KR20200072122A - Ice machine - Google Patents

Abstract

The present invention provides an ice machine comprising: a cabinet; a tray which is provided inside the cabinet and in which ice is frozen; a nozzle unit provided on the lower side of the tray and spraying water to the tray; a storage tank in which water supplied to the nozzle unit is stored; a water level sensor provided in the storage tank; a pump connected to the nozzle unit through a guide tube and supplying the water stored in the storage tank to the nozzle unit; a supply tube supplying the water to the tray; a water supply valve provided in the supply tube; and a control unit opening and closing a flow path of the water supply valve in accordance with the water level measured by the water level sensor, thereby saving water.

Description

Ice machine{Ice machine}

The present invention relates to an ice machine, and more particularly, to an ice machine installed in a kitchen sink and capable of saving water.

An ice machine installed in a kitchen sink and providing ice to a user typically applies a direct cooling cycle to make transparent ice, and an ice-making unit that makes ice is located at the top and ice is transported and stored in the bottom ice section through the ice-making process. It has a structure.

In order to make transparent ice by applying a direct cooling cycle, water is sprayed to the lower part of the tray, which is kept in low temperature in contact with the evaporation tube (EVA) through a pump while water is stored in the storage tank. At this time, water for circulation is supplied to the storage tank, and water is supplied only for a predetermined time through time control. In general, depending on the water pressure conditions in the region where the ice machine is installed, even if the flow time is different, the flow rate is different and the excess water is supplied more than the specified water and the excess water is discarded. In general, when driving the ice-making cycle once, the ratio of the amount of water to be drained from the amount of water is estimated to be about 80%. That is, according to the prior art, there is a problem that a large number of watered water is not used and wasted.

In the case of applying the same technique as the prior art, since the amount of water used in excess of the proper amount is discarded as it is, the amount of water used in the product increases, resulting in unnecessary waste of resources. In addition, in addition to the waste of water resources, the water supplied to the ice machine passes through the filter and is supplied to the storage tank, so that the life of the filter is shortened when the amount of water used is increased.

The present invention is to solve the above problems, the present invention is to provide an ice machine that can save water by supplying only an appropriate amount of water.

In addition, the present invention is to provide an ice machine that is equipped with a water level sensor in the storage tank, and can reduce the amount of water wasted by supplying an appropriate amount of water regardless of the water pressure in the installation conditions of the ice machine.

The present invention minimizes water drainage by mounting a water level sensor in the storage tank. 추가If additional water supply is needed to improve the hygiene of water in the storage tank and the transparency of ice-making ice, water can be supplied for a certain period of time after acquiring the level sensor signal. You can proceed.

In addition, the present invention can reduce the amount of water wasted according to the additional water supply by supplying only the amount of water set in the storage tank that stores water to spray water to the lower portion of the tray.

In the present invention, the flow rate difference according to the water pressure occurs according to the installation conditions of the ice machine, so only the amount of water selected by the water level sensor in the prior art of time control is supplied.

In addition, according to the present invention, it is possible to proceed with additional water supply at regular intervals in order to prevent hygiene of the stored water in the storage tank and increase in opacity of ice due to mineral accumulation.

In order to achieve the above object, the present invention is a cabinet; A tray provided inside the cabinet and condensed with ice; A nozzle unit provided at a lower side of the tray and spraying water toward the tray; A storage tank in which water supplied to the nozzle unit is stored; A water level sensor provided in the storage tank; A pump connected to the nozzle part with a guide pipe and supplying water stored in the storage tank to the nozzle part; A supply pipe supplying water to the tray; A water supply valve provided in the supply pipe; And a control unit that opens and closes the flow path of the water supply valve according to the water level measured by the water level sensor.

When the water level sensor detects that the water level has dropped below a certain height, the control unit may open the water supply valve to supply water to the tray.

The water level sensor can periodically transmit water level information to the control unit.

The tray is provided with a through pipe, so that the water supplied to the water pipe can drop into the storage tank through the through pipe.

