KR20090025892A - Direct connection type water cleaner - Google Patents

Abstract

A water purifier connected with waterworks directly is provided to prevent contamination of water and increase life span of a filter by discharging a foreign material and sterilizing the filter automatically. A water purifier connected with waterworks directly comprises the followings: a first cooler(20) heat-exchanged with tap water and directly with a inlet tube(10) of tap water; a solenoid valve(30) shielding and supplying the tap water; a filter(40) purifying the tap water and installed on a rear side of the first solenoid valve; a second solenoid valve(50) shielding and supplying the purified water into the first cooler; a heater(60) heating the supplied water; a hot water supply pipe(70) supplying the heated water; a second cooler(80) cooling the water; and a cold water supply pipe(90) supplying the cooled water.

Description

Direct Connection Type Water Cleaner}

The present invention relates to a water direct type water purifier, and more particularly, to a water direct type water purifier for supplying cold water and hot water by purifying tap water directly supplied with water.

With the development of modern industrial society, environmental pollution is getting serious and contaminated with drinking water, which is essential for human survival.

In particular, Korea is a water-deficient country, and the distrust of tap water among the people is prevalent, and the urban water supply rate in urban areas is over 90%, but the regional water supply rate in rural and rural areas is still less than 30%. It is true.

The main reason for the distrust of tap water is the odor and water taste change caused by chlorine disinfection, containing carcinogens such as THM caused by chlorine compounds, and drinking water due to aging and pollution of water pipes from the water treatment plant to homes and consumers. It is a complex factor such as pollution phenomenon.

With the recent increase in group meals, food poisoning accidents caused by contamination of drinking water or cooked water (norovirus, etc.) frequently occur, and water purifiers are being distributed in large quantities in coordination with unbelief about tap water.

Most of the water purifiers currently in use employ ultrafiltration membranes (UF membranes) or reverse osmosis membranes (RO membranes) as the main filter, and most of the three or four activated carbon filters are adopted before and after the main filter. However, this method acts as a microbial carrier and activated charcoal filter provides a good environment for bacteria to grow, which leads to the easy propagation of bacteria and consequently contaminates the water filter.

In addition, 90% of current domestic water purifiers inevitably generate water that is thrown away by the reverse osmosis method, which is a waste of water, and because the filtration efficiency of the reverse osmosis membrane is low, it is necessary to use a water storage tank to purify the water. There are problems that water is contaminated by bacteria due to contamination of the reservoir tank.

The present invention has been made to solve the above problems, an object of the present invention is to provide a water direct connection type water purifier without the need for a water tank, the structure is simple, small and high water purification efficiency.

In addition, another object of the present invention is to provide a water direct type water purifier to automatically sterilize the filter to prevent the water filter is contaminated with bacteria.

In order to achieve the above object, the water direct type water purifier of the present invention is directly connected to the tap water inflow pipe 10 into which tap water is introduced, and the primary cooler 20 is heat-exchanged with the tap water supplied thereto; A first solenoid valve 30 for supplying and blocking water supply heat exchanged from the primary cooler 20; A filter 40 provided at a rear end of the first solenoid valve 30 to filter tap water; A second solenoid valve (50) for supplying and blocking the purified water filtered by the filter (40) to the primary cooler (20); The heater 60 is installed on the first branch pipe 1 branched in front of the second solenoid valve 50, and the filtered purified water is supplied when the second solenoid valve 50 is closed to heat the supplied purified water. ; A hot water supply pipe 70 for supplying purified water heated by the heater 60; A secondary cooler (80) which is supplied to the primary cooler (20) by opening the second solenoid valve (50) to cool the primary cooling purified water exchanged with tap water by a refrigerant; And a cold water supply pipe (90) for supplying purified water secondary cooled by the secondary cooler (80). Characterized in that comprises a.

In addition, it is installed on the second branch pipe (2) branched in front of the first solenoid valve 30 and opened when the first solenoid valve 30 and the second solenoid valve 50 is closed to open the primary cooler. A third solenoid valve (100) for supplying the tap water exchanged by (20) to the heater (60) to wash the filter (40); A drain pipe (3) draining the washing water washing the filter (40) and branching between the first solenoid valve (30) and the filter (40); And a fourth solenoid valve 110 installed on the drain pipe 3 to control the discharge of the washing water. Characterized in that comprises a.

In addition, a pressure reducing valve 11 is installed between the tap water inlet pipe 10 and the primary cooler 20 to reduce the pressure of tap water.

In addition, it is characterized in that it is further provided between the first solenoid valve 30 and the filter 40, the boosting means 31 for boosting the pressure of the tap water heat exchanged under reduced pressure.

