KR20140041009A - Drinking water cooling unit temperature control system - Google Patents

Abstract

The present invention relates to a temperature control system for a drinking water cooling apparatus, wherein the temperature control system has a temperature controller installed outside the drinking water cooling apparatus to allow a user to arbitrarily and easily control temperature for maximizing user convenience and improving reliability provided to the user by allowing a person to drink drinking water at a desired temperature. For effects above, the temperature control system for a drinking water cooling apparatus according to the present invention comprises a temperature control system (30) installed outside the casing (10) to allow a user to arbitrarily determine and control temperature for maintaining an optimal temperature depending on the kind of drinking water. The temperature control system (30) includes: a temperature sensor (37) sensing the temperature of a coolant inside the casing (10); a temperature controller (33) controlling the temperature sensed by the temperature sensor (37); and a relay switch (34) electrically connected to the temperature controller (33) for operating the temperature controller (33).

Description

Technical Field [0001] The present invention relates to a temperature control system for a drinking water cooling system,

The present invention relates to a temperature control system for a drinking water cooling apparatus, and more particularly, to a temperature control system for controlling a temperature of a drinking water cooling apparatus, The present invention also relates to a temperature control system for a drinking water cooling device, which enables a user to drink drinking water at a desired temperature, thereby improving reliability of a user.

In general, drinking water such as beer, wine, water, etc., is used to cool the drinker to enjoy the cooler state.

In this cooling apparatus, a casing having a predetermined accommodation space is provided, a water tank in which cooling water is contained is provided inside the casing, a compressor and a condenser for compressing and condensing the refrigerant are disposed on one side of the water tank, And the cooling water in the water tank is cooled. In this case, the drinking water is cooled while the drinking water is circulated through the drinking water pipe locked by the cooling water.

1, a refrigerant cooled at a low temperature is passed through a refrigerant pipe 1, which is contained in water to be de-iced, so that the temperature of water around the refrigerant pipe 1 is lowered to a freezing point, And lowering the temperature to 0 ° C or lower to change the liquid state into solid ice.

The technology of receiving the refrigerant pipe 1 through which the refrigerant passes through and passing the refrigerant to lower the temperature of the water around the refrigerant pipe 1 to form ice is generally well known for a long time, And a low-temperature refrigerant passing through the inside of the refrigerant pipe 1 is mainly used for a large-sized ice maker for industrial use such as ammonia, and a small-sized ice- A gas such as a freon gas is mainly used.

Recently, in the drinking water cooling apparatus that can provide a cooled beverage in order to satisfy diversified preferences of consumers, the refrigerant pipe 1 through which the low temperature refrigerant passes is applied as a coil by applying the principle of the above- And a stirrer (3) driven by the electric motor (2) for forced circulation of the cooling water is rotatably fixed to the center of the cooled refrigerant pipe (1) The beverage pipe 4 wound around the refrigerant pipe 1 is spaced apart from the refrigerant pipe 1 by a predetermined distance around the refrigerant pipe 1 so as to surround the entire periphery of the refrigerant pipe 1, The cooling water around the refrigerant pipe 1 is cooled and freezed by the low-temperature refrigerant passing through the refrigerant pipe 1 so that the beverage water passing through the beverage pipe 4 is always cooled to a constant temperature Respectively.

In such a drinking water cooling device, it is necessary to always keep the thickness of the ice formed by freezing around the refrigerant pipe 1 constant to prevent breakage of the beverage pipe 4, and to keep the cooling temperature of the drinking water always constant have.

In the conventional drinking water cooling apparatus, in order to uniformly control the thickness of the ice formed around the refrigerant pipe 1, one metal rod of two metal rods made of an electric conductor is connected to the refrigerant pipe 1 And another metal rod is fixed so as to be spaced apart from the refrigerant pipe 1 by a predetermined distance, that is, adjacent to the beverage pipe 4 wound around the refrigerant pipe 1, The thickness of the ice was controlled by the presence of electricity between the bars.

When the ice is placed between the two metal bars and the ice is disposed, the operation of the compressor 6 for compressing and circulating the refrigerant is stopped to prevent further cooling, and no ice is displayed between the two metal bars When the two metal rods are energized due to the exchange of the electrolyte through the water for cooling, the compressor 6 for compressing and circulating the refrigerant is operated to cool again.

