KR100591579B1 - Cooling system in water purifier having membrane filter - Google Patents

Abstract

The present invention is a reverse osmosis water purifier in which the raw water is filtered through a filter unit including a plurality of filtering means including a reverse osmosis filter, and the purified water generated after the filtration is accommodated in a cold water tank to allow the extraction of cold water after cooling. A cooling coil installed in a cold water tank and a refrigerant flowing therein, a compressor installed in an outlet direction of the cooling coil, a condenser provided in an inlet direction of the cooling coil, a capillary tube installed between the cooling coil and the condenser, It includes a water-cooled heat dissipation unit through a part line of the condenser, characterized in that for discharging the living water generated in the filtration process to the outside through the water-cooled heat dissipation unit.

Reverse Osmosis, Water Purifier, Cold Water Tank, Cooling System, Compressor, Condenser, Capillary Tube

Description

Cooling system in water purifier having membrane filter

1 is a schematic view showing a cooling system of a conventional reverse osmosis water purifier.

Figure 2 is a schematic diagram showing a cooling system of the reverse osmosis water purifier according to the present invention.

Explanation of symbols on the main parts of the drawings

1: tap water 2: sediment filter

3: pretreatment carbon filter 4: reverse osmosis filter

5: post-treatment carbon filter 6: cold water tank

7: Discharge cock 8: Cooling coil

9: refrigerant piping 10: compressor

11: condenser 13: capillary

110: water-cooled heat dissipation unit 110a: inlet

110b: outlet 120: raw water supply pipe

130: 3-way valve

The present invention relates to a reverse osmosis water purifier, and more particularly, to a cooling system of a reverse osmosis water purifier to improve the heat dissipation performance by flowing the living water discarded in the reverse osmosis filter to a certain line of the condenser.

In general, the water purifier was developed for the purpose of purifying water used for drinking water, and according to its shape, it is a faucet attachment type used by directly connecting to a faucet and a table type that receives water from a plastic bucket and purifies it during natural dropping process. Tubular type), and depending on the water purification method, it is divided into water direct connection type, natural filtration type, ion exchange resin type, distillation type, and reverse osmosis type. It explains in detail.

1 is a view illustrating a cooling system of a conventional reverse osmosis water purifier. As is well known, a water purification method using reverse osmosis pressure is supplied from a tap water to apply pressure to raw water mixed with various impurities so that water passes through a plurality of semipermeable membranes. It is a method of filtering impurities while purifying pure water, dissolved oxygen and trace minerals. The semi-permeable membrane used in the reverse osmosis water purifier using the water purification method includes a precipitation filter 2, a pretreatment carbon filter 3, a reverse osmosis filter 4, and a post treatment carbon filter 5.

In a conventional reverse osmosis water purifier, a cooling system and a heating system are installed to selectively supply cold water and hot water. A cooling system for supplying cold water is a refrigerant circuit cooling method using a compressor illustrated in FIG. 1. And, although not shown in the drawing, a method of cooling water by inserting a predetermined thermoelectric element having a function such as a cooling coil in a cold water tank is mainly used.

Looking at the configuration of the cooling system in a conventional water purifier, as shown in Figure 1, the raw water supplied from the water supply (1) sediment filter (2), pre-treatment carbon filter (3), reverse osmosis filter (4) and after-treatment carbon Filtered by a filter (5), having a separate cold water tank (6) in which the filtered purified water is accommodated, one side of the cold water tank (6) is connected to the discharge cock (7) for the extraction of cold water.

The cold water tank 6 is provided with a cooling coil 8 through which a coolant flows, and both ends of the cooling coil 8 are connected to a coolant pipe 9 which is a circulation passage of the coolant. In the refrigerant pipe 9, the compressor 10 is installed in the outlet direction of the cooling coil 8, and the condenser 11 is installed in the inlet direction of the cooling coil 8. On the other hand, reference numeral '13' is a capillary tube (capillary tube).

In the cooling system of the conventional reverse osmosis water purifier, the condenser 11 performs a function of dissipating a refrigerant at high temperature and high pressure by the cooling coil 8 and the compressor 10, and is a fin-tube type condenser or a wire type condenser. Will be used.

However, in the case of the fin-tube type condenser, the efficiency is good, but there is a fear of efficiency deterioration due to a lot of dust between the pin and the pin if not cleaned.

