KR101164517B1 - The circulating sterilization cooling system which uses an instantaneous cooling system of regenerative type water boiler - Google Patents

Abstract

The present invention is to boil the water while passing through the water-cooled heat exchanger that can maintain a constant temperature of the incoming water and rapid cooling in the instant cooler and to sterilize the photocatalyst with a VOD photocatalyst UV sterilizer while activating nutrients while maximizing sterilization efficiency The present invention relates to a circulation sterilization cooling system using an instant cooling method of a regenerative water boiler.
To this end, the present invention is a scale preventer (silicose) 20 to remove foreign substances in the incoming water, the decompression valve (10) is introduced at a constant pressure through the scale preventer (silicose) 20, and the decompression valve ( 10) the water-cooled heat exchanger (30) connected to the inlet pipe (200) and the water boil (41) in which the heater (41) is built so that the water-cooled heat exchanger (30) is connected to the supply pipe (210) to boil water. An air-cooled heat exchanger (50) connected to the tub (40), the connection pipe 220 to cool the water boiled in the water boil (40) to the primary, and the discharge pipe to the air-cooled heat exchanger (50) The water-cooled heat exchanger 30 is connected to the water cooling heat exchanger 30 to cool the water cooled primarily in the air-cooled heat exchanger 50, and is connected to the water-cooled heat exchanger 30 by line pipes 240 and 241. Instantaneous cooler 60 to cool the water rapidly, the instant cooling Characterized by doeeojim comprises a 60 and the secondary line pipe 241 and circulation tube 250 is connected to the cold water circulation is to store the coolant been rapidly cooled from the moment the cooler 60, the reservoir 70.
In addition, the present invention is characterized in that the cold water circulation storage tank 70 is provided with a VOD photocatalyst UV sterilizer 80 to sterilize the cooling water photocatalyst.

Description

The circulating sterilization cooling system which uses an instantaneous cooling system of regenerative type water boiler}

The present invention relates to a circulating sterilization cooling system using an instantaneous cooling method of a regenerative water boiler, and more specifically, to cool boiled water through an instant cooler and to sterilize a photocatalyst with a VOD photocatalyst UV sterilizer to maximize cooling and sterilization efficiency. The present invention relates to a circulating sterilization cooling system using an instant cooling method of a regenerative water boiling machine which can maximize the confidence of consumers.

In general, an instant boiling water boiler has been proposed to operate by pressing a water control unit and a refrigerant control unit.

However, such a conventional water boiler is equipped with a water heat exchanger at the top of the water boiler body at the moment, a burner unit for heating it at the bottom thereof, and a control unit for controlling them at the bottom thereof.

The control unit is provided with a water control unit and a refrigerant control unit on one side and the other side, they are relatively far apart, and between the two units are often provided with a member such as a pressure sensitive member, so that the water control unit is operated accordingly The first push button and the second push button for operating the coolant control unit are often attached to a position separated from each other, and thus, when the second push button is sequentially operated after the first button, it is difficult to perform the operation smoothly.

Therefore, the present invention boils the water drawn in to solve the above problems and passes through a ball, water-cooled heat exchanger that can maintain a constant temperature and then instantaneous cooling in the instant cooler and photocatalyst sterilization with a VOD photocatalyst UV sterilizer The purpose of the present invention is to provide a circulating sterilization cooling system using the instantaneous cooling method of a regenerative water boiler capable of maximizing cooling efficiency and activating sterilization.

The present invention for achieving the above object is a scale preventer to remove foreign substances in the incoming water, a decompression valve to be stabilized at a predetermined pressure in the scale preventer, and the suction pipe is introduced at a constant pressure through the decompression valve After passing through the water-cooled heat exchanger that is connected to the water boiler and the heater is built-in, the air-cooled heat exchanger is connected to the connection tube to cool the water boiled in the water boiler built-in water heater primarily, and the air-cooled heat exchanger A water-cooled heat exchanger connected to the discharge pipe to cool the cooled water secondly, a instantaneous cooler connected to the water-cooled heat exchanger by a line pipe and rapidly cooling the cooled water, the instant cooler and a secondary line pipe, and It is connected to the circulation pipe to store the cooling water rapidly cooled from the instant chiller It is characterized by including a cold water circulation storage tank.

