KR200403537Y1 - Supplied and Cooled Water Ionizer - Google Patents

Abstract

The present invention relates to a combined cold and cold water heater having a sealed cold water tank, and the problem of noise generation and sealing pressure due to the contamination of the cold water tank generated by the installation of a cold water tank with a ventilation hole commonly used and the provision of a purified water pump Sealed pressure generated when the cold water container is installed to solve the problem of change in the amount of water discharged due to the change in the water pressure inside the cold water container.

The cold and hot water combiner of the present invention has a purified water filter unit 2 installed in a tap water supply pipe 1 supplied at room temperature, and a first branch pipe 4 connected to the purified water supply pipe 3 connected to the purified water filter unit 2 in series. ), Connect the first purified water supply pipe (5) and the second purified water supply pipe (6) to the first branch pipe (4), respectively, and the first solenoid valve necessary for the generation of cold ion water in the first purified water supply pipe (5). (13) and the purified water supply connection pipe 37, the sealed cold water tank (8) and the cold purified water supply pipe (11) connected in series, the second branch pipe (20) is connected to the cold purified water supply pipe (11), The cold purified water supply connection pipe 36 and the cold storage water discharge pipe 21 are respectively connected to the second branch pipe 20, and the cold storage water discharge valve (not shown) is connected to the cold storage water discharge pipe 21. , The first electrolyte tank 14 is connected to the cold storage water supply connection pipe 36, and the first acidic water outlet 15 and the first alkaline water outlet 16 are respectively connected to the first electrolyte tank 14. And a second solenoid valve 7 and a second electrolytic bath 23 connected to the second purified water supply pipe 6 in order to generate room temperature ionized water, and a second acidic water outlet 22 to the second electrolytic bath 23. ) And the second alkaline water outlet 24 are connected to each other.

According to the combined cold and cold water dispenser of the present invention, due to the sealed cold water tank according to the present invention, the cold noise water and the problem of generating the motor noise of the purified water pump generated when the cold water is equipped with the existing cold storage water tank It is possible to prevent problems such as water shortage after all the water in the cold water tank is discharged and contamination of the cold water tank through the air vent when the water is continuously discharged, and when producing cold ion water with a sealed pressure cold water tank. There is an effect that can prevent the problem of the amount of discharged water caused by the change in the internal water pressure of the sealed pressure cold water bottle generated.

Description

Cold Water Ionizer with Room Temperature {Supplied and Cooled Water Ionizer}

The present invention relates to a room temperature combined cold water heater having a closed type cold water tank in producing cold ion water, and more particularly, to a sealed type cold water tank used for a combined cold temperature water heater.

Recently, with the improvement of living standards, interest in water, especially functional water, has been increasing, and various cold ion water heaters, which are convenient for drinking, have been developed and introduced. Existing cold water heaters can be roughly classified into pre-cooled cold water heaters, post-cooled cold water heaters, and room temperature combined cold water heaters in producing cold ion water by electrolyzing water supplied to cold water heaters.

The pre-cooled cold water purifier purifies the tap water supplied as in the case of Utility Model Patent Application No. 20-2001-0019363, 'Ion-Cold Water Purifier', and then purifies the purified water in a cold water tank and electrolyzes the cooled purified water. Produces cold ionized water.

The cold water ionizer of the post-cooling method is the same as Utility Model No. 20-2001-0034625, 'Cold Alkaline Water Maker'. This method generates ionized cold water by electrolyzing and then cooling the purified water first.

Cold water ionizer of the combined use of room temperature is produced by combining the room temperature and cold ion water by the user's choice to facilitate the use of the ionized water, such as Utility Model Patent Application No. 20-2005-0022239 'cold room temperature combined ionizer'.

Most of the above-mentioned cold ion water heater was equipped with a cold storage tank having a ventilation hole commonly used in the cold water tank for cooling water, which is exposed to the contamination of bacteria or foreign substances through the air vents at the upper end of the cold storage tank. The problem is that after the withdrawal of the water stored in the cold storage tank, it becomes a shortage and cannot supply the required amount of water continuously. In order to allow the water stored in the cold storage tank to pass through the electrolytic cell, a purified water pump must be provided. There is a problem that the motor noise of the purified water pump occurs.

