KR20050087534A - Water tank controlling device in soda water dispensing and method implementing it - Google Patents

Abstract

The present invention relates to a water tank quantity control device and method of the carbonated water dispenser, to maintain the temperature of the water tank at a low temperature to maintain a constant water in the water tank for carbonated water production in a refrigerator equipped with a carbonated water generator The purpose is to provide a quantity control device and method.

 To this end, a water tank for water supply and a compressed carbon gas cylinder for carbon gas are 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 fresh water in the water tank is reduced due to use, the pressure sensor detects it and transmits it to the microcomputer, and the microcomputer performs a process of controlling opening and closing of the water valve so that the water tank reaches a certain level. .

Therefore, according to the present invention, the water level of the water tank is automatically adjusted to supply carbonated water and purified water at a constant temperature.

Description

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

The present invention relates to a water tank quantity control device and method for a carbonated water dispenser, and more particularly, to a carbonated water generator in a refrigerator, and to the water tank for water supply to the carbonated water generator maintains a certain amount; It's about how.

1 is a view showing a conventional combined refrigerator with a dispenser. This is an internal schematic view showing an internal structure of a refrigerator equipped with an ice maker and a dispenser device, and an ice maker 2 is installed at an upper side of the freezer compartment 1. The ice maker 2 has an ice making unit 2a which forms ice, and a storage container unit 2b is installed below the ice maker 2 to store the ice formed in the ice maker 2a.

On the other hand, the dispenser device 3 is installed on the front surface of the freezing chamber door 1a, so that water or ice desired by the user can be easily taken out from the outside without opening the door 1a. That is, the front panel 3a located at the front of the dispenser device 3 is provided with a function button (not shown) for selecting water or ice so that the user can simply receive water or ice from the outside by pressing the function button. Will be.

The ice maker 2 and the dispenser 3 are connected to a water supply source 4 (eg, a faucet, etc.) external to the refrigerator to receive water. That is, an external pipe 6a connected to the water supply source 4 outside the refrigerator is installed through the rear wall of the refrigerating chamber, and a filter 5 for water purification is installed at one side of the external pipe 6a, through the external pipe 6a. The incoming water is filtered. And, the other side of the water filter (5) is connected to the inner pipe (6b), the water supply valve (7) is provided at the end of the inner pipe (6b).

The water supply valve 7 serves to control the water supplied to the ice maker 2 and the dispenser 3. That is, an ice maker pipe 6c connected to the ice maker 2 is installed at one side of the water supply valve 7, and a dispenser pipe 6d connected to the dispenser device 4 is installed at the other side. In the middle of the dispenser pipe 6d, a water tank 8 for storing water supplied to the dispenser device 3 is provided.

As configured as described above, the water delivered from the external water supply source 4 is delivered to the ice maker 2 and the dispenser device 3 through the respective pipes 6, the water filter 5, and the water supply valve 7. It becomes possible.

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 maintain the temperature of the water tank at a low temperature in order to keep the water in the water tank for carbonated water generation in a refrigerator equipped with a carbonated water generator is kept constant The purpose is to provide a quantity control device and method to ensure that.

In order to solve the above object, the present invention installs a water tank at the bottom of the refrigerating chamber, and the water tank has a pressure valve for detecting the quantity of water so that the pressure valve senses water pressure so that a certain amount of water is always in the water tank. An apparatus and method are provided.

To this end, the refrigerator includes a water tank installed in a storage compartment of the refrigerator and having a pressure sensor for detecting fresh water, and a water tank and a compressed carbon gas cylinder are formed in the interior of the refrigerator, thereby controlling the supply of water and carbon dioxide gas. A dispenser connected to a purified water pipe valve, a gas pipe valve, and a second discharge valve for discharging carbonated water, and a carbonated water formed in the door, and a first discharge valve for discharging water from the second discharge valve and the purified water pipe. Etc. are provided.