In addition, the hot water supply pipe 70 is installed on the third branch pipe (4) branched to the rear end of the second solenoid valve 50 and prevents the filtered purified water from flowing back. When the pressure of 70 is more than a predetermined, it is characterized in that the check valve 120 for supplying to the primary cooler 20 to prevent the pressure rise further.

In addition, the filter 40 is characterized in that consisting of activated carbon and ceramic balls.

As described above, the present invention eliminates the risk of bacterial contamination generated in the storage tank by eliminating the need for a storage tank in which bacteria propagate when supplying cold water and hot water. The water purifier is compact and can be installed in a narrow place, so the space utilization is high, and it is easy to install and maintain. In addition, the regenerative function is applied in combination to prevent contamination of bacteria, and the heater is built in the water purifier to rapidly cool the drinking water heated in the heater 60 to cool the drinking water by using the raw water and the refrigerant for 1st and 2nd time. It is possible to prevent contamination of bacteria. In addition, the automatic sterilization of the filter can suppress the growth of bacteria, there is an advantage that can extend the service life of the filter by discharging some of the contaminants adsorbed from the filter.

Hereinafter, with reference to the accompanying drawings a water direct type water purifier according to the present invention having the configuration as described above will be described in detail.

1 is a view showing a schematic structure of the water direct type water purifier according to the present invention, FIG. 2 is a view showing the use of cold water of the water direct type water purifier according to the present invention, and FIG. 3 is a water direct type water purifier according to the present invention. Figure 4 is a view showing the use of hot water, Figure 4 is a view showing the filter automatic sterilization of the water direct type water purifier according to the present invention, Figure 5 is a view showing the washing time of the cold water supply pipe of the water direct type water purifier according to the present invention.

As shown, the water direct type water purifier according to the present invention is directly connected to the tap water inlet pipe 10 and the primary cooler 20 is heat-exchanged with the supplied tap water; A first solenoid valve 30 for supplying and blocking heat exchanged tap water; A filter 40 for filtering tap water; A second solenoid valve 50 for supplying and blocking the filtered purified water to the primary cooler 20; A heater 60 for heating the purified water supplied when the second solenoid valve 50 is closed; A hot water supply pipe 70 for supplying purified water heated by the heater 60; A secondary cooler 80 for cooling the heat-exchanged primary cooling purified water with a refrigerant; And a cold water supply pipe 90 for supplying secondary cooled purified water. It is made, including.

The primary cooler 20 is directly connected to the tap water inlet pipe 10 through which tap water is introduced, and serves to heat the supplied tap water. The heat-exchanged tap water is supplied to the filter 40 by opening the first solenoid valve 30.

At this time, it is preferable that the pressure reducing valve 11 is further provided between the tap water inlet pipe 10 and the primary cooler 20 to reduce the pressure of tap water.

In addition, by installing a flow sensor (not shown) in the tap water inlet pipe 10 to configure the alarm to occur when a leak occurs due to damage to the pipe, valve breakage to improve the safety of the device and easy maintenance desirable.

The first solenoid valve 30 serves to supply and shut off the tap water that is heat exchanged from the primary cooler 20. When the first solenoid valve 30 is opened, the heat-exchanged tap water is supplied to the filter 40.

The filter 40 is provided at a rear end of the first solenoid valve 30 to filter tap water. The filter 40 is composed of activated carbon, ceramic balls, etc., which are excellent in high temperature sterilization, satisfy water purification performance which is a basic performance of the water purifier, and have the following functions. Decolorization function (removal of absorbing material of visible wavelength), removal of substances having absorbance other than visible wavelength, removal and adjustment of odorous substances, flavor adjustment function, removal of organic solvent components and organic substances in water Function, Detergent (ABS), Organic Phosphorus, Organochlorine Pesticide, Multinuclear Aromatic Hydrocarbons Removal Function, Foaming Material Removal Function, Crystal Precipitation Inhibitor Removal Function, Suspension and Colloid Removal Function , Removal of substances that promote deterioration of products, removal of inorganic pollutants, removal of residual chlorine, phenols, and trihalomethane (THM) in water treatment. In addition, by using an activated carbon filter that is durable in high temperature water and an alkaline ball ceramic filter having a water purification capacity and an alkali water generation capability, it is possible to improve the water purification capacity and the taste of the water.

Boosting means 31 is installed between the first solenoid valve 30 and the filter 40 in order to smoothly pass the heat exchanged tap water through the filter 40 to boost the heat exchanged tap water. It is preferable that this is further provided. The boosting means 31 uses a motor or a pump.