However, in the conventional drinking water cooling apparatus, the refrigerant tube 1 is accommodated in the water tank in the casing and the water tank is filled with the cooling water. At this time, the ice surface of the refrigerant tube 1 is freezed on the wall side of the water tank The ice surface can not keep the icing state constant and the temperature can not be controlled and the temperature can not be adjusted to the user's desired temperature so that it can not be maintained at a temperature suitable for each drinking water and the efficiency of the product is deteriorated thereby .

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a temperature controller for controlling a temperature of a drinking water cooling device, The user can supply the drinking water of the desired temperature, thereby maximizing the efficiency of the product and the reliability of the user.

Second, by forming a temperature control setting part in the temperature controller, the user can arbitrarily adjust the temperature of the drinking water of the drinking water cooling device so that the user can taste the optimum drinking water, thereby maximizing the satisfaction to the user.

Third, since the defrost control unit is formed on the temperature controller, if the compressor is driven for a long time, the freezing chamber of the evaporator is frozen to prevent the thermal efficiency of the compressor from being lowered, thereby maximizing the product quality.

Fourth, the present invention provides a temperature control system for a drinking water cooling device that can correct an error occurring in an external temperature sensor by forming an input correction function unit in a temperature controller, thereby maximizing the accuracy of the product.

According to an aspect of the present invention, there is provided a refrigerator including a casing having a predetermined accommodation space, a water tank in which cooling water is accommodated, and a compressor and a condenser for compressing and condensing the refrigerant, And the cooling water in the water tank is cooled by supplying a refrigerant through the refrigerant pipe in the water tank. In this case, the drinking water cooling device has a structure in which the drinking water is cooled while the drinking water is circulated through the drinking water pipe locked in the cooling water, And a temperature control system is provided to allow the user to arbitrarily set and adjust the temperature outside the apparatus, thereby maintaining an optimum temperature according to the type of the drinking water.

In addition, a temperature control system according to the present invention includes a temperature sensor for sensing the temperature of cooling water in a water tank, a temperature controller for controlling the temperature sensed by the temperature sensor, And a relay switch for operating the temperature controller. The present invention also provides a temperature control system for a drinking water cooling apparatus.

As described above, the present invention forms a temperature control system in which a temperature controller is formed on the outside of the drinking water cooling device so that the user can adjust the temperature, thereby enabling the user to maintain the optimal temperature according to the type of drinking water supplied to the drinking water cooling device The temperature controller can be set arbitrarily to adjust the temperature, so that the efficiency of the product can be maximized and the satisfaction of the user can be maximized to enhance the reliability of the product.

1 is an exemplary view showing a conventional drinking water cooling apparatus;
2 is a perspective view showing a drinking water cooling device according to the present invention;
3 is an internal structural view of a drinking water cooling device according to the present invention.
4 is an exemplary view showing a temperature control system of a drinking water cooling device according to the present invention.
5 is a block diagram of a temperature controller according to the present invention;
6 is an external configuration diagram of a temperature controller according to the present invention;

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

FIG. 2 is a perspective view illustrating a drinking water cooling device according to the present invention, FIG. 3 is a block diagram of an internal configuration of a drinking water cooling device according to the present invention, and FIG. FIG. 5 is a block diagram of a temperature controller according to the present invention, and FIG. 6 is an external configuration diagram of a temperature controller according to the present invention.

2 to 6, the present invention provides a drinking water cooling apparatus for cooling drinking water such as beer, wine, water, etc., comprising: a casing 10 having a predetermined accommodation space; A rapid cooling unit 14 connected to the drinking water tank 11 through a connection pipe 12 to cool the drinking water rapidly; a cooling water supply unit 15 connected to the rapid cooling unit 14 to cool the drinking water supplied to the rapid cooling unit 14; And a temperature control system 30 formed on the outside of the casing 10 to control the temperature of the drinking water supplied to the rapid cooling unit 14.

The rapid cooling unit 14 is connected to a connection pipe 12 connected to the drinking water container 11 and formed with a stainless steel beverage pipe 13 to which drinking water is supplied.

The cooling circulation system 20 includes a refrigerant pipe 25 formed in the rapid cooling unit 14 to cool drinking water supplied to the stainless steel beverage pipe 13 and a refrigerant pipe 25 connected to the refrigerant pipe 25, A low pressure pipe 26 connected between the refrigerant pipe 25 and the compressor 21 and a condenser 22 connected to the refrigerant pipe 25 and the condenser 22 And a capillary tube 24 connected between the dryer 23 and the capillary tube 24.