The water tank quantity control method of the carbonated water dispenser having such a component, the first step of the fresh water in the water tank, the second step of the pressure sensor detects the amount of fresh water in the water tank and transmits to the microcomputer; In the third step of checking whether the amount of water has reached a certain amount, and the fourth step of maintaining the water valve in the open state if the predetermined amount has not reached the predetermined amount, and in the predetermined amount reached confirmation step, And a fifth step of closing the water valve, and a sixth step of cooling the water tank for a predetermined time by the cold air in the refrigerating compartment.

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

Figure 2 is a front view of the refrigerator for controlling the quantity of the water tank for storing the carbonated water and the water supplied to the dispenser in the refrigerator according to the present invention, the water tank 13 for water supply and the compressed carbon gas cylinder for carbon gas (15) The carbonated water generator 22 is formed inside the refrigerator, and receives water and carbon to generate carbonated water, and the carbonated water is discharged to the dispenser 27. This will be described in more detail as follows.

A water tank 13 is provided inside the refrigerator main body 10. The water tank 13 selects cold water or carbonated water from an operation panel unit (not shown) in which a user is usually installed at the front of the refrigerator to control the function of the refrigerator. If so, supply the cold water to the dispenser (27) or the water for the production of carbonated water to the carbonated water 22. In addition, the inside of the main body 10 is provided with a compressed carbon gas cylinder 15 for producing carbonated water.

In addition, the water tank 13 and the compressed carbonic acid gas cylinder 15 are connected to the purified water pipe 17 and the carbon dioxide gas pipe 18 to supply water and carbonic acid gas to the carbonated water heater 22.

Of course, the water tank 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 water tank 13 is installed in the refrigerating chamber, the water tank 13 is naturally cooled by the circulation of cold air to maintain a constant temperature. 3 is a view showing a position where such a water tank 13 is installed. That is, since the cold air generated from the evaporator (not shown) circulates the refrigerating compartment, the refrigerating compartment is naturally cooled, so that the water tank 13 installed in the body 30 can maintain a temperature sufficient to produce carbonated water. In addition, in the refrigerating chamber of the body 30, the compressed carbon gas cylinder 15 is disposed in parallel with the water tank (13).

The water tank 13 is equipped with a pressure sensor 14 detects the quantity of the water tank (13). The pressure sensor 14 is connected to a microcomputer (not shown) to transmit the detected hydraulic pressure information. That is, when the fresh water amount of the water tank 13 changes as water is supplied to or discharged from the water tank 13, the current value of the pressure sensor 14 also changes. The change information is transmitted to the microcomputer to determine whether the microcomputer reaches the upper or lower limit of the water tank, and a control process is performed to supply water to the water tank 13 by a difference.

This control process is shown in the flowchart of FIG. 4, which will be described later.

In the above, the water tank 13 has been described that the pressure sensor 14 is provided so that a certain amount of water is always fresh water, but the water level control by the pressure sensor 14 is somewhat inaccurate, so it detects the correct quantity. For this purpose, it is also possible to use a Hall IC or an electrode at the attachment position of the pressure sensor 14.

In FIG. 3, the door 31 is opened and closed by the hinge 19, and includes the carbonated water 22 and the dispenser 27 inside the door 31.

The fresh water maintains a constant temperature (10 ° C. or less) as the water tank 13 is cooled, so that 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 31 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.

With the configuration of FIG. 2 described above, it is possible for the fresh water of the water tank 13 to maintain a certain amount at all times, and a flowchart showing a process for maintaining such a constant amount is shown in FIG. 4. In other words, this is a process to ensure that a certain amount of fresh water in the water tank 13, and as the fresh water in the water tank 13 is reduced due to use, the pressure sensor 14 detects this and transmits it to the microcomputer. It is a process of controlling the opening and closing of the water valve 11 so that the quantity of the water tank 31 reaches a predetermined water level. Referring to the control process to maintain a certain quantity in the water tank as follows.

The microcomputer opens the water valve 11 to supply water to the water tank 13 so that a predetermined amount of water is desalted in the water tank 13 (step S400).