The second solenoid valve 50 serves to supply and block the purified water filtered by the filter 40 to the primary cooler 20. The purified water filtered by the opening of the second solenoid valve 50 is cooled by heat exchange with the tap water through the primary cooler 20.

The secondary cooler 80 is supplied to the primary cooler 20 by the opening of the second solenoid valve 50 and serves to cool the primary cooling purified water exchanged with the tap water by the refrigerant.

The cold water supply pipe 90 serves to supply purified water secondary cooled by the secondary cooler 80.

The purified water primarily cooled by the primary cooler 20 is cooled by the refrigerant via the secondary cooler 80 so that cold water is supplied through the cold water supply pipe 90.

2 is a view showing the cold water supply time.

As shown, the tap water heat exchanged through the primary cooler 20 is supplied to the filter 40 by the opening of the first solenoid valve 30, the filtered purified water is the second solenoid valve 50 The purified water is firstly cooled with primary water through the primary cooler 20 through the opening of the primary cooler, and the secondary coolant is secondarily cooled by the refrigerant in the secondary cooler 80 and supplied to the cold water through the cold water supply pipe 90. Will be.

The present invention is a combination of regenerative function is able to prevent contamination to bacteria. Heater 60 is embedded in the water purifier to pass the primary cooler 20 using the temperature of the raw water introduced such as a heat exchanger and the secondary cooler 80 using the refrigerant to rapidly cool the drinking water heated by the heater 60. By supplying drinking water of 4 ~ 6 ℃ it is possible to prevent contamination to bacteria.

The heater 60 is installed on the first branch pipe 1 branched in front of the second solenoid valve 50, and when the second solenoid valve 50 is closed, the filtered purified water is supplied to supply the purified water. It serves to heat.

The hot water supply pipe 70 supplies the purified water heated by the heater 60.

It is installed on the third branch pipe 4 branched to the rear end of the second solenoid valve 50 on the hot water supply pipe 70 and prevents the filtered purified water from flowing back. When the hot water is not used, the hot water supply pipe 70 When the pressure is more than a predetermined, it is preferable that the check valve 120 is further provided to supply to the primary cooler 20 to prevent the pressure rise.

3 is a view showing the hot water supply.

As shown, the tap water heat exchanged through the primary cooler 20 is supplied to the filter 40 by the opening of the first solenoid valve 30, the filtered purified water is the second solenoid valve 50 The heating is supplied to the heater 60 by the closing of the heated water is supplied to the hot water through the hot water supply pipe (70).

As described above, the present invention does not need a storage tank in which bacteria propagate when cold water and hot water are supplied, thereby eliminating the risk of bacterial contamination generated in the storage tank, thereby providing cold and hot water directly.

In addition, the present invention can be installed in a narrow place with a compact water purifier of the water direct type without a water tank, there is a high space utilization, there is an advantage that easy installation and maintenance.

The present invention for cleaning the filter 40, is installed on the second branch pipe (2) branched in front of the first solenoid valve 30, the first solenoid valve 30 and the second solenoid valve (50) a third solenoid valve 100 which opens when closed and supplies the tap water heat exchanged by the primary cooler 20 to the heater 60 to clean the filter 40, and the filter ( 40 is disposed on the drain pipe (3) and the drain pipe (3) branched between the first solenoid valve 30 and the filter 40 to discharge the washing water washed to control the discharge of the wash water. Four solenoid valve 110 is preferably further provided.

4 is a diagram illustrating a filter automatic cleaning time.

As shown, when the filter is automatically cleaned, the tap water exchanged through the primary cooler 20 while the first solenoid valve 30 and the second solenoid valve 50 are closed, the first solenoid valve 30 is supplied to the heater 60 by opening of the third solenoid valve 100 installed on the second branch pipe 2 branched at the front end and heated by the heater 60, Tap water backwashes the filter 40 via the filter 40 and the washed wash water is discharged by opening the fourth solenoid valve 110 through the drain pipe 3.

As described above, the present invention can suppress the bacteria propagation at the filter site where bacteria are mainly multiplied by the automatic sterilization function of the filter. In particular, the present invention is a LTLT (Low Tempeature Long Time) method used for milk sterilization, that is, pasteur is a method designed to prevent the deterioration and corruption of wine by sterilizing food at a low temperature of 60 ~ 65 ℃ Pasteur Automatic sterilization can be done using a method known as pasteurization. In general, pathogenic bacteria found in crude oil are easily killed by light heat treatment, but tuberculosis bacteria, the most resistant pathogen, is killed by heat treatment at 63 ° C. for 10 minutes. Because of this, similar to the LTLT method (63-65 ℃ 30 minutes heating) for milk sterilization, the present invention is a system for automatically sterilizing the filter 40 by the PCB substrate using hot water of 80 ℃ heated in the water purifier heater. It is characteristic to use. At the time of automatic sterilization, it is preferable to sterilize about 80 minutes with warm water three times a day.