In addition, there is a case in which a sealed pressure cold water tank without a vent is provided, such as Patent Application No. 10-2004-0097625, 'cold water heater', which is applied before and after water extraction when applied to a precooled cold water heater. Due to the change in the internal water pressure of the pressure-type cold water tank, there is a problem that the amount of discharged water is not kept constant.

Therefore, the combined cold and hot water dispenser of the present invention was devised to have a sealed cold water tank in view of the conventional problems as described above, and the purpose thereof is to prevent contamination through the air holes of the existing cold water tank, and to provide a purified water pump. Cold purified water can be discharged through the electrolytic cell to prevent the noise of the purified water pump generated during cold ion water generation, and to prevent water shortage during continuous discharge of cold ion water, and a sealed pressure cold water container. As the cooling water ionizer of the cooling method, the water pressure inside the sealed pressure cold water container of the flexible material increases when the water stops, and then the water pressure inside the sealed pressure cold water container gradually decreases after the water discharge. This is to prevent the problem of not being.

In order to achieve the above object, the combined cold and cold water heater of the present invention is a purified water filter, which is generally composed of a four-stage composite filter such as a pre-filter, a carbon filter, a hollow fiber membrane filter, and a post-carbon filter in a tap water supply pipe into which tap water is introduced at room temperature. To purify water by connecting the purified water supply pipe to the purified water supply unit, and to purify water flowing from the purified water supply pipe through the two pipes, the first branch pipe to the purified water supply pipe is installed, The first purified water supply pipe and the second purified water supply pipe are connected to the branch pipe so that the purified water flows through the two pipes, and the first purified water supply pipe allows the inflow or blocking of the purified water flowing from the purified water filter part to the first purified water supply pipe. 1 Connect and install the solenoid valve and connect the first solenoid valve from the first solenoid valve. Connect the purified water supply connection pipe to introduce the discharged purified water into the sealed cold water tank, and install the sealed cold water tank for storing and cooling the purified water to generate cold ion water in the purified water supply connection pipe. It is connected to the purified water dispersing pipe dispersing the water pressure of the purified water flowing into the cold water tank, and connected to the closed cold water tank upper end in order to connect the air discharge pipe and the air discharge valve that can control the ventilation in series, the lower end of the sealed cold water tank The cold water supply pipe for discharging the cooled purified water from the sealed cold water tank, and the second branch pipe for connecting the cold storage water discharge pipe and the cold water supply pipe to the cold water supply pipe, To allow the chilled water in the cold reservoir to exit the cold ion generator Connect and install the cold storage water discharge pipe and the cold storage water discharge valve to adjust the temperature, connect the cold purified water supply pipe to supply the cold purified water to the first electrolytic cell to the second branch pipe, and to the cold purified water supply pipe A first electrolytic tank for connecting electrolytically purified cold water to acidic and alkaline ionized water, and a first acidic water outlet for allowing cold acidic and alkaline ionized water to flow out into the first electrolytic cell, respectively; The first alkaline water outlet is connected to discharge cold acidic and alkaline hot water, and the second solenoid valve is connected to the second purified water supply pipe to inlet or block normal temperature purified water, and the second solenoid valve is purified water at normal temperature. To install a second electrolytic cell that can be electrolyzed into acidic ionized water and alkaline ionized water, and generate inside the electrolytic cell in the second electrolytic cell. The acidic ionized water and the alkaline ionized water at normal temperature are respectively installed so that the second acidic water outlet and the second alkaline water outlet are connected so as to flow out.

In particular, a branch pipe is installed in the purified water supply pipe so that purified water flows through the first purified water supply pipe and the second purified water supply pipe, and the purified water introduced through the first purified water supply pipe is cooled to generate cold ion water through the first electrolytic bath. The purified water introduced into the room temperature through the second purified water supply pipe generates room temperature ionized water through the second electrolytic bath, and the inflow of the purified water from the first purified water supply pipe and the second purified water supply pipe enables selective operation of the first solenoid valve and the second solenoid valve. It is to be controlled by the first solenoid valve and the cold purified water supply pipe is characterized in that the basic configuration provided with a sealed cold water tank.