The temperature control system 30 is a temperature sensor 37 for sensing the temperature of the coolant, a temperature controller 33 for controlling the temperature of the coolant detected by the temperature sensor 37, and the temperature controller 33 ) Is electrically connected to the relay switch 34 to operate the temperature controller 33, and the compressor 35 and the cooling fan 36 to adjust the temperature of the cooling water according to the signal of the relay switch 34. Is formed.

The temperature control system 30 is also provided with a stirring motor 32 for circulating the cooling water in the casing 10 while the temperature controller 33 is operated according to the signal of the relay switch 34.

The temperature controller 33 controls the output of the compressor 35 to adjust the temperature of the cooling water 33a, and the evaporator and the freezer compartment of the drinking water cooling apparatus freeze by driving the compressor 35 for a long time. The defrost function 33b for removing the ice or frost generated therein and the input correction function 33c for correcting the error of the temperature generated by the temperature sensor 37 are formed.

In addition, the temperature controller 33 has a temperature setting key 33d for setting the temperature by the temperature control setting unit 33a, a temperature display 33e for displaying the current temperature of the coolant, and the temperature control setting unit. A deviation display 33f for displaying a deviation between the set value set in step 33a and the reference current temperature, and a compressor output lamp 33g indicating whether the compressor 35 is operated in accordance with the setting of the temperature control setting section 33a. And a defrost output lamp 33h indicating an operating state of the defrost function unit 33b and a fan output lamp 33i indicating an operating state of the cooling fan 36.

On the other hand, the temperature controller 33 is provided with a temperature unit display 33j indicating a temperature unit with respect to the temperature being displayed on the temperature display 33e.

For example, if the temperature control setting unit 33a sets the set temperature to -20 ° C and the control sensitivity is set to 1, when the current temperature reaches -19 ° C, the output of the compressor 35 is turned on. When the temperature reaches 21 ° C, the output of the compressor 35 is turned off.

The input correction function unit 33c has no error in the product itself of the drinking water cooling device, but corrects an error generated by the temperature sensor 37 input from the outside, and corrects a constant error due to disturbance or extension line during temperature measurement. do.

In addition, the input correction function unit 33c, for example, when the actual temperature is -18 ℃ and the display temperature of the temperature controller 33 is -20 ℃, if the value of the input correction is set to 2, the temperature controller 33 The display temperature of is adjusted to -18 ℃ to control the temperature.

In the accompanying drawings, reference numeral 15 denotes a cock to receive drinking water through the stainless steel beverage pipe 13, and reference numeral 31 denotes an outlet for connecting a power source to operate the drinking water cooling apparatus.

The operation state according to the present invention formed by the above system will be described below.

When the drinking water in the drinking water container 11 is supplied to the stainless steel beverage pipe 13 in the rapid cooling unit 14 through the connection pipe 12, the cooling water is cooled according to the operation of the cooling circulation system 20, The drinking water supplied to the pipe 13 is cooled and the cool drinking water is discharged through the cock 15.

At this time, the drinking water stored in the drinking water tank 11 supplied to the stainless steel beverage tube 13 must be set to have a different temperature so that the tasting person can taste the optimum taste depending on the type of the drinking water.

Accordingly, the drinking water cooling apparatus according to the present invention forms a temperature control system 30 that can directly control the temperature outside the casing 10 so as to maintain an optimal temperature for the drinking water.

The drinking water cooling apparatus according to the present invention senses the temperature of the cooling water in the casing 10 by the temperature sensor 37 and receives the sensed temperature from the temperature sensor 37 in the temperature controller 33, The temperature of the cooling water can be adjusted by activating the cooling water 20.

If the temperature is set by adjusting the temperature setting key 33d so as to be an optimal temperature for the drinking water stored in the drinking water container 11, the temperature of the drinking water supplied to the stainless steel beverage tube 13 is higher than the set temperature The relay switch 34 is turned on so that the temperature detected by the temperature sensor 37 and the temperature detected by the temperature control setting unit 33a of the temperature controller 33 is adjusted to the set temperature, 20 are operated.

On the other hand, as the cooling circulation system 20 is operated, the temperature of the cooling water is controlled to a predetermined temperature, and the temperature controlled by the temperature indicator 33e is displayed and can be directly confirmed by the user.

Then, when ice or frost is generated in the casing 10 of the drinking water cooling device by operating the cooling circulation system 20 for a long time, the defrosting function 33b removes the ice or frost. ) Is activated, the defrost output lamp (33h) is turned on so that the user can check the operating state.

In addition, as the cooling circulation system 20 is operated, the compressor output lamp 33g and the fan output lamp 33i are turned on so that the operating state of the drinking water cooling apparatus can be easily grasped.

