KR20060006486A - Clean water system - Google Patents

Abstract

A sanitary water purification system is disclosed.

Such a water purification system has a pipeline directly connected to the waterworks, and the pipeline is provided with a plurality of filters for filtering foreign substances and heavy metals contained therein, and cooling means for cooling the filtered constant. The cooling means comprises a cycle closed by a compressor, a condenser, an expansion valve, and an evaporator for compressing the refrigerant, and the pipe line of the evaporator is located in a coil shape and the pipe through which the filtered constant flows. It is inserted in the longitudinal direction inside the pipeline to take the structure of a double tube, these double tube is wound in a cylindrical shape. Such a system does not require a water tank, thereby preventing bacterial breeding in the water tank.

Water Purifier, Filter, Chiller, Evaporator, Coil

Description

Clean Water System

1 is a view for explaining a water purification system according to the present invention.

2 is a view for explaining the positional relationship between the water supply line and the refrigerant line according to the present invention.

3 is a partial view of a water purification system according to another embodiment of the present invention.

The present invention relates to a water purification system, and more particularly, a double pipe is formed by inserting a pipe through which a constant flows without a water tank for storing water in a longitudinal direction inside a pipe through which a refrigerant flows. The present invention relates to a water purification system capable of essentially preventing the growth of bacteria that propagate in a tank in which water is stored by allowing a heat exchange to be wound in a coil shape.

A well-known water purification system includes filters connected to a water pipe, a tank for temporarily storing water purified by the filters, and heat exchange means installed on the outer circumference of the tank.

Since such a system always contains water in a water tank, heat is exchanged with the refrigerant coil wound around the water tank so that the purified water is cooled and contained in the water tank, and then supplied to the user.

However, since the purified water system as described above contains purified water in the tank, there is a concern that bacteria are generated in the tank, and the above-mentioned concern is cumbersome to clean the tank.

Since the water tank is substantially not sealed to the outside, there is a higher risk of germs propagating.

In addition, when the user uses cold water with the cooled water contained in it, a new constant flows into the tank. As the cooled water mixes with the constant, thermal equilibrium is achieved, which results in a slight increase in the temperature of the water contained in the tank. This is one factor that lowers the cooling efficiency.

Also, in such a system, a plurality of filters occupy a certain space, and a water tank occupies a certain space, so that the volume of the case becomes larger than necessary to be set in the case.

In particular, in the state in which the water is contained in the tank, the inner circumferential surface side of the tank located close to the coil of the cooling means is quickly cooled, but the water contained in the central portion of the tank is difficult to cool quickly.

The present invention has been invented to solve the problems of the prior art as described above, the object of the present invention is to provide a water purification system that can be used more hygienic by cooling the purified water immediately.

In order to realize the above object, the present invention includes a filter unit for filtering foreign substances and harmful substances contained in the raw water when the raw water is supplied;

A purified water coil portion for flowing purified water supplied from the filter portion in a state where the surface area is increased within a linear distance;

A refrigerant coil part which takes heat from the purified water flowing through the purified water coil part and cools it;

It includes a refrigeration cycle for supplying a low pressure refrigerant gas to the refrigerant coil portion,

Provided is a water purification system in which a pipe line of the purified water coil part is inserted in the longitudinal direction inside the pipe line of the refrigerant coil so that heat exchange is performed between these pipe lines.

From the filter part to the outlet of the purified water coil part consists of a single pipe, substantially these sections have a closed configuration. This is effective in reducing the propagation of bacteria caused by external influences.

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

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view for explaining a water purification system according to the present invention, comprising: a filter unit 2 connected to a water supply, which is raw water, a purified water coil unit 4 through which water purified from the filter unit 2 flows, and And a refrigerant coil portion 6 for cooling the purified water flowing into the purified water coil portion 4 to lower the temperature, and a refrigerator 8 for supplying the refrigerant gas of low pressure to the refrigerant coil portion 6.

The purified water coil portion 4 and the refrigerant coil portion 6 are inserted in the longitudinal direction of the conduit 5 through which the purified water flows into the conduit 9 through which the coolant flows, so that the conduit 5 and the conduit 5 of these coil portions ( 9) can be heat exchange with each other. Therefore, since the purified water coil part 4 is located inside the refrigerant coil part 6, it does not appear outside.

The insertion start part of the refrigerant coil part 6 into which the purified water coil part 4 is inserted and the end of the refrigerant coil part 6 through which the purified water coil part 4 penetrates are sealed to prevent the refrigerant from flowing out. Is made.

In this embodiment, for the purpose of more efficient heat exchange, the conduit 5 through which the purified water flows is wound in a coil shape in the longitudinal direction inserted into the conduit 9 through which the refrigerant flows to form a space part inside the coil part.

In particular, in the present embodiment, the purified water coil part 4 is formed in a coil part by a method for increasing the surface area of the conduit through which purified water flows within a predetermined linear distance.

The refrigerator 8 includes a compressor 10 for compressing refrigerant gas, a condenser 12 connected to the compressor 10, an expansion valve 14 connected to the condenser 12, and the expansion valve ( 14 is a refrigeration closed cycle consisting of an evaporator connected to 14), wherein the evaporator is the refrigerant coil part 6.