The tray includes a plurality of cells in which ice is generated, and the through tube may be formed to penetrate the plurality of cells vertically.

It is possible that the storage tank is disposed under the tray.

It is possible to further include a compressor that compresses the refrigerant and supplies cold air to the tray.

When the compressor starts to be driven, the control unit can open the water supply valve.

It is possible to include a door for opening and closing the front opening of the cabinet, and a door opening and closing sensor for detecting opening and closing of the door.

When closing is detected after opening the door in the door opening/closing sensor, the control unit may open the flow path in the water supply valve.

Even if the water level sensor does not detect that the water level has dropped below a certain height, the control unit may open the flow path at the water supply valve after a certain time has elapsed.

With the water level sensor according to the present invention, water consumption is reduced by supplying only an appropriate amount of water, thereby preventing waste of resources.

In addition, there is an effect of reducing the replacement cost for consumers by increasing the filter replacement cycle by reducing the amount of filter inflow due to the decrease in water consumption, and the manufacturer reduces the filter life span of a certain cycle, resulting in cost reduction and volume reduction It has the effect of increasing the utilization of the machine room volume.

1 is a view for explaining an ice machine according to an embodiment of the present invention.
2 is a view for explaining the interior of FIG. 1;
3 is a view for explaining the main parts of FIG. 2;
4 is a block diagram according to an embodiment.
5 illustrates the concept of an embodiment.

Hereinafter, preferred embodiments of the present invention capable of specifically realizing the above object will be described with reference to the accompanying drawings.

In this process, the size or shape of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout this specification.

1 is a view for explaining an ice machine according to an embodiment of the present invention, FIG. 2 is a view for explaining the interior of FIG. 1, and FIG. 3 is a view for explaining main parts of FIG.

Referring to FIG. 1, the ice machine according to the present invention includes a cabinet 10 forming an exterior and a door 20 opening and closing an opening in front of the cabinet 10. The door 20 is coupled to one side of the cabinet 10, and can be opened and closed in the opening of the cabinet 10 while being rotated to the left and right about the rotation axis in the vertical direction.

A handle 22 is provided on one side of the door 20, and a user can rotate the door 20 by gripping a hand on the handle 22 of the door 20.

FIG. 2 is a view showing the interior in a state of cutting the side surface of FIG. 1. 2 and 3, a machine room 12 is provided below the cabinet 10. The machine room 12 is provided with a compressor 90 that compresses refrigerant as one component during a refrigeration cycle. The compressor 90 may compress the refrigerant and finally generate cold air.

The machine room 12 is provided in the lower portion of the cabinet 10, it is possible to reduce the noise and vibration generated.

An evaporator 30 is provided on the upper side of the cabinet 10 to cool as the refrigerant compressed in the compressor 90 evaporates. The evaporation unit 30 is provided in the form of a tube, and contacts the tray 32. The tray 32 is cooled by the coolant passing through the inside of the evaporator 30, and water is converted into ice when water is brought into contact with the tray 32 that has been cooled.

The evaporator 30 is provided in a twisted shape, so that a space in which a plurality of ices provided in the tray 32 is generated can be cooled. The tray 32 may include cells in which a plurality of ices are generated.

A nozzle part 40 for spraying water toward the tray 32 is provided below the tray 32. The nozzle unit 40 sprays water in an upward direction to spray water on each cell of the tray 32.

A storage tank 50 in which water supplied to the nozzle unit 40 is stored is provided below the nozzle unit 40. A first guide tube 72 is connected to the storage tank 50, and the first guide tube 72 is connected to a pump 70. A second guide pipe 74 is connected to the pump 70, and the second guide pipe 74 is connected to the nozzle unit 40. The water stored in the storage tank 50 is moved to the pump 70 through the first guide tube 72, and then to the nozzle unit 40 through the second guide tube 74, It is injected from the nozzle unit 40.