In addition, the input correction function unit 33c can correct an error generated from an externally input temperature and a temperature sensed by the temperature sensor 37, thereby accurately controlling the temperature of the temperature controller 33, And cooled to a constant temperature.

Therefore, the drinking water cooling apparatus according to the present invention senses the temperature in the temperature sensor 37 so as to always be constantly cooled to the optimum temperature according to the drinking water in the temperature control system 30, the temperature control setting of the temperature controller 33 The control unit 33a, the defrost function 33b, and the input correction function 33c operate the drinking water cooling device, so that drinking water such as draft beer, wine, and purified water can be tasted with an optimum taste.

In addition, since the temperature controller 33 of the temperature control system 30 is formed outside the casing 10, the user can easily grasp the current operation state of the drinking water cooling device, Thereby maximizing convenience and efficiency of the product.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: Casing 11: Drinking water bottle
12: Connector 13: Stainless steel beverage tube
14: Rapid cooling section 15: Coke
20: cooling circulation system 21: compressor
22: condenser 23: dryer
24: capillary 25: refrigerant pipe
26: Low pressure pipe 30: Temperature control system
31: Outlet 32: Stirring motor
33: Temperature controller 33a: Temperature control setting section
33b: defrost function 33c: input correction function
33d: Temperature setting key 33e: Temperature display
33f: deviation display 33g: compressor output lamp
33h: Defrost output lamp 33i: Fan output lamp
33j: Temperature unit indication 34: Relay switch
35 compressor 36 cooling fan
37: temperature sensor

Claims (6)

A drinking water cooling apparatus for cooling drinking water such as beer, wine, and purified water,
A casing (10) having a predetermined accommodation space;
A stainless steel beverage pipe 13 is connected to the drinking water bottle 11 and the connecting pipe 12 in the casing 10 and a rapid cooling unit 14 for rapidly cooling the drinking water supplied to the stainless steel beverage pipe 13 )Wow;
A cooling circulation system (20) connected to the rapid cooling unit (14) to cool and circulate the drinking water supplied to the rapid cooling unit (14);
Temperature control of the drinking water cooling device, characterized in that formed to be exposed to the outside of the casing 10 is formed by a temperature control system 30 to set and control the temperature of the drinking water supplied to the rapid cooling unit 14 system. The method according to claim 1,
The cooling circulation system (20)
A refrigerant pipe 25 formed in the rapid cooling unit 14 to cool the drinking water supplied to the stainless steel beverage pipe 13,
A compressor 21 and a condenser 22 connected to the refrigerant pipe 25 for compressing and condensing the refrigerant,
A low pressure pipe 26 connected between the refrigerant pipe 25 and the compressor 21,
And a capillary (24) connected to the refrigerant pipe (25) and connected to the condenser (22). The method according to claim 1,
The temperature control system (30)
A temperature sensor 37 for sensing the temperature of the cooling water,
A temperature controller 33 for controlling the temperature of the cooling water sensed by the temperature sensor 37;
A relay switch 34 electrically connected to the temperature controller 33 to operate the temperature controller 33,
Temperature control system of the drinking water cooling device, characterized in that formed by the compressor (35) and the cooling fan 36 to adjust the temperature of the cooling water in accordance with the signal of the relay switch (34). The method of claim 3, wherein
The temperature controller 33 controls the output of the compressor 35 to adjust the temperature of the cooling water 33a, and the inside of the drinking water cooling device is frozen due to long-term operation of the compressor 35. Defrost function 33b for removing the ice or frost to be formed, and the temperature correction system of the drinking water cooling device, characterized in that the input correction function 33c for correcting the error of the temperature generated by the temperature sensor 37 is formed . The method according to claim 3 or 4,
The temperature controller 33 has a temperature setting key 33d for setting the temperature by the temperature control setting unit 33a, a temperature display 33e for displaying the current temperature of the coolant, and a temperature control setting unit 33a. Deviation display (33f) for displaying the deviation between the set value set in step and the reference current temperature, the compressor output lamp (33g) indicating the operation of the compressor 35 in accordance with the setting of the temperature control setting section 33a, and the defrost function A defrost output lamp (33h) indicating an operating state of the unit (33b) and a fan output lamp (33i) indicating an operating state of the cooling fan 36, the temperature control system of the drinking water cooling apparatus. The method of claim 3, wherein
Wherein the temperature control system (30) includes a stirring motor (32) that circulates the cooling water in the casing (10) while the temperature controller (33) is operated in response to a signal from the relay switch Temperature control system.

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