The fraud filter unit 2, the purified water coil unit 4, the refrigerant coil unit 6, and the refrigerator may be set in an assembly form embedded in a case.

2 is a view for explaining the positional relationship between the purified water coil portion 4 and the refrigerant coil portion 6, wherein the pipeline 9 of the refrigerant coil portion 6 has a sufficient diameter while being wound in a coil shape and has a cylindrical shape. A space is formed in the upper part, in which the filter part 2 may be located as shown in FIG.

When the filter part 2 is positioned in the space part, the water passing through the filter part 2 is substantially preliminarily cooled because the filter part 2 is cooled while substantially exchanging heat with the refrigerant coil part 6.

For example, the filter unit 2 may use a sediment filter 16, a precarbon filter 18, a hollow fiber membrane filter 20, and a post carbon filter 22.

The sediment filter 16 is the first contact with the raw water to function to filter the residue or contaminants of about 0.5 microns or more.

The precarbon filter 18 is a solid carbon filter, and serves to adsorb and remove chlorine trihalomethane organic chemicals and the like, which are harmful chemical substances dissolved in raw water.

In addition, the post carbon filter 22 serves to restore the natural taste of water by removing gas components and odor components. Such filters can be used as well known filters that are commonly used.

Among these filters, there may be one or more filters positioned inside the purified water coil part 4.

Meanwhile, another pipe line 24 is branched into the pipe line 5 so that a purified water flows in the pipe line 24. The pipe line 24 is provided with a conventional hot water device 26 for supplying hot water.

In the figure, reference numeral 28 denotes a cock having a general structure installed at the end of the conduit 5, and reference numeral 30 denotes a cock having a general structure installed at the end of the conduit 24 and used as a means for receiving cold water and hot water, respectively. do.

The above structure has a closed structure in which a pipeline from the conduit of the filter unit 2 into which the constant water flows into the cock 28 consists of a single conduit 5.

In the water purification system of the present invention thus formed, when water is supplied from the tap water, it is introduced into the filter unit 2 to filter out harmful substances and flows to the purified water coil unit 4 through the conduit 5.

At the same time, when the refrigerator 8 is operated, the high pressure refrigerant compressed by the compressor 10 flows to the refrigerant coil part 6 through the refrigeration cycle and becomes a low pressure refrigerant gas, thereby depriving the surrounding heat.

In this way, the refrigerant coil part 6 takes heat away from the surroundings, and since the pipeline 5 of the purified water coil part 4 is inserted in the longitudinal direction inside the pipeline 9 of the refrigerant coil part 6, Thus, in these coils, heat exchange occurs while water flows.

However, since the refrigerant coil portion 6 into which the purified water coil portion 4 is inserted is formed in a coil shape and has a cylindrical shape, the surface area of the portion where heat exchange is performed is very large. This means that rapid cooling is possible.

Therefore, the cold water can be eaten through the cock 28. When the cold water is used, the water in the conduit 5 of the purified water coil part 4 decreases, and the new purified water is introduced again into the purified water coil part. In this process, the water flowing through the purified water coil part 4 can be cooled.

At this time, since the filter unit 2 may be pre-cooled by the refrigerant coil unit 6, the water of the purified water coil unit may be cooled more quickly.

       As described above, the water purification system according to the present invention has a sealed structure up to the water purification coil and the cock for using cold water, which are cooled by the water filter unit and the refrigerant coil unit, thereby preventing bacterial propagation due to external influences. .

       Therefore, it is possible to provide drinking water in a more hygienic and clean environment compared to water purifiers well known so far.

Claims (7)

Filter unit for filtering foreign substances and harmful substances contained in the raw water when the raw water is supplied; A purified water coil portion for flowing purified water supplied from the filter portion in a state where the surface area is increased within a linear distance; A refrigerant coil part which takes heat from the purified water flowing through the purified water coil part and cools it; It includes a refrigeration cycle for supplying a low pressure refrigerant gas to the refrigerant coil portion, And a pipe line of the purified water coil part is inserted in the longitudinal direction inside the pipe of the refrigerant coil part so that heat exchange is performed. The water purification system according to claim 1, wherein some or all of the filter units are located in an inner space of the purified water coil unit. The water purification system according to claim 1, wherein a hot water device is connected between the filter unit and the purified water coil unit. The water purification system according to claim 1, wherein the water purification system has a closed structure comprising a single pipe from a filter portion into which raw water is introduced to a coil portion for performing heat exchange to cool the purified water, and a cock for using cold water. The water purification system according to claim 1, wherein the water pipe of the purified water coil part is wound in a coil shape while being inserted into the pipeline of the refrigerant coil part. The water purification system according to claim 1, wherein the pipeline start portion of the refrigerant coil portion into which the purified water coil portion is inserted and the pipeline end portion of the refrigerant coil portion from which the purified water coil portion exits are closed. The water purifying system according to claim 1, wherein the filter part, the purified water coil part, and the refrigerant coil part are embedded in a case.

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