KR20120119518A - Cooling apparatus - Google Patents

Abstract

PURPOSE: A quick cooler is provided to supply cooled liquid to a user evenly by blocking the mixing of existing cooled liquid and newly fed liquid. CONSTITUTION: A quick cooler comprises a liquid storage tank(20), a cooling pipe(30), a cooling cycle, and a fluid flow guide unit. The cooling pipe cools the liquid stored in the liquid storage tank. The cooling cycle supplies low pressure coolant gas to the cooling pipe. The fluid flow guide unit is installed in the liquid storage tank and prevents the mixture of existing cooled liquid and newly fed liquid and guides liquid flowed through the liquid storage tank to a drain port. [Reference numerals] (10) Filter part; (AA) Raw water; (C) Cock

Description

Instant Cooler {COOLING APPARATUS}

The present invention relates to an instantaneous cooler, and more particularly, an instantaneous cooler capable of maximizing the cooling efficiency by inducing the cooled liquid stored in the liquid storage tank and the liquid flowing into the liquid storage tank to flow sequentially toward the outlet. It is about.

Generally, a water purifier that receives tap water to purify the water, or a cold / hot water supply for supplying bottled water sold in a specific container is configured to cool or heat water to a predetermined temperature.

In addition, even when the shop sells drinks such as drinks and draft beer by a certain amount in a cup or a glass of wine, it sells those cooled to a predetermined temperature.

As such, a liquid storage tank and a cooling device are provided to cool a liquid such as water, beverage, liquor, etc. to a predetermined temperature.

The liquid storage tank has a supply port configured to inject liquid and a discharge port for discharging the liquid contained in the liquid storage tank to the outside, and the liquid contained in the liquid storage tank is cooled to a predetermined temperature through a cooling device. do.

And the cock is installed in the discharge port can be used to discharge the liquid contained in the liquid storage tank, if a certain amount of the liquid contained in the liquid storage tank is used to supply a new liquid to the supply port.

However, in the conventional cooling system, when liquid is introduced into the liquid storage tank through the supply port, the liquid is contained in the liquid storage tank and mixed with the cooled liquid, so that the liquid in the liquid storage tank rises by that temperature, so that the user can recover the uncooled liquid. Can also be used.

In addition, when the liquid introduced into the liquid storage tank is mixed with the liquid in the liquid storage tank, the cooling efficiency is inevitably reduced.

The present invention has been proposed in order to solve the conventional problems as described above, an object of the present invention is to sequentially discharge the liquid supplied to the liquid storage tank is not supplied with the liquid cooled in the liquid storage tank is mixed before It is to provide an instant cooler that can be induced.

In addition, the present invention is to provide an instant cooler that can maximize the cooling efficiency of the liquid stored in the liquid storage tank for the above reasons.

Instantaneous cooler proposed by the present invention,

A liquid storage tank into which liquid is introduced and stored; Cooling pipe to take the heat of the liquid stored in the liquid storage tank to be cooled; A refrigeration cycle for supplying a low pressure refrigerant gas to the cooling pipe; A fluid flow guide means installed in the liquid storage tank to guide the liquid flowing into the outlet of the liquid storage tank while preventing the liquid flowing into the liquid storage tank from mixing with the cooled liquid in the liquid storage tank; It provides an instant cooler comprising a.

The fluid flow guide means includes a supporter positioned along an inner center of the liquid storage tank, and a spiral plate installed along the outer circumferential surface of the supporter to sequentially guide the liquid flowing into the liquid storage tank toward the outlet.

The instantaneous cooler according to the present invention may maintain the cooling efficiency by sequentially storing the liquid introduced into the liquid storage tank without mixing with the liquid which has been introduced and cooled before.

In addition, the liquid flowing into the liquid storage tank is guided to flow sequentially toward the outlet and cooled so that the user can always use the completely cooled liquid.

