the bypass pipe 60 through the solenoid valve (solenoid valve) 40 by the applied signal. Change the direction of the water as much as possible.

The stagnation of the water supply means that the water supplied through the valve 20 does not supply any more water toward the evaporator 51, so that the pressure of the supplied water is increased, and the pressure of the increased water is sensed through the pressure sensing unit 30. The control unit 100 is applied to the control unit 100, and the control unit determines that the pressure of the water is high and operates the solenoid valve (solenoid valve) 40 so that the water is supplied to the bypass pipe 60 to increase the pressure of the water. To prevent them.

When the flow of water is changed to the bypass pipe 60, the water supplied to the bypass pipe 60 is supplied to the water purification system 70 to be purified.

In addition, the water supplied to the evaporator 51 is a refrigerant evaporator through the compressor 52, the condenser 53, the dryer 54, the reduced pressure capillary tube 55, the conduit 56 so as to lower the temperature below a certain temperature. The temperature of the water is lowered by the refrigerant supplied to the 51 and supplied to the evaporator 51.

The water whose temperature is lowered through the refrigerant system 50 is supplied to the purified water system 70 again, and the water is purified. In this case, when there is water supplied through the bypass pipe 60, the water is supplied through the evaporator 51. Since it is combined with the water to be supplied, the temperature can be lowered, and when there is no water supplied through the bypass pipe 60, low temperature water is supplied through the evaporator 51 to be purified through the water purification system 70.

Water purified through a general filter or other osmotic method of the water purification system 70 is supplied back to the electrolytic cell 90, wherein the control unit 100 is supplied with an electrolytic current supplied to the electrolytic cell 90 depending on the temperature of the water Decide whether to increase or decrease.

The criteria for selecting whether to increase or decrease the electrolytic current supplied to the electrolytic cell 90 is to increase the supply of electrolytic current if the temperature of the water supplied through the purification system 70 is below a certain temperature, and if the temperature of the water is above a certain temperature. By lowering the supply of the electrolytic current to allow electrolysis according to the temperature of the water supply to prevent unnecessary waste of the supplied electrolytic current.

In addition, by electrolyzing the water through the electrolytic cell 90, the user can selectively use alkaline water or acidic ionized water, thereby preventing unnecessary waste of water, and cleanly purified water may be used for the user's needs. Accordingly, there is an advantage that can be used to distinguish drinking water or hurdle water (water used as washing dishes).

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

Looking at the effect of the cold and hot water according to the present invention below, the present invention purifies the water at a low temperature using a refrigerant system and a purified water system while maintaining a constant water pressure and electrolyzing the water through an electrolytic cell to water of alkaline water and acidic ionized water. Since the user can use selectively, drinking water and hurdle water (washing dishes, etc.) can be used separately to prevent the waste of water.

In addition, by separating the acidic ionized water or alkaline water through the purified water so that the water is supplied to the user has the effect that can be used to distinguish drinking water and Hurdle water.

In addition, by allowing the purified water to be used immediately without using the reservoir as in the prior art, it is possible to prevent the water contained in the reservoir from overflowing, and also to prevent foreign matters from entering the reservoir.

Claims (2)

Water is purified using a normal water purification system, and a cold and hot water valve for separating and supplying purified water into cold water and hot water is formed, and a valve lever for supplying purified water through the cold and hot water valve is formed. In the cold and hot water machine, which is provided in the front of the body is formed with a drip tray for storing the water dropped from the valve at the bottom of the, A filter installed in the supply pipe to filter foreign substances included in the water and directly supplied when the water is directly supplied to the water supply; A cold / hot water valve configured to separately supply purified water to cold water and hot water, wherein the valve is connected to a supply pipe supplied through the filter to selectively supply water; A pressure sensing unit which checks the pressure of the water supplied to check whether the pressure of the water supplied through the valve is constant; An evaporator for evaporating heat to lower the water supplied through the pressure sensing unit below a predetermined temperature, a compressor for compressing a refrigerant to evaporate heat through the evaporator, vaporized to compress the refrigerant in the compressor A condenser to condense and liquefy the refrigerant, a dryer to filter out moisture and foreign substances contained in the refrigerant liquefied by the condenser, a pressure reducing capillary to maintain a constant pressure of the refrigerant supplied through the dryer, and a uniform pressure to a predetermined pressure through the pressure reducing capillary Refrigerant system consisting of a dryer for removing the moisture generated while the moisture generated in the pipeline of the refrigerant supplied through the evaporator; A conventional water purification system for purifying water supplied through the evaporator; An electronic valve (solenoid valve) installed in front of the refrigerant system to bypass the water passing through the pressure sensing unit in order to eliminate the water supply to the evaporator of the refrigerant system; A bypass tube for supplying water bypassed through the solenoid valve to the water purification system; A temperature sensing unit for sensing the temperature of the purified water through the water purification system; An electrolytic cell for electrolyzing the water supplied through the temperature sensing unit so that the user can selectively use alkaline water or acidic ionized water; And Sensing the pressure of the water supplied to the refrigerant system, the temperature of the lowered water is detected by the water purification system 70 while the water is continuously lowered, the purified water is continuously electrolysis by the electrolytic cell Cold and hot water ionizer system, characterized in that it comprises a control unit for controlling the electrolytic current and the like supplied at the time. The method of claim 1, wherein when the temperature of the water supplied to the electrolytic cell is high, the electrolytic current is increased, and when the temperature of the water supplied to the electrolytic cell is low, the electrolytic current of the electrolyzer is lowered to produce alkali water and acidic ionized water through electrolysis. Cold and hot water ionizer system.