After the water is purified by the water filter 11 through the water valve 11, the water is supplied to the water tank 13, the pressure sensor 14 detects the water pressure and transmits it to the microcomputer (step S410).

The microcomputer reads the transmitted sensing information and checks whether the predetermined number is a predetermined value (step S420).

If the quantity detected in the constant temperature check step does not reach a certain amount, the microcomputer keeps the water valve 11 open, but if the predetermined amount is reached, the water valve 11 is closed to stop the water supply. (Step S430).

When the water valve 11 is closed, the fresh water is cooled to reach a predetermined temperature (step S440). That is, when a certain time elapses naturally because cold air is circulated in the refrigerating chamber, the water tank 13 is cooled, so that the temperature of the fresh water becomes an appropriate temperature for carbonated water or cold water.

Fresh water is reduced by the use of cold or carbonated water, which lowers the water tank level. Therefore, the pressure sensor 14 detects this and notifies the microcomputer (step S450).

The microcomputer checks whether the fresh water is in use (step S460). The reason for such a process is that if the water is being used for cold or carbonated water, the water tank 13 needs to maintain a constant temperature, so the above process is necessary.

If the fresh water in the water tank 13 in the use check step is in use, the microcomputer keeps the water valve 11 in a closed state, and if the fresh water is not in use, the water in the water tank 13 is constant It is confirmed whether or not the quantity (step S470).

If the water of the water tank 13 in the predetermined quantity check step, the water supply of the water tank 11, the microcomputer keeps the water valve 11 in a closed state, unlike the water tank (13) if the water is not a certain amount of water valve 11 Open the water to water the water tank 13 (step S480).

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, the conventional refrigerator has a problem that the temperature is significantly changed due to the inflow of warm raw water when using a certain amount of water, so that it is insoluble in the preparation of the carbonated water, but by automatically adjusting the water level of the water tank, Constant water supply is possible.

1 is an internal schematic view showing a water supply configuration of a conventional refrigerator refrigerator equipped with an ice maker and a dispenser device.

2 is a front view of the refrigerator controlling the quantity of the water tank for storing the carbonated water and the water supplied to the dispenser in the refrigerator according to the present invention.

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

Figure 4 is a flow chart showing a control process to maintain a constant quantity in the water tank 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: body, 31: door

Claims (3)

A water tank installed in a storage compartment of a refrigerator and having a pressure sensor for detecting fresh water; A water tank and a compressed carbon gas cylinder are formed in the interior of the chamber, and are connected to a purified water pipe valve and gas pipe valve for controlling the supply of water and carbon dioxide gas, and a second discharge valve for discharging carbonated water. With carbonated water, A dispenser connected to the second discharge valve and a first discharge valve for discharging water from the purified water pipe Water tank quantity control device of the carbonated water dispenser comprising a. The first step (S400) and the fresh water in the water tank, A second step (S410) in which the pressure sensor detects the amount of fresh water in the water tank and transmits it to the microcomputer; A third step (S420) of checking whether the amount of water reaches a predetermined amount; A fourth step (S421) of maintaining the water valve in an open state if the predetermined amount has not been reached in the predetermined amount reaching step; A fifth step (S430) of closing the water valve when the predetermined amount has been reached in the predetermined amount reaching step; Step 6 in which the water tank is cooled by the cold air in the refrigerating chamber for a predetermined time (S440) Water tank quantity control method of the carbonated water dispenser comprising a. The method of claim 2, After the sixth step is made, Step 7 (S450) in which the pressure sensor notifies the microcomputer as the water level of the water tank is lowered, The microcomputer checks whether the water in the water tank is being used in the eighth step (S460), The ninth step of keeping the water valve closed when in use; If not in use, the tenth step (S470) of checking whether the quantity of the water tank is a certain amount; An eleventh step of maintaining the water valve in a closed state if not a predetermined quantity; The water tank quantity control method of the carbonated water dispenser, characterized in that further comprises a twelfth step of opening the water valve (S480) if the predetermined amount of water is introduced into the water tank.