1 is a view for explaining the structure of the main part of the instantaneous cooler according to the present invention.
2 and 3 are diagrams showing that the supply line and the discharge line of the instantaneous cooler are arranged differently.
4 is a view for explaining a refrigeration cycle provided to the instantaneous cooler according to the present invention.

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

1 is a view showing the structure of the main part of the instantaneous cooler according to the present invention, Figures 2 and 3 are views showing that the supply line and the discharge line of the instantaneous cooler according to the present invention is arranged differently in the present embodiment water purifier The cooler provided in the above will be described as an example.

One embodiment of the instantaneous cooler according to the present invention is a liquid storage tank 20 and the liquid passing through the filter unit 10 for purifying the raw water is stored and the heat of the liquid stored in the liquid storage tank 20 It includes a refrigeration cycle for supplying a low pressure refrigerant gas to the cooling pipe 30 and the cooling pipe 30 to take away the cooling.

The liquid introduced into the liquid storage tank 20 is described as being made of water, such as purified water, bottled water, etc., but is not limited thereto.

The liquid storage tank 20 is connected to a supply line L1 for supplying liquid to the liquid storage tank 20 and a discharge line L2 for discharging the liquid stored in the liquid storage tank 20 to the outside, respectively. One side end of the discharge line (L2) is provided with a cock (C) to control the discharge of the liquid.

And the end of the supply line (L1) serves as a supply port 22 for supplying liquid to the liquid storage tank 20, the end of the discharge line (L2) is the liquid of the liquid storage tank 20 is discharged It serves as an outlet 24.

The cooling pipe 30 is made of a spiral wound structure to increase the contact area with the liquid storage tank 20 in order to improve the cooling efficiency.

A refrigeration cycle is provided to supply a refrigerant to the cooling pipe 30, which is a compressor 32 for compressing the refrigerant into a gas of high temperature and high pressure as shown in FIG. 4, and from the compressor 32. A condenser 34 which receives the compressed vaporized refrigerant into a liquefied refrigerant, an expansion valve 36 for lowering the pressure of the refrigerant so that the condensed refrigerant can be easily evaporated, and the expansion valve 36. ) Is a refrigeration closed cycle consisting of an evaporator that receives a refrigerant of a) and absorbs the surrounding heat and rapidly lowers the temperature, where the evaporator is the cooling pipe 30.

Such instantaneous cooler has the same or similar structure as the instantaneous cooler used in the present invention. In the present invention, the liquid flowing into the liquid storage tank 20 through the supply line L1 is previously introduced into the liquid storage tank and cooled. Further provided is a fluid flow guide means for guiding flow to the outlet 24 of the discharge line L2 connected to the liquid storage tank while preventing mixing with the liquid.

The fluid flow guide means is formed along the inner center of the liquid storage tank 20, and formed along the outer circumferential surface of the support 40, the liquid flowing into the liquid storage tank 20 discharge port 24 It consists of a spiral plate 42 which guides to flow sequentially toward).

The supporter 40 is positioned in the longitudinal direction inside the liquid storage tank 20, and the lower end thereof is fixed to the liquid storage tank 20 in a state where the bottom end is spaced apart from the bottom surface of the liquid storage tank 20.

And the inside of the supporter 40 is formed as a space is configured so that the supply pipe (L1) or discharge pipe (L2) can be inserted.

The discharge line (L2) is preferably formed so that the portion extending to the outside of the liquid storage tank 20 has a minimum length.

In the figure, reference numeral L3 denotes a drain tube, and 50 denotes an ice layer formed while the liquid inside the liquid storage tank 20 freezes through a cooling action through the cooling pipe 30.

The instantaneous cooler of the present invention as described above is discharged through the supply port 22 when the liquid, such as water, beverage, liquor is supplied through the supply line (L1) is introduced into the liquid storage tank (20).

At the same time, as the refrigeration cycle is operated, the refrigerant is compressed to high temperature and high pressure by the compressor 32, and then cooled in the condenser 34 to be converted into low temperature liquid refrigerant and supplied to the cooling pipe 30 via the expansion valve 36. do.