Hereinafter, with reference to the accompanying drawings will be described in detail the basic configuration and operation of the closed-type cold water tank according to the present invention and the combined cold water heater of the present invention.

Figure 1 shows the configuration of the closed-type cold water tank according to the present invention, the solenoid valve 30 is connected to the purified water supply pipe 32 for introducing purified water from the purified water filter unit to block the inflow of purified water into the cold water tank. To prevent the discharge of cold purified water from the sealed cold water tank and to block the increase of the water pressure inside the sealed cold water tank, and inside the sealed cold water tank, there are 10 purified water dispersing holes with a diameter of about 3mm. However, in order to communicate with the purified water supply connection pipe, the purified water flowing into the sealed cold water tank passes through the purified water dispersing hole and is dispersed therein, and connects the air discharge pipe to the upper end of the sealed cold water tank to communicate with the purified water supply pipe. Air is discharged and air discharge valve is connected to air discharge pipe to After discharging, close the air discharge valve to keep the sealed cold water tank closed.The cold purified water supply pipe is connected to the closed cold water reservoir at the bottom of the sealed cold water tank, and a branch pipe is installed in the cold purified water supply pipe to connect with the cold storage water discharge pipe. The condensed type according to the present invention is configured to discharge the purified water stored in the sealed cold storage tank through the cold storage water discharge pipe by opening the air discharge valve and the cold purified water discharge valve while the solenoid valve is closed by connecting and installing the cold purified water discharge valve in series. It is characterized by a cold water tank.

Figure 2 shows the structure of the cold water heater combined with a room temperature according to the basic embodiment of the present invention, the tap water flowing through the tap water supply pipe (1) is typically a pre-filter, carbon filter, hollow fiber membrane filter and post carbon filter, etc. It is configured to purify water through the purified water filter unit 2 consisting of a four-stage composite filter, the purified water filter unit 2 may be equipped with an additional filter or replaced with another filter as necessary.

Inflow of purified water purified by the purified water filter unit 2 is performed by the first branch pipe 4 installed in the purified water supply pipe 3, that is, the first purified water supply pipe 5 and the second purified water supply pipe 6. Is done through.

Purified water flowing through the first purified water supply pipe (5) is for generating cold ionized water, and the first solenoid valve (13) connected to the first purified water supply pipe (5) for supplying or blocking purified water, is installed, and the first solenoid Connecting the purified water supply connection pipe 37 for introducing the purified water discharged from the first solenoid valve 13 into the closed cold water storage tank 8 to the valve 13, and to generate cold ion water in the purified water supply connection pipe 37 In order to connect and install the sealed cold water tank (8) for storing and cooling the purified water, but is provided inside the sealed cold water tank (8) and connected with the purified water dispersion pipe (9) for dispersing the water pressure of the purified water flowing into the closed cold water tank (8). The upper end of the sealed cold storage tank (8) is connected to the air cooling tube (12) and the air discharge valve (not shown in the drawing) which can communicate with the sealed cold storage tank (8) to control the ventilation in series, and the closed cold storage tank (8) At the bottom The cold purified water supply pipe 11 for discharging the purified water cooled in the hermetic cold water tank 8 may be connected, and the cold storage water discharge pipe 21 and the cold purified water supply connection pipe 36 may be connected to the cold purified water supply pipe 11. Cold storage water discharge pipe 21 and the cold storage to connect the second branch pipe (20) to be installed, and to control the cold purified water of the cold storage tank to be discharged out of the cold ion water generator in the second branch pipe (20) A water discharge valve (not shown in the drawing) is connected in series, and a cold purified water supply connection pipe 36 for supplying cold purified water to the first electrolytic cell 14 is connected to the second branch pipe 20, and the cold purified water The first connection tank 14 capable of electrolyzing the cold purified water into the acidic ionized water and the alkaline ionized water is connected to the supply connection pipe 36, and the cold acidic ionized water and the alkaline ionized water generated inside the electrolytic cell to the first electrolytic cell 14. The first acidic water outlet 15 and the first alkaline water to allow the To install the connecting outlet 16 is such that cold acidic water and alkaline water is discharged.