In addition, the present invention provides a circulation sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that the VOD photocatalyst UV sterilizer is provided to sterilize the cooling water in the cold water circulation storage tank.

As such, the present invention removes foreign substances by the scale preventer and boils the water introduced into the heater while passing through the water boil through a water-cooled heat exchanger to maintain a constant temperature, and the first and second in the air-cooled heat exchanger and the water-cooled heat exchanger. By cooling and re-cooling rapidly in the instant cooler and storing it in the cold water circulation storage tank, the boiled water is cooled and activated without destroying nutrients as well as water purification efficiency. There is an effect that can maximize the trust to the user.

In addition, the present invention is the water introduced by the VOD photocatalyst UV sterilizer provided in the cold water circulation storage tank when the water is stored in the cold water circulation storage tank and recycled to the instantaneous cooler is sterilized by the photocatalyst to further enhance the activation and cooling efficiency of sterilization. There is an effect that can be maximized.

1 is an overall configuration diagram showing a circulating sterilization cooling system according to the present invention.
Figure 2 is an enlarged example showing the instantaneous cooler of the circulation sterilization cooling system according to the present invention.
3 is a flow chart of a cooling system according to the present invention.
Figure 4 is an exemplary view showing another example according to the present invention.

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

1 is an overall configuration diagram showing a circulating sterilization cooling system according to the present invention, Figure 2 is an enlarged view showing an instantaneous cooler of the circulating sterilization cooling system according to the present invention, Figure 3 is a cooling system according to the present invention A flowchart is shown.

The present invention provides a scale preventer (silicose) 20 to remove foreign substances and a decompression valve 10 for stabilizing the pressure of the phosphorus constant;

A water-cooled heat exchanger (30) connected to the inlet pipe (200) to allow the incoming water to be introduced while the foreign matter is removed from the scale preventer (20);

A water bath 40 connected to the water-cooled heat exchanger 30 by a supply pipe 210;

An air-cooled heat exchanger (50) connected to the water boiling tube (40) and the water-cooled heat exchanger (30) by connecting pipes (220) and discharge pipes (230) to cool water;

An instantaneous cooler (60) connected to the water-cooled heat exchanger (30) by a primary line tube (240) to rapidly cool water cooled in the water-cooled heat exchanger (30);

Cold water circulation storage tank 70 is connected to the upper side of the secondary line pipe 241 is further connected to the instantaneous cooler 60 and a pair of circulation pipes 250 connected to the upper side of the primary line pipe 240. );

It is formed to include.

Between the scale preventer 20 and the inlet pipe 200 is formed a singular device 100.

In addition, the inlet pipe 200 is provided with a solenoid valve (V1) to adjust the inlet of the incoming water.

The heater 41 is built in the water boil 40 to heat the incoming water.

In addition, the water boil 40 is provided with a water level sensor (WS1) to detect the water level of the water flowing into the water boil 40, which is introduced into the water boil 40 Hot water temperature sensor (TS1) is preferably provided to detect the temperature of the water.

The primary line tube 240 is formed with a solenoid valve (V2) to control the flow of water flowing into the instantaneous cooler 60 through the water-cooled heat exchanger (30).

The instantaneous cooler 60 is preferably formed in the coil shape of the primary and secondary line pipes (240, 241).

In addition, a stirrer 61 is formed in the instantaneous cooler 60.

The cold water circulation storage tank 70 is provided with a water level sensor WS2 to detect the level of the incoming coolant, and a cold water temperature sensor TS2 to detect the temperature of the coolant.

In addition, the cold water circulation storage tank 70 is provided with a VOD photocatalyst UV sterilizer 80 to photocatalytic sterilize the water being stored.

In the circulation pipe 250 connecting the first and second line pipes 240 and 241 of the instantaneous cooler 60 and the cold water circulation storage tank 70, the coolant rapidly cooled by the instantaneous cooler 60 to the cold water circulation storage tank 70. The motor pump P1 and the circulation pump P2 are respectively formed to be introduced or discharged.

On the other hand, looking at another example according to the present invention, the cold water discharge pipe 260 is connected to the valve 71 of the cold water circulation storage tank 70 as shown in the accompanying drawings, the cold water discharge pipe 260 ) Is connected to a hot water tank 90 in which a heater 91 is embedded so as to convert cold water supplied from the cold water circulation storage tank 70 into hot water.

In addition, the hot water tank 90 is provided with a hot water temperature controller 92 to adjust the temperature of the hot water heated by the heater (91).

Looking at the operating state according to the present invention made of the above configuration as follows.

First, while removing the foreign matter in the incoming water through the screen net while passing through the scale preventer 20, the scale is introduced into the preventer (silicose), the incoming water introduced by the decompression valve 10 is a constant pressure It becomes stable.

In addition, as the solenoid valve V1 is opened through the scale preventer 20, the water separator 100, and the pressure reducing surface 10, the incoming water is introduced through the inlet pipe 200 while the water cooled type is introduced. It is introduced into the heat exchanger (30).

Then, the incoming water through the water-cooled heat exchanger (30) is stored into the water boil (40) through the supply pipe (210).

In addition, when water is introduced into the boiling vessel 40, the heater 41 is heated, and accordingly, water introduced into the boiling vessel 40 by the operation of the heater 41 is approximately 100 ° C. Boil until.

At this time, when the water is introduced into the water boil (40) by detecting the water level in the water level sensor (WS1) by controlling it in the controller (not shown) the water level of the water flowing into the water boil (40) It can be adjusted.

In addition, the hot water temperature sensor TS1 detects the temperature of the water in the water boil 40 that is heated by the heater 41 and controls the controller to maintain a constant heating temperature.

When the water is heated to 100 ° C or more in the water boil 40 in the sensed by the hot water temperature sensor (TS1) is introduced into the air-cooled heat exchanger (50) through the connection pipe 220 under the control of the controller As it is cooled to the primary, it is cooled to the secondary while flowing into the water-cooled heat exchanger (30).

Then, the water cooled by the water-cooled heat exchanger 30 is introduced into the instantaneous cooler 60 through the primary line pipe 240 by the opening operation of the solenoid valve (V2) to be cooled rapidly.

In addition, the coolant which is rapidly cooled in the instantaneous cooler 60 passes through the secondary line pipe 241 and is stored in the cold water circulation storage tank 70 through the circulation pipe 250 by the operation of the motor pump P1. Will be.

The water introduced into the cold water circulation storage tank 70 can be kept constant by sensing the temperature of the cold water along with the water level by the water level sensor WS2 and the cold water temperature sensor TS2.

The water introduced into the cold water circulation storage tank 70 is stored while photocatalyst sterilization by the VOD photocatalyst UV sterilizer 80 provided in the cold water circulation storage tank 70.

As described above, the circulation sterilization cooling system according to the present invention boils water at a high temperature by the heater 41 while the incoming water is stored in the water boil 40 through the water-cooled heat exchanger 30 and the air-cooled heat exchanger ( 50) to cool the first, and then to the water-cooled heat exchanger (30) to cool secondly, the water cooled through the solenoid valve (V2) is circulated by the first and second line pipes (240, 241) By losing the rapid cooling again to the instantaneous cooler (60) can increase the freshness of the water and can be purified and sterilized to increase the benefits to the human body.

In addition, the water that is rapidly cooled in the instantaneous cooler (60) is stored and circulated in the cold water circulation storage tank 70, but the photocatalyst sterilizes the water flowing into the VOD photocatalyst UV sterilizer (80) to sterilization efficiency Can be maximized.