Then, the refrigerant passes through the cooling pipe 30 wound in a spiral and takes heat of the liquid contained in the liquid storage tank 20 while performing heat exchange to cool the liquid in the liquid storage tank 20.

As this process is repeated, the liquid contained in the liquid storage tank 20 may be cooled to a predetermined temperature. As the cooling operation is continuously performed, the liquid in the liquid storage tank 20 freezes, and a predetermined amount is formed into the liquid storage tank inner wall. Ice layer 50 is formed in the thickness.

The refrigerant vaporized by heat exchange is returned to the compressor 32 through the end of the cooling pipe 30, and the above process is repeated.

The cooled liquid contained in the liquid storage tank 20 may be discharged using the cock (C) installed at the end of the discharge pipe line (L2), and when a certain amount of the cooled liquid is used, the amount of liquid used is supplied to the supply pipe. It may be supplied to the liquid storage tank 20 through (L1).

At this time, the liquid at room temperature introduced into the liquid storage tank 20 is sequentially mixed with the cooled liquid of the liquid storage tank 20 due to the spiral plate 42 and introduced.

That is, the liquid at room temperature supplied through the supply port 22 of the supply line L1 is supplied without being mixed with the liquid cooled in the liquid storage tank 20 and stored.

The liquid thus supplied is gradually cooled by the cooling action of the cooling pipe 30. At this time, when the liquid is discharged to the discharge line L2 through the outlet 24 by opening the cock C, the liquid in which the cooling proceeds is a spiral plate. Further cooling along the 42 moves in the direction of the outlet 24.

Therefore, the liquid discharged to the discharge line (L2) through the discharge port 24 is discharged only the completely cooled liquid, in particular, the uncooled liquid flowing into the liquid storage tank 20 through the liquid flow guide means of the liquid storage tank ( It is not mixed with the cooled liquid in 20) and is induced to be discharged in order to maximize the cooling efficiency of the liquid.

In the above, the supply line (L2) is installed in the supporter 40, the liquid at room temperature supplied to the supply port 22 is supplied to the inner lower side of the liquid storage tank 20, as shown in Figure 1 spiral plate ( 42 is configured to move upwards, but as shown in FIG. 2, a supply line L1 is installed to allow liquid at room temperature to flow into the upper portion of the liquid storage tank 20, and a discharge pipe is formed in the supporter 40. Furnace (L2) can also be installed. In addition, as shown in FIG. 3, the inside of the supporter 40 may be sealed and the supply line L1 may be formed at the lower side of the liquid storage tank 20.

While the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

10: filter unit 20: liquid storage tank
22: supply port 24: discharge port
30: cooling pipe 32: compressor
34: condenser 36: expansion valve
40: supporter 42: spiral plate
50: ice layer L1: supply line
L2: discharge line L3: drain line

Claims (5)

A liquid storage tank into which liquid is introduced and stored;
Cooling pipe to take the heat of the liquid stored in the liquid storage tank to be cooled;
A refrigeration cycle for supplying a low pressure refrigerant gas to the cooling pipe;
A fluid flow guide means installed in the liquid storage tank to guide the liquid flowing into the outlet of the liquid storage tank while preventing the liquid flowing into the liquid storage tank from mixing with the cooled liquid in the liquid storage tank;
Instantaneous cooler comprising a. The method according to claim 1,
The fluid flow guide means is a instantaneous cooler consisting of a supporter located along the inner center of the liquid storage tank, and a spiral plate is fixed along the outer circumferential surface of the supporter to guide the liquid flowing into the liquid storage tank sequentially toward the outlet. The method according to claim 2,
The inside of the supporter is an instant cooler having a conduit for supplying a liquid to the liquid storage tank or to discharge the liquid of the liquid storage tank. The method according to claim 1,
The cooling pipe is a momentary cooler wound in a coil shape in a liquid storage tank. The method according to claim 1,
The liquid flowing into the liquid storage tank is instantaneous cooler made of any one of water, beverage, liquor.

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