KR101544378B1 - Ice maker - Google Patents

Abstract

Disclosed is an ice maker capable of generating cold water together with ice making by allowing the level of the cold water tank to be adjusted by the water level adjusting member so that the ice producing member is immersed in the water stored in the cold water tank.

The ice maker according to an embodiment of the present invention includes a plurality of ice generating members 200 connected to the evaporator E included in the refrigeration system and generating ice I; A cold water tank 300 located below the plurality of ice producing members 200 and containing water W to be stored therein; And a water level adjusting member movably installed in the cold water tank 300 and adjusting the water level so that the plurality of ice producing members 200 are not immersed or immersed in the water W stored in the cold water tank 300 400); And a water level sensor 310 is provided in the cold water tank 300. The level of the cold water tank 300 is raised by the water level control member 400, The plurality of ice producing members 200 can sense the level of the cold water tank 300 that can be immersed in the water stored in the cold water tank 300.

Ice maker, deicing, cold water, cold water generation, ice, level control member, air bag

Description

Ice-maker {ICE MAKER}

The present invention relates to an ice maker capable of generating cold water together with ice making by allowing a water level adjusting member to adjust a water level of a cold water tank so that an ice producing member is immersed in water stored in a cold water tank.

The ice maker is a device for producing ice by providing a refrigeration system. The ice maker may be provided in a refrigerator or an ice water purifier.

The ice maker is provided with a plurality of ice producing members connected to the evaporator included in the refrigeration system, and a tray member located below the ice producing member and containing water to which the ice producing member is immersed. The tray member is adapted to rotate. Therefore, at the time of ice-making, the tray member rotates so that the ice-producing member can hold the water to be locked, and at the time of de-icing, the tray member rotates so that the ice produced in the ice-producing member can be separated from the ice- .

On the other hand, in each of the plurality of ice producing members described above, refrigerant flowing in the refrigerating system flows while changing in the refrigerating system. During the deicing, cold refrigerant flows inside the ice producing member. Therefore, ice is generated in the ice producing member by heat exchange between the cold refrigerant flowing in the ice producing member and the water contained in the tray member so that the ice producing member is immersed, that is, heat transfer from the water to the refrigerant. During the de-icing, hot refrigerant flows into each of the ice-producing members. As a result, the surface of the ice producing member in contact with the ice producing member is melted and the ice is separated from the ice producing member. Then, the ice separated from the ice-producing member is moved to and stored in an ice reservoir as described above.

On the other hand, to generate cold water in addition to such ice making, there is a problem that a separate cooling system for generating cold water is required in addition to a freezing system for ice making. In order to solve this problem, ice made in an ice maker was put into water stored in a cold water tank to generate cold water. However, in the case of generating cold water by using the ice made by the ice maker, there is a problem that it is necessary to make separate ice for generating cold water. Further, when the generated cold water is not used for a long time, there is a problem that the water level of the cold water tank rises due to continuous cold water generation process. Accordingly, there is a problem that cold water having a certain level or more contained in the cold water tank must be disposed.

The present invention is realized by recognizing at least any one of the requirements or problems occurring in the conventional ice maker.

One object of the present invention is to make it possible to adjust the water level of the water stored in the cold water tank by the water level regulating member.

Another object of the present invention is to enable the ice-generating member to be submerged in the water stored in the cold water tank, thereby generating cold water together with ice making.

Still another object of the present invention is to enable ice making and cold water generation with a simple structure.

Another object of the present invention is to prevent the water level of the water stored in the cold water tank from rising even if cold water is not used for a long time.

Another object of the present invention is to save water by avoiding cold water.

An ice maker relating to an embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically based on the fact that the level of water stored in the cold water tank is controlled by the level control member so that the ice producing member is immersed in or immersed in the water stored in the cold water tank to make ice and cold water together.

An ice maker according to an embodiment of the present invention includes a plurality of ice producing members connected to an evaporator included in a refrigeration system and generating ice; A cold water tank located below the plurality of ice producing members and having water introduced therein and stored therein; And a water level adjusting member movably provided inside the cold water tank, the water level adjusting member adjusting the water level so that the plurality of ice producing members are immersed in or immersed in water stored in the cold water tank; And a water level sensor is provided in the cold water tank, and the level of the cold water tank is raised by the water level control member so that the plurality of ice producing members can be immersed in the water stored in the cold water tank Can be detected.

Further, a tray member for storing water stored in the cold water tank may be provided between the plurality of ice producing members and the cold water tank.

In this case, the tray member can be opened and closed.

The level adjusting member may be an air bag.

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As described above, according to the embodiment of the present invention, the water level of the water stored in the cold water tank can be adjusted by the water level control member.

Further, according to the embodiment of the present invention, the ice-generating member is immersed in the water stored in the cold water tank, and cold water can be generated together with the ice.

Also, according to the embodiment of the present invention, it is possible to make ice and cold water with a simple structure.

Also, according to the embodiment of the present invention, a separate cooling system is not required for generating cold water.

Moreover, according to the embodiment of the present invention, it is not necessary to make separate ice for generating cold water.

Further, according to the embodiment of the present invention, the water level of the water stored in the cold water tank does not rise even if cold water is not used for a long time.