Purified water flowing through the second purified water supply pipe (6) is to generate room temperature ionized water, and is connected to the second purified water supply pipe (6) to connect or install a second solenoid valve (7) capable of introducing or blocking purified water at room temperature, The second solenoid valve 7 is provided with a second electrolytic bath 23 which can electrolyze the purified water at room temperature into acidic and alkaline hot water, and discharges the normal temperature acidic and alkaline hot water to the second electrolytic bath 23. The second acidic water outlet 22 and the second alkaline water outlet 24 which can be connected to each other are installed.

The cooling of the hermetic cold water tank (8) uses a steam-pressure freezer consisting of a compressor (19), a condenser (18), a dryer (17), a refrigerant pipe (10), and the like, which is typically applied to a cold and hot water condenser. The refrigerant passing through 18 is cooled by gas liquefaction heat passing through the refrigerant tube 10 wound around the cold storage tank 8 through the dryer 17 and the capillary tube.

The generation and discharge of hot water from the cold ion water generator of the present invention is connected to the purified water supply pipe (3) provided between the purified water filter unit (2) and the branch pipe (4) to separate branch pipe (not shown) Purified water may be introduced to provide a sub tank (not shown), a hot water tank (not shown) and a hot water outlet (not shown).

Figure 3 shows the structure of the cold ion water generator configured by the application of the present invention, the first electrolytic bath 14 for generating cold ion water and the second electrolytic bath 23 for generating room temperature ionized water, respectively Unlike the basic embodiment of 1, in order to selectively enter the cold purified water and room temperature purified water into the single-installed electrolytic cell 31, the second electrolytic bath of the basic embodiment is removed, the room temperature purified water supply pipe 38 and the cold crystal The third branch pipe 26 is installed between the fire water supply connection pipe 36 and the cold water hot water supply pipe 39, and the cold purified water is selectively operated by the first solenoid valve 13 and the second solenoid valve 7. Alternatively, room temperature purified water is selectively introduced into the electrolytic cell 33 through the third branch pipe 26 so that cold or normal temperature ionized water can be selectively generated in a single electrolytic cell 33.

That is, when the first solenoid valve 13 is operated by the selective operation of the first electronic control key input unit (not shown), cold purified water flows into the electrolytic cell 33 to generate cold ion water, and the second solenoid valve 7 ) Is operated by the selective operation of the second electronic control key input unit (not shown), the room temperature purified water flows into the electrolytic cell 33, and the room temperature ionized water is generated to selectively cool or room temperature ionized water in the single installed electrolytic cell 33. It is characterized in that the generated.

In addition, the acidic water outlet 34 and the alkaline water outlet pipe 35 for discharging the alkaline ionized water and the alkaline ionized water generated during the electrolysis to the electrolytic cell 33 are connected to the alkaline water outlet pipe 35. 27) is connected, and the first alkali export outlet 28 and the second alkali export outlet 25 are connected to the fourth branch pipe 27.

According to the cold ion water generator of the present invention configured as described above, the cold water ionizer of the post-cooling method is ionized water due to the air contact of the ion water through the vent of the cold water tank in the process of cooling and storing in the cold water tank to produce the drinking cold ion water which is a problem The problem of clogging is solved by weakening of the characteristics, generation of calcium scale and withdrawal due to crystallization of calcium, and at the same time, the problem of motor noise of the purified water pump and the problem of It is possible to solve problems such as water shortage after all the water in the cold storage tank is discharged during continuous water extraction and contamination of the cold storage tank through air vents. There is an effect that can prevent noise problems and contamination of the cold water tank through the vent.

1 is a block diagram of a sealed cold storage tank according to the present invention.

Figure 2 is a schematic diagram of a combined cold water heater according to the basic embodiment of the present invention.

Figure 3 is a schematic diagram of a combined cold water heater according to the embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: tap water supply pipe 2: purified water filter

3, 32: purified water supply pipe 4: first branch pipe

5: 1st purified water supply pipe 6: 2nd purified water supply pipe

7: 2nd solenoid valve 8: closed type cold water tank

9: influent water distribution pipe 10: refrigerant pipe

11, 11a: cold purified water supply pipe 12: air discharge pipe

13: first solenoid valve 14: first electrolytic cell

15: first acidic water outlet 16: first alkaline water outlet

17: dryer 18: condenser

19: compressor 20: second branch engine

21: reservoir tank discharge pipe 22: the second acid water outlet

23: 2nd electrolyte tank 24: 2nd alkaline water outlet

25: 2nd alkali export outlet 26: 3rd branch engine

27: 4th branch engine 28: 1st alkali export outlet

29: influent dispersion hole 30: solenoid valve

31: branch pipe 33: electrolytic cell

34: acidic water outlet 35: alkaline water outlet

36: cold purified water supply connector 37: purified water supply connector

38: room temperature purified water supply pipe 39: cold room temperature water supply pipe