In addition, even in the case of the wire type condenser, there is a limit to the performance improvement of the existing wire type condenser, and as the product becomes smaller, heat accumulates inside, resulting in a decrease in cooling performance due to insufficient heat radiation effect.

On the other hand, in the case of the reverse osmosis water purifier, the ratio of purified water to living water is 1: 2 to 1: 3, and the living water comes out, and most consumers just throw away the living water.

The present invention has been made in view of the above, it is an object of the present invention to provide a cooling system of the reverse osmosis water purifier to improve the heat dissipation performance by flowing the living water discarded in the reverse osmosis filter to a certain line of the condenser.

In order to achieve the above objects, the cooling system of the reverse osmosis water purifier according to the present invention filters the raw water through a filter unit comprising a plurality of filtering means including a reverse osmosis filter, and receives the purified water generated in the cold water tank after filtration. In the reverse osmosis water purifier that is capable of taking out cold water after cooling, the cooling coil is installed in the cold water tank and the compressor is installed in the direction of the inlet of the cooling coil, the compressor installed in the outlet direction of the cooling coil. And a condenser, a capillary tube installed between the cooling coil and the condenser, and a water-cooled heat dissipation unit through which some lines of the condenser pass, and discharge the living water generated in the filtration process to the outside through the water-cooled heat dissipation unit. do.

Preferably, the water-cooled heat dissipation unit is provided on the discharge side of the compressor in the form of a U-shaped hollow tube, one end of the water-cooled heat dissipation unit is formed with an inlet for inflow of living water, and the other end of the water-cooled heat dissipation unit flows inside a part of the condenser After the heat exchange with the refrigerant is characterized in that the discharge port for the domestic water is discarded to the outside.

More preferably, the raw water supply pipe and the three-way valve is further provided so that the raw water of the cold water tank can be supplied through the inlet of the water-cooled heat dissipation unit when the domestic water is not discharged.

Hereinafter, with reference to the accompanying drawings will be described in detail the cooling system of the reverse osmosis water purifier according to a preferred embodiment of the present invention.

Figure 2 is a schematic diagram showing a cooling system of the reverse osmosis water purifier according to the present invention.

Reverse osmosis water purifier according to the present invention serves to filter the suspended solids, chlorine, heavy metals and the like in the raw water through the filter unit (2, 3, 4, 5) made of a plurality of filtering means including a reverse osmosis filter, The purified water generated after the filtration is accommodated in the cold water tank 6, and after cooling by the cooling system with improved cooling efficiency, the cold water can be taken out.

In the cooling system of the present invention, a cooling coil 8 installed in the cold water tank 6 and a refrigerant flowing therein, a compressor 10 installed in an outlet direction of the cooling coil 8, and the cooling coil Condenser 11 is installed in the inlet direction of the, the cooling coil 8 and the capillary tube 13 is installed between the condenser 11, and the water-cooled heat dissipation unit 110 through a portion of the line of the condenser 11 ), And discharges the living water generated in the filtration process to the outside through the water-cooled heat dissipation unit (110).

On the other hand, the water-cooled heat dissipation unit 110 is provided on the discharge side of the compressor 10 in the form of a U-shaped hollow tube (various forms possible, separate space), the living water is introduced into one end of the water-cooled heat dissipation unit 110 An inlet 110a is formed, and the other end of the water-cooled heat dissipating unit 110 is formed with an outlet 110b through which heat is exchanged with a refrigerant flowing in a part of the condenser 110, and the living water is discarded to the outside.

Preferably, the raw water supply pipe 120 and the three-way valve 130 is further provided so that the purified water of the cold water tank (6) can be supplied through the inlet (110a) of the water-cooled heat dissipation unit (110) when the living water is not discharged It is provided.

Referring to the operation of the cooling system of the reverse osmosis water purifier according to the present invention of such a configuration in detail as follows.

First, impurities are filtered while passing through the precipitating filter (2), pretreatment carbon filter (3), reverse osmosis filter (4), and post treatment carbon filter (5) during purified water, and pass only pure water, dissolved oxygen, and trace minerals. Purified, the purified water is stored in the cold water tank 6 is discharged to the outside when the user opens the discharge cock (7) to drink. At this time, when the cooling system is operating, the refrigerant discharged from the compressor 10 by the refrigerant cycle enters the condenser 11, and the low temperature and high pressure refrigerant passing through the condenser 11 passes through the capillary tube 13 and the low temperature low pressure. It is cooled by the refrigerant of and supplied to the cooling coil (8) in the cold water tank (6). Therefore, the purified water inside the cold water tank 6 is supplied in a cooled state.