A supply pipe 56 for supplying water to the tray 32 is provided in the tray 32. One end of the supply pipe 56 is connected to an external water supply source. Water supplied from an external water supply source is guided to the supply pipe 56 and then sprayed on the upper side of the tray 32.

The tray 32 is provided with a plurality of cells 33 in which each ice is generated, and the water sprayed from the nozzle unit 40 is in contact with each cell 33, and inside the cell 33. Ice is formed. Inside the cell 33, a through pipe 34 vertically penetrated is provided, and water supplied through the supply pipe 56 falls down through the through pipe 34. The through pipe 34 is formed in each cell 33, and is formed to penetrate the central portion of the cell 33 so that water can move in a direction perpendicular to the cell 33 (FIG. 5).

A drain pipe 54 is disposed in the storage tank 50 so that water can be discharged from the storage tank 50 through the drain pipe 54 when the level of the storage tank 50 exceeds a certain level. have. The drain pipe 54 is disposed in the shape of a pipe provided to rise by a predetermined height inside the storage tank 50. When the internal water level of the storage tank 50 is higher than the height of the drain tube 54, water flows into the drain tube 54 and the water level of the storage tank 50 is no longer increased.

A water level sensor 84 is provided in the storage tank 50 to measure the water level of the storage tank 50. The drain pipe 54 functions to prevent the water level of the storage tank 50 from becoming higher than a certain level, while the water level sensor 84 measures the water level of the water stored in the storage tank 50 can do.

An ice bin 80 is provided below the storage tank 50, and ice generated in the tray 32 may drop and be stored in the ice bin 80. In order to use the stored ice, the user can access the ice bin 80 after opening the door 20 and displace ice from the ice bin 80. The drain pipe 54 extends to the bottom to penetrate the bottom of the ice bin 80, so that the water discharged from the drain pipe 54 is moved to the bottom of the ice bin 80.

4 is a block diagram according to an embodiment, and FIG. 5 is a diagram illustrating a concept of an embodiment.

4 and 5, in one embodiment, a door opening/closing sensor 14 for detecting opening/closing of the door 20 is provided. The door opening/closing sensor 14 may be located at a portion where the door 20 contacts the cabinet 10 to detect whether the door 20 is in contact with the cabinet 14 to be closed. Information regarding whether the door is opened or closed by the door opening/closing sensor 14 may be transmitted to the control unit 100.

Information on whether the compressor 90 is driven is also transmitted to the control unit 100. The control unit 100 may drive the compressor 90 or stop driving the compressor 90.

The water level information measured by the water level sensor 84 may be transmitted to the control unit 100. When the water level sensor 84 detects that the water level of the storage tank 50 is lower than a certain height, the control unit 100 may supply water. The water level sensor 84 may periodically transmit water level information to the control unit 100.

A water supply valve 58 is provided in the supply pipe 56 to open and close the flow path of the supply pipe 56. When the flow path is opened in the water supply valve 58, water is supplied to the tray 32 through the supply pipe 56, and when the flow path is closed in the water supply valve 58, the tray is supplied through the supply pipe 56. 32) No water is supplied.

The control unit 100 may determine a situation in which water is to be supplied to the storage tank 50. When water is to be supplied to the storage tank 50, the control unit 100 opens the water supply valve 58.

When the water level sensor 84 detects that the water level of the storage tank 84 is lower than a certain water level, it may mean a situation in which water is to be supplied to the storage tank 50. In addition, when the user detects that the door 20 is opened and closed by the door opening/closing sensor 14, it may mean a situation in which water is supplied to the storage tank 50 to manufacture ice. In addition, when the compressor 90 starts to operate, it may mean a situation in which water is supplied to the storage tank 50 so that ice is produced in the tray 32. In various situations, a situation in which ice must be produced in the tray 32 may occur.