On the other hand, by connecting the hot water tank 90 to the cold water circulation storage tank 70 to the cold water discharge pipe 260, the cold water sterilized and purified in the cold water circulation storage tank 70 by the user's needs to heat the heater 91 By converting and tasting, it is possible to realize convenience and diversification of functions.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

10: pressure reducing valve 20: scale preventer
30: water-cooled heat exchanger 40: water boil
41,91: heater 50: air-cooled heat exchanger
60: instantaneous cooler 61: agitator
70: cold water circulation storage 71: valve
80: VOD photocatalyst UV sterilizer 90: hot water tank
92: hot water temperature controller 100: a single device
200: incoming pipe 210: supply pipe
220: connector 230: discharge pipe
240: primary line pipe 241: secondary line pipe
250: circulation pipe 260: cold water discharge pipe
WS1, WS2: Water level sensor TS1: Hot water temperature sensor
TS2: Cold water temperature sensor V1, V2: Solenoid valve
P1: Motor Pump P2: Circulation Pump

Claims (9)

A scale preventer 20 for removing foreign matters of the incoming water, and a pressure reducing valve 10 which stabilizes the pressure of the incoming water constantly;
A water-cooled heat exchanger (30) connected to the inlet pipe (200) to allow the incoming water to be introduced while the foreign matter is removed from the scale preventer (20);
A water boil box 40 connected to the water-cooled heat exchanger 30 by a supply pipe 210 and having a heater 41 therein so as to heat water therein;
An air-cooled heat exchanger (50) connected to the water boiling tube (40) and the water-cooled heat exchanger (30) by connecting pipes (220) and discharge pipes (230) to cool water;
An instantaneous cooler (60) connected to the water-cooled heat exchanger (30) by a primary line tube (240) to rapidly cool water cooled in the water-cooled heat exchanger (30);
Cold water circulation storage tank 70 is connected to the upper side of the primary line tube 240 and a pair of circulation pipes 250 connected to the upper side of the secondary line tube 241 further connected to the instantaneous cooler 60. );
Cyclic sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that formed. The method of claim 1,
A circulating sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that the water separator 100 is formed between the scale preventer 20 and the inlet pipe 200. The method of claim 1,
The inlet pipe 200 is a circulating sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that the solenoid valve (V1) is provided to control the inlet of the incoming water. The method of claim 1,
In the water boiler 40, the water level sensor (WS1) to detect the water level of the water, and the hot water temperature sensor (TS1) is provided with a hot water temperature sensor (TS1) is provided to detect the temperature of the water is instantaneous Circulation sterilization cooling system using cooling method. The method of claim 1,
The primary line tube 240 of the regenerative water boiler characterized in that the solenoid valve (V2) is formed to control the flow of water flowing into the instantaneous cooler 60 through the water-cooled heat exchanger (30) Circulation sterilization cooling system using instant cooling method. The method of claim 1,
The cold water circulating storage tank 70 has a water level sensor WS2 to detect the water level of the incoming coolant, and a cold water temperature sensor TS2 to detect the temperature of the coolant. Circulation sterilization cooling system using instant cooling method of boiling machine. The method of claim 1,
The cold water circulation storage tank 70 is a circulating sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that the VOD photocatalyst UV sterilizer 80 is provided to sterilize the stored water photocatalyst. The method of claim 1,
A cold water discharge pipe 260 is connected to the valve 71 of the cold water circulation storage tank 70, and the cold water discharge pipe 260 is connected to a cold water discharge pipe 260 so as to convert cold water supplied from the cold water circulation storage tank 70 into hot water. Circulating sterilization cooling system using the instantaneous cooling method of the regenerative water heater, characterized in that the hot water tank 90 is connected to the built-in. The method of claim 8,
In the hot water tank (90), a circulating sterilization cooling system using the instantaneous cooling method of the regenerative water boiler, characterized in that a hot water temperature controller (92) is provided to adjust the temperature of the hot water heated by the heater (91). .

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