On the other hand, in the case of the reverse osmosis filter 4, the living water is generated as the impurities are filtered while passing through a plurality of semi-permeable membranes, and the generated living water is generated in some lines of the condenser 11, which is the hottest part on the discharge side of the compressor 10. It is supplied to the water-cooled heat dissipation unit 110 provided to dissipate the refrigerant in the condenser 11 penetrating the inside of the water-cooled heat dissipation unit 110. Thereafter, the water-cooled heat dissipation unit 110 is discharged to the outside through a U-shaped flow path (various forms possible, separate space). Therefore, in the case of the cooling system according to the present invention, the living water is used to increase the heat dissipation effect of the condenser 11, as compared to the conventional living water filtered by the reverse osmosis filter 4 as it is. At this time, in the case of the three-way valve 130, the living water from the reverse osmosis filter (4) is opened to be supplied to the inlet (110a) side of the water-cooled heat dissipation unit (110).

In addition, when water is full, that is, when the living water is not discharged, conventionally, as the product becomes smaller, heat accumulates therein, resulting in a decrease in cooling performance due to insufficient heat dissipation effect. ) Is supplied to the inlet (110a) side of the water-cooled heat dissipation unit 110 through the raw water supply pipe 120 to dissipate the refrigerant inside the condenser (11) penetrating the inside of the water-cooled heat dissipation unit (110). Then, as described above is discharged to the outside through the U-shaped flow path (various forms possible, separate space). Therefore, the heat dissipation effect of the condenser 11 is increased by using the purified water inside the cold water tank 6. At this time, in the case of the three-way valve 130, the purified water from the cold water tank 6 is opened to be supplied to the inlet port (110a) side of the water-cooled heat dissipation unit (110).

In conclusion, by discharging the living water was discarded in the conventional reverse osmosis filter (4) to the outside through the water-cooled heat dissipation unit 110 through a part of the condenser 11, thereby greatly improving the heat dissipation performance of the condenser 11 In particular, by using the waste water for heat exchange with the condenser 11, the utilization of the living water is greatly improved.

In addition, even when the living water is not discharged, a part of the cooled purified water in the cold water tank 6 is supplied to the water-cooled heat dissipation unit 110 to utilize the refrigerant in the condenser 11.

As described above, the present invention has an effect of improving the heat dissipation performance of the condenser by flowing the living water discarded in the reverse osmosis filter to a water-cooled heat dissipating unit through which some lines of the condenser pass.

In addition, the present invention has an effect of increasing the heat dissipation performance of the condenser by flowing the purified water inside the cold water tank to the water-cooled heat dissipation unit even when the living water is not discharged.

Accordingly, the present invention is a very excellent invention that the heat dissipation performance of the condenser is greatly improved because the condenser is cooled not only by air cooling but also by water cooling using the water cooling radiator to radiate the condenser, and further miniaturization of the condenser is possible. .

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains may vary without departing from the spirit of the technical idea of the present invention described in the claims below. It may be changed.

Claims (3)

In the reverse osmosis water purifier, the raw water is filtered through a filter unit including a plurality of filtering means including a reverse osmosis filter, and the purified water generated after the filtration is accommodated in a cold water tank to allow the extraction of cold water after cooling. A cooling coil installed in the cold water tank and a refrigerant flowing therein, a compressor installed in an outlet direction of the cooling coil, a condenser installed in an inlet direction of the cooling coil, a capillary tube installed between the cooling coil and the condenser, It includes a water-cooled heat dissipation unit through a part line of the condenser, discharges the living water generated in the filtration process to the outside through the water-cooled heat dissipation unit, the water-cooled heat dissipation unit is provided on the discharge side of the compressor in the form of a U-shaped hollow tube, One end of the water-cooled heat dissipation unit is formed with an inlet for inflowing living water, and the other end of the water-cooled heat dissipation unit is formed with an outlet for exchanging the living water after the heat exchange with a refrigerant flowing in some lines of the condenser, while not discharging the domestic water. Water purification of the cold water tank may be supplied through the inlet of the water-cooled heat dissipation unit The raw water supply line and the three-way valve a reverse cooling system of osmotic water purifier, it characterized in that the further provided. delete delete

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