In addition, during automatic sterilization it is possible to extend the service life of the filter by draining the contaminants adsorbed by the filter 40 by draining the washing water washed with the filter with hot water.

5 is a view showing the washing time of the cold water supply pipe of the water direct type water purifier according to the present invention.

As shown in the drawing, when the cold water supply pipe is washed, the tap water exchanged through the primary cooler 20 while the first solenoid valve 30 and the fourth solenoid valve 110 are closed is connected to the first solenoid valve. 30 is supplied to the heater 60 by opening of the third solenoid valve 100 installed on the second branch pipe 2 branched at the front end and heated by the heater 60, Tap water is supplied to the primary cooler 20 by opening the second solenoid valve 50 and washes the cold water supply pipe 90 through the secondary cooler 80. At this time, the operation of the secondary cooler 80 is stopped.

1 is a view showing a schematic structure of a water direct type water purifier according to the present invention.

2 is a view showing the use of cold water of the water direct type water purifier according to the present invention.

Figure 3 is a view showing the use of hot water of the water direct type water purifier according to the present invention.

Figure 4 is a view showing the filter automatic sterilization time of the water direct type water purifier according to the present invention.

5 is a view showing when the cold water supply pipe washing of the water direct type water purifier according to the present invention.

<Explanation of symbols for main parts of the drawings>

1: first branch pipe 2: second branch pipe

3: drain pipe 4: third branch pipe

10: tap water inlet pipe 11: pressure reducing valve

20: primary cooler 30: first solenoid valve

31: boosting means 40: filter

50: second solenoid valve 60: heater

70: hot water supply pipe 80: secondary cooler

90: cold water supply pipe 100: third solenoid valve

110: fourth solenoid valve 120: check valve

Claims (6)

A first cooler 20 directly connected to the tap water inflow pipe 10 through which tap water is introduced and heat-exchanged with the supplied tap water; A first solenoid valve 30 for supplying and blocking water supply heat exchanged from the primary cooler 20; A filter 40 provided at a rear end of the first solenoid valve 30 to filter tap water; A second solenoid valve (50) for supplying and blocking the purified water filtered by the filter (40) to the primary cooler (20); The heater 60 is installed on the first branch pipe 1 branched in front of the second solenoid valve 50, and the filtered purified water is supplied when the second solenoid valve 50 is closed to heat the supplied purified water. ; A hot water supply pipe 70 for supplying purified water heated by the heater 60; A secondary cooler (80) which is supplied to the primary cooler (20) by opening the second solenoid valve (50) to cool the primary cooling purified water exchanged with tap water by a refrigerant; And A cold water supply pipe (90) for supplying purified water secondary cooled by the secondary cooler (80); Water direct type water purifier, characterized in that comprises a. The method of claim 1, It is installed on the second branch pipe (2) branched in front of the first solenoid valve (30) and opened when the first solenoid valve (30) and the second solenoid valve (50) are closed to open the primary cooler (20). A third solenoid valve (100) for supplying the tap water heat exchanged by) to the heater (60) to wash the filter (40); A drain pipe (3) draining the washing water washing the filter (40) and branching between the first solenoid valve (30) and the filter (40); And A fourth solenoid valve 110 installed on the drain pipe 3 to control the discharge of the washing water; Water direct type water purifier, characterized in that comprises a. The method according to claim 1 or 2, Water supply type water purifier, characterized in that further provided between the tap water inlet pipe 10 and the primary cooler 20, the decompression valve (11) for reducing the pressure of tap water. The method of claim 3, wherein And a boosting means (31) is provided between the first solenoid valve (30) and the filter (40) and boosts the tap water which has been decompressed and heat-exchanged. The method of claim 4, wherein It is installed on the third branch pipe 4 branched to the rear end of the second solenoid valve 50 on the hot water supply pipe 70 and prevents the filtered purified water from flowing back. When the hot water is not used, the hot water supply pipe 70 When the pressure is more than a predetermined, water supply type water purifier, characterized in that the check valve 120 is further provided to prevent the increase in pressure by supplying to the primary cooler (20). The method according to claim 4 or 5, The filter 40 is water direct type water purifier, characterized in that consisting of activated carbon and ceramic balls.

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