Also, according to the embodiment of the present invention, it is possible to save water because the cold water is not discarded.

In order to facilitate understanding of the features of the present invention as described above, an ice maker relating to an embodiment of the present invention will be described in detail.

Hereinafter, exemplary embodiments will be described on the basis of embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, And that the present invention may be implemented with other embodiments. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the constituent elements which perform the same function in each embodiment, the related constituent elements are indicated by the same or an extension line number.

Embodiments related to the present invention are based on basically adjusting the water level of water stored in the cold water tank by the water level control member so that the ice producing member is not immersed or immersed in the water stored in the cold water tank to generate cold water together with the ice.

1 and 2, the ice maker 100 according to the present invention includes a plurality of ice producing members 200, a cold water tank 300, and a water level adjusting member 400 .

Each of the plurality of ice-producing members 200 may be connected to an evaporator E included in a refrigeration system (not shown) as in the embodiment shown in Figs. Therefore, the ice-generating member 200 can flow in the refrigerating system while flowing in the refrigerating system. As such, the refrigerant flowing in the ice producing member 200 may be cold refrigerant or hot refrigerant. During ice making, cold refrigerant flows in the ice-producing member 200 for the production of ice (I), and ice (I) generated in the ice-producing member 200 is discharged from the ice- A hot refrigerant may flow inside the ice-producing member 200 to separate the ice-making member.

1 and 2, the cold water tank 300 may be positioned below the plurality of ice-generating members 200. In this case, In addition, water (W) may be introduced into the cold water tank 300 and stored therein as shown in the illustrated embodiment. For example, if the ice maker 100 according to the present invention is provided in an ice water purifier (not shown), the cold water tank 300 is connected to at least one water filter (not shown) ) Can be stored. The plurality of ice producing members 200 may or may not be immersed in the water W stored in the cold water tank 300 depending on the level of the water W stored in the cold water tank 300 . Accordingly, it is possible to generate cold water together with ice making as described later.

The cold water tank 300 may include a water level sensor 310 as shown in the illustrated embodiment. The water level sensor 310 is installed in the cold water tank 300 where the water level of the cold water tank 300 is raised by the water level control member 400 so that the plurality of ice producing members 200 can be immersed in the water stored in the cold water tank 300 ) Can be detected. Therefore, when the water level of the water W stored in the cold water tank 300 measured by the water level sensor 310 reaches a predetermined water level, the water level control member 400 is rotated by the plurality of ice- The tray member 500 can be immersed in the water W stored in the cold water tank 300. The water level sensor 310 may be any water level sensor capable of measuring the water level of the water W stored in the cold water tank 300.

The water level regulating member 400 may be movably provided inside the cold water tank 300 as in the embodiment shown in FIGS. The water level regulating member 400 may be connected to the driving means M and be movable inside the cold water tank 300 as shown in the illustrated embodiment. The driving means M includes, for example, a motor (not shown) and a pinion gear (not shown) connected to the motor, a rack gear meshing with the pinion gear at one side and a rack gear ), And the like. However, the structure of the driving means M is not particularly limited, and any structure can be used, for example, a structure using magnetic levitation if the water level adjusting member 400 is configured to be movable inside the cold water tank 300.

When the water level adjusting member 400 is lowered by the driving means M and is immersed in the water W stored in the cold water tank 300, the water level of the water W stored in the cold water tank 300 I will go up. By using this, the water level of the water W stored in the cold water tank 300 can be adjusted. The plurality of ice producing members 200 are arranged in the water W stored in the cold water tank 300 by adjusting the water level of the water W stored in the cold water tank 300 using the water level control member 400. [ It can be locked or unlocked. Accordingly, it is possible to make ice and cold water with a simple structure as will be described later. In addition, there is no need for a separate cooling system to generate cold water, and no separate ice is required to generate cold water. And, even if cold water is not used for a long time, the water level stored in the cold water tank does not rise, thereby saving water because it is not necessary to throw away the cold water.

The water level control member 400 capable of adjusting the water level of the water W stored in the cold water tank 300 may be an air bag as in the embodiment shown in FIGS. However, the water level regulating member 400 is not limited to the air bag, and any water level regulating member 400 can be used as long as it can control the water level of the water W stored in the cold water tank 300 due to its volume.

2, the ice maker 100 according to the present invention may include a tray member 500. The tray member 500 may be provided between the plurality of ice producing members 200 and the cold water tank 300 as shown in the illustrated embodiment. Therefore, when the level of the water W stored in the cold water tank 300 is adjusted by the level regulating member 400, the tray member 500 together with the plurality of ice producing members 200 is also cooled The water W stored in the tank 300 may not be immersed or immersed. In addition, the tray member 500 may be openable and closable as shown in the illustrated embodiment. Accordingly, when the tray member 500 is opened and the tray member 500 is closed after being immersed in the water W stored in the cold water tank 300, water W is contained in the tray member 500. Therefore, water W is contained in the tray member 500, and a plurality of ice-generating members 200 are immersed in the water W contained in the tray member 500 to generate ice I . However, the tray member 500 is not limited to the illustrated embodiment, and may be configