KR20050087533A - Water tank cooling device in soda water dispensing and method implementing it - Google Patents

Abstract

The present invention relates to a water bottle refrigeration apparatus and method for a carbonated water dispenser, and to provide a cooling device and method for maintaining the temperature of the water tank at a low temperature in order to generate carbonated water in a refrigerator equipped with a carbonated water generator. .

 To this end, a bucket for water supply and a pressurized carbon gas cylinder for carbon gas is formed inside the refrigerator, and a carbonated water group is formed to receive carbonated water from water and carbon, thereby discharging carbonated water to the dispenser. According to this configuration, when the temperature sensor detects the temperature of the water tank and transmits it to the microcomputer, the microcomputer performs a process of controlling the cooling fan so that the water temperature of the water tank reaches a predetermined temperature.

Therefore, according to the present invention, it is possible to supply carbonated water and purified water at a constant temperature by introducing cold air into the water tank using a cooling fan.

Description

Water tank cooling device in soda water dispensing and method implementing it}

The present invention relates to a water bottle refrigeration apparatus and method for a carbonated water dispenser, and more particularly, to an apparatus and method for installing a carbonated water generator in a refrigerator and maintaining a constant temperature of the water tank for water supply to the carbonated water generator. will be.

A general refrigerator has a compressor (3) provided on the rear wall of the freezer compartment to perform basic refrigeration and freezing functions as shown in FIG. 1, and an evaporator (4) for evaporating condensed refrigerant sent from the compressor to form cold air. Is installed at the rear of the refrigerator or freezer compartment. And the cooling fan 5 for forcibly blowing the cold air cooled by the evaporator 4 into the refrigerating and freezing chamber is provided.

Therefore, as shown in FIG. 1, a refrigerator compartment and a freezer compartment are formed inside the main body, respectively, and the front and rear sides of the refrigerator compartment and the freezer compartment are provided with freezer and refrigerator compartment doors for storing and withdrawing food stored therein. Combined. In the refrigerating chamber, a plurality of shelves on which food and the like are seated may be mounted in multiple layers.

In addition to the above basic functions, various additional functions are generally introduced into the refrigerator. A representative example of these additional functions may be a dispenser for supplying cold or hot water.

The dispenser 1 is usually installed in the door, and the user puts the water from the dispenser into a cup for drinking and then discards the remaining water in the sump 2 provided at the bottom of the dispenser. This water supply is provided by connecting a water pipe to the water filter and forming a flow path with a dispenser.

In the case of applying the carbonated water dispenser, carbonated gas is not dissolved in water unless the temperature of purified water is kept below a certain temperature. In other words, in order to make carbonated water, carbonic acid gas must be dissolved in water, but the temperature of water in a direct-flow refrigerator does not keep low temperature.

The present invention is conceived to overcome the disadvantages of the prior art described above, to provide a cooling device and a method for maintaining the temperature of the water tank at a low temperature to generate carbonated water in a refrigerator equipped with a carbonated water generating device The purpose is to.

In order to solve the above object, the present invention installs a bucket at the bottom of the refrigerating chamber, and puts a pressure valve for water quantity sensing in the bucket so that a certain amount of water is contained therein and has a bucket cooling fan at one side to maintain a constant temperature at all times Provides an apparatus and method.

To this end, the refrigerator includes a water tank, a water tank, and a compressed carbon dioxide gas tank, each having a pressure sensor surrounded by a duct and a temperature sensor for sensing fresh water and a temperature sensor for sensing a temperature. A first water outlet valve connected to a water purification valve and a gas pipe valve for regulating supply, and a second water discharge valve for discharging carbonated water and a carbonated water formed inside the door, and a water discharge pipe connected to the second valve and the water reservoir. Dispensers connected to the discharge valve, and one side of the duct is provided with a bucket cooling fan for introducing cold air into the bucket.

In the bucket cooling method of the carbonated water dispenser having such a component, the step of fresh water in the bucket, the temperature sensor detects the temperature of the bucket and transmits it to the microcomputer, and whether the detected temperature is within a certain temperature And a step of driving the water tank cooling fan when the detected temperature is higher than a predetermined temperature, and stopping the water tank cooling fan when the detected temperature is lower than the predetermined temperature.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the attached invention.

FIG. 2 is a front view of the refrigerator for storing water supplied to the carbonated water dispenser in the refrigerator according to the present invention to maintain a constant temperature, the bucket 13 for water supply and the compressed carbon gas cylinder 15 for carbon gas is A carbonated water generator 22 is formed inside the refrigerator and receives carbon dioxide from water by supplying water and carbon, thereby discharging carbonated water to the dispenser 27. This will be described in more detail as follows.

The inside of the refrigerator main body 10 is provided with a bucket 13, which is a user usually installed in the front of the refrigerator when the user selects cold or carbonated water in the operation panel unit (not shown) to control the function of the refrigerator Cold water is supplied to the dispenser 27 or water for producing carbonated water is supplied to the carbonated water generator 22. In addition, the inside of the main body 10 is provided with a compressed carbon gas cylinder 15 for producing carbonated water.

The bucket 13 and the pressurized carbon dioxide cylinder 15 are connected to the purified water pipe 17 and the carbon dioxide gas pipe 18, respectively, to supply water and carbon dioxide gas to the carbonated water heater 22.

Of course, the water container 13 receives fresh water through the water valve 11, which is a water supply source, and undergoes fresh water after the purification process by the water filter 12.

Since the bucket 13 is installed in the refrigerating chamber, it is naturally cooled by the circulation of cold air, thereby maintaining a constant temperature. To this end, a duct 30 is formed, which is shown in FIG. 3. That is, the duct 30 is formed to surround the bucket 13 and the compressed carbon gas cylinder 15 so that cold air generated from an evaporator (not shown) directly flows into the bucket 13.

In addition, the one side of the duct 30 is provided with a water tank cooling fan 31 for rapid cooling by rapidly circulating cold air so that the water in the water tank 13 is cooled. Of course, the temperature sensor 32 is provided on the water tank 13 side for the cooling fan to check the temperature in real time and transmit it to the microcomputer (not shown). Therefore, the microcomputer controls the rotation of the cooling fan 31 until the temperature of the bucket 13 reaches the set temperature by comparing the sensed temperature with the set temperature. This will be described later with reference to the flowchart of FIG. 4. In addition, in FIG. 3, the door 33 is opened and closed by the hinge 19, and includes a carbonated water 22 and a dispenser 27 therein.

The bucket 13 is provided with a pressure sensor 14 to ensure that a certain amount of water is always fresh. That is, when the fresh water amount of the bucket 13 changes as the water is supplied or discharged, the current value of the pressure sensor 14 is also changed. The change information is transmitted to the microcomputer to determine whether the microcomputer has reached the upper or lower limit of the bucket and supply the water to the bucket 13 by the difference.

The fresh water maintains a constant temperature (10 ° C. or less) as the water tank 13 is cooled, and thus, the fresh water is easily mixed with carbon dioxide gas. Of course, it is also possible to be supplied to the dispenser 27 as cold water without the need to mix with carbon dioxide gas.

The cooled water flows into the carbonated water 22 formed in the door through the purified water pipe 17. Of course, the pressure pump 16 is provided to take the water from the low place to the high place. That is, pressure is applied so that water flows upward. The purified water pipe 17 has a valve for producing carbonated water and a valve for providing only cold water, so that the valve is opened and closed according to a user's selection. These valves consist of a purified water pipe valve 21 and a first discharge valve 23, and the first discharge valve 23 discharges cold water to the dispenser 27 through the purified water dispenser tap 25. On the other hand, the purified water pipe valve 21 supplies water to the carbonated water heater 22. Accordingly, the carbonated water is mixed with the carbon dioxide gas introduced from the compressed carbon gas cylinder 15.

The gas pipe valve 20 is installed in the carbon dioxide pipe 18 so that the carbon dioxide gas flows into the carbonated water 22.

Carbonated water 22 is composed of a sealed container is usually formed inside the door of the refrigerator to produce carbonated water and to store it. Of course, by the cold air circulation of the refrigerator, the carbonated water 22 can maintain a constant temperature.

The carbonated water generated by the carbonated water 22 is discharged to the carbonated water dispenser tap 26 through the second discharge valve 24.

The carbonated water discharge pipe 271 is discharged to the dispenser 280 installed in the left door 201. Of course, it is possible to be provided with a flow rate controller to adjust the discharge rate of the carbon dioxide before discharged to the dispenser 280.

Using the above-described FIG. 2, the fresh water of the bucket 13 maintains a constant temperature, and a flowchart showing a process for maintaining the constant temperature is shown in FIG. 4. That is, this is a process of rapidly cooling the cold air into the bucket 13, and when the temperature sensor 32 senses the temperature of the bucket 31 and transmits it to the microcomputer, the microcomputer reaches the predetermined temperature. It is a process of controlling the cooling fan 31 to be. The process of cooling by driving the cooling fan is as follows.

The microcomputer stores water by introducing water so that a predetermined amount of water is maintained by the pressure sensor 14 installed in the bucket 13 (step S400).

As the water is supplied to the bucket 13, the temperature sensor 32 detects the temperature of the bucket 13 and transmits it to the microcomputer (step S410).

The microcomputer reads the transmitted temperature information and checks whether the set temperature is a predetermined temperature (step S420).

If the detected temperature is higher than the predetermined temperature in the step of checking the constant temperature, the microcomputer drives the cooling fan 31 to cool the water tank 13 by introducing a large amount of cold air (step S430).

On the other hand, if the sensed temperature is lower than the predetermined temperature, the microcomputer stops the cooling fan 31 to allow the water tank 13 to be cooled by the usual cold air circulation (step S440).

Of course, the temperature sensor 32 detects the temperature of the bucket 13 in real time and transmits it to the microcomputer, so that the microcomputer repeats the above process so that the bucket 13 maintains a constant temperature at all times.

Although the above process describes the cooling process by turning on or off the cooling fan, it is also possible to perform rapid cooling by controlling the rotation speed of the fan. In other words, this is a method of cooling within a short time by raising the voltage of the fan to adjust the intensity of the air volume.

As mentioned above, the present invention has been described in detail with reference to the accompanying embodiments and drawings, but the present invention is not limited to the specific embodiments, and those skilled in the art or acquiring general knowledge are provided with the contents of the present invention. It should be understood that numerous variations and modifications can be made without departing from the scope of the invention. Therefore, the protection scope of the present invention will be preferred based on the appended claims.

According to the present invention, it is possible to supply carbonated water and purified water at a constant temperature by introducing cold air into a bucket using a cooling fan.

1 is a cross-sectional view of a typical refrigerator having a dispenser for providing cold water.

2 is a front view of a refrigerator for maintaining a constant temperature of the water tank for storing the water supplied to the carbonated water dispenser in the refrigerator according to the present invention.

Figure 3 is a side cross-sectional view showing a cooling structure of the bucket in the refrigerator shown in FIG.

Figure 4 is a flow chart showing a cooling process to maintain a constant temperature of the water in the bucket according to the present invention.

***** Explanation of main symbols in FIGS. 2 and 3 ******

10: main body, 11: water valve, 12: water filter

13: water tank, 14: pressure sensor, 15: compressed carbon gas cylinder

16 pressurized pump, 17 purified water pipe, 18 carbon dioxide gas pipe

19: hinge, 20: water pipe valve, 21: gas pipe valve

22: carbonated water, 23: first discharge valve, 24: second discharge valve

25: purified water dispenser tap, 26: carbonated water dispenser tap

27: dispenser, 30: duct, 31: water tank cooling fan

32: temperature sensor, 33: door

Claims (2)

The water tank is surrounded by a duct and equipped with a pressure sensor for sensing the fresh water and a temperature sensor for sensing the temperature, A water tank and a compressed carbon gas cylinder are formed inside the chamber, and the carbonated water formed inside the door is connected to a purified water pipe valve for controlling the supply of water and carbon dioxide, a gas pipe valve, and a second discharge valve for discharging carbonated water. tile, A dispenser connected to a first discharge valve for discharging water from the water purification pipe connected to the second valve and the water tank; Bucket cooling fan that is equipped with one side of the duct and introduces cold air into the bucket Bucket refrigeration apparatus of the carbonated water dispenser comprising a. The fresh water in the bucket, The temperature sensor detects the temperature of the water tank and sends it to the microcomputer, Checking whether the detected temperature is within a predetermined temperature; If the detected temperature is higher than a predetermined temperature step of driving the water cooling fan; Stopping the water cooling fan when the detected temperature is lower than a predetermined temperature. Bucket refrigeration method of carbonated water dispenser comprising a.