In order for ice to condense on the tray 32, water must be supplied to the storage tank 50. The control unit 100 opens the flow path of the water supply valve 58 to supply water to the tray 32. Can supply. When water is supplied to the tray 32, water descends from the upper side of the tray 32 to a lower portion of the tray 32 through a plurality of through pipes 34 and passes through the nozzle unit 40. After that, it is stored in the storage tank 50. When water is moved to the storage tank 50, the pump 70 is driven, so that the water in the storage tank 50 passes through the first guide tube 72 and the second guide tube 74. Afterwards, it is guided to the nozzle unit 40. Water may be sprayed from the nozzle unit 40 to the tray 32, and ice may be generated in the tray 32 because the tray 32 is cold by the evaporation unit 30.

Ice is generated while water is circulated by the pump 70 located at the lower portion of the tray 32, and water is initially supplied through the supply pipe 56. At this time, by mounting the water level sensor 84 to the storage tank 50, when a certain water level is satisfied, the water supply is stopped and the compressor 90 is driven to generate ice.

If additional water is supplied only to the ice that is defrosted among the stored water and moves to the ice bin 80, the water stored in the storage tank 50 may be reduced, and the amount of water circulated finally may be reduced.

Of course, in this case, there is a resin in which the transparency of ice is deteriorated as the hygiene of water or the accumulation of minerals in the storage tank increases. To prevent this, the control unit 100 may control to supply water by opening a flow path in the water supply valve 58 when a certain time elapses regardless of the water level measured by the water level sensor 84.

In addition, by selecting the minimum cycle that does not cause a problem on the same principle, the control unit 100 may control the water supply valve 58 to open the flow path according to the selected cycle.

In the present invention, it is possible to supply additional water by opening the flow path in the water supply valve 58 for a predetermined time after supplying water to satisfy the water level measured by the water level sensor. In this case, it can be performed every selected cycle.

The present invention is not limited to the above-described embodiments, and as can be seen in the appended claims, modifications can be made by those skilled in the art to which the present invention pertains, and such modifications are within the scope of the present invention.

10: cabinet 20: door
30: evaporation section 40: nozzle section
50: storage tank 56: supply pipe
70: pump 72: first guide tube
74: Guide 2 80: Ice Bean
90: compressor

Claims (11)

cabinet;
A tray provided inside the cabinet and condensed with ice;
A nozzle unit provided at a lower side of the tray and spraying water toward the tray;
A storage tank in which water supplied to the nozzle unit is stored;
A water level sensor provided in the storage tank;
A pump connected to the nozzle part with a guide pipe and supplying water stored in the storage tank to the nozzle part;
A supply pipe supplying water to the tray;
A water supply valve provided in the supply pipe; And
And a control unit for opening and closing the flow path of the water supply valve according to the water level measured by the water level sensor. According to claim 1,
When the water level sensor detects that the water level has dropped below a certain height, the control unit opens the water supply valve to supply water to the tray. According to claim 1,
The water level sensor periodically transmits the water level information to the control unit, the ice machine. According to claim 1,
The tray is provided with a through pipe, and water supplied to the water pipe falls through the through pipe to the storage tank. According to claim 4,
The tray includes a plurality of cells in which ice is generated,
The through-tube is an ice machine, characterized in that formed to penetrate each of the plurality of cells vertically. According to claim 1,
The storage tank is an ice machine, characterized in that disposed in the lower portion of the tray. According to claim 1,
An ice machine further comprising a compressor that compresses the refrigerant and supplies cold air to the tray. The method of claim 7,
When the compressor starts driving, the control unit opens the water supply valve, characterized in that the ice machine. According to claim 1,
And a door for opening and closing the front opening of the cabinet,
Ice machine including a door opening and closing sensor for detecting the opening and closing of the door. The method of claim 9,
When the door opening and closing sensor detects the closing after opening the door,
The control unit is an ice machine, characterized in that to open the flow path from the water supply valve. According to claim 1,
Even if the water level sensor does not detect that the water level has dropped below a certain height, the control unit opens the flow path at the water supply valve when a certain time has elapsed.

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