Claims (3)

Purified water filter unit 2 for purifying tap water is connected to the tap water; A purified water supply pipe 3 connected to the purified water filter to supply purified water; A first branch pipe (4) connected to the purified water supply pipe (3) to allow the introduction of purified water through the first purified water supply pipe (5) and the second purified water supply pipe (6); A first purified water supply pipe 5 and a second purified water supply pipe 6 respectively connected to the first branch pipe 4 to introduce purified water; A first solenoid valve 13 connected to the first purifying water supply pipe 5 to control the inflow or blocking of the purified water flowing from the purified water filter unit 2 into the closed cold water tank 8; A purified water supply connection pipe 37 connected to the first solenoid valve 13 to supply purified water; An enclosed cold water tank 8 connected to the purified water supply connection pipe 37 to cool the purified water; A cold purified water supply pipe 11 connected to the hermetic cold storage tank 8 to discharge cooled purified water; A second branch pipe 20 connected to the cold purified water supply pipe 11 to introduce the cold purified water into the cold purified water discharge pipe 21 or the cold purified water supply connecting pipe 36; A cold storage water discharge pipe 21 and a cold storage water discharge valve (not shown in the drawing) which are connected to the second branch pipe 20 so as to discharge cold storage water; A cold purified water supply connection pipe (36) connected to the second branch pipe (20) for introducing cold purified water into the first electrolyte tank (14); A first electrolytic tank 14 connected to the cold purified water supply connection pipe 36 to electrolyze the cold purified water into cold acidic ionized water and alkaline ionized water; A first acidic water outlet 15 and a first alkaline water outlet 16 connected to the first electrolyte tank 14 to discharge cold acidic water and alkaline water; A second solenoid valve 7 connected to the second purified water supply pipe 6 to control inflow or blocking of purified water at room temperature into the second electrolytic tank; A second electrolytic tank 23 connected to the second solenoid valve 7 to electrolyze the purified water introduced at room temperature into acidic ionized water and alkaline ionized water at room temperature; It is connected to each of the second electrolytic bath 23, the room temperature combined cold ion water heater, characterized in that it comprises a second acidic water outlet (25) and a second alkaline water outlet (24) for discharging the hot water and alkaline acidic water at room temperature. The method of claim 1, The branch pipe 4 is replaced with the first branch pipe 30, and the second electrolytic tank 23, the second acidic water outlet 25, and the second alkaline water outlet 24 are removed, respectively. The first electrolytic cell 14 is replaced with the electrolytic cell 31, and the second branch pipe 26 is installed between the second solenoid valve 7, the second solenoid valve 13, and the electrolytic cell 31, and The selective operation of the solenoid valve 13 allows the cold purified water from the closed cold water tank or the room temperature purified water to selectively flow into the electrolytic cell 31 by the selective operation of the second solenoid valve 7, thereby allowing room temperature in a single electrolytic cell. The combined cold and cold water temperature generator, characterized in that the ion water or cold ion water can be produced and discharged. The method according to claim 1 or 2, A purified water dispersing pipe (9) installed inside the sealed cold water tank (8) and communicating with the purified water supply connection pipe (37) to disperse the purified water flowing into the closed cold water tank (8); Purified water dispersing holes 29 provided in the purified water dispersing pipe 9 to substantially disperse the purified water flowing therein; An air discharge pipe 12 provided in communication with the upper end of the sealed cold water tank 8 to discharge air from the sealed cold water tank 8; A cold storage water discharge pipe 21 connected through a cold water supply pipe 11 and a branch pipe 31 connected in communication with a lower end of the sealed cold water tank 8 to discharge the storage water of the sealed cold water tank 8; Combined cold storage tank 8 is provided with a closed cold water tank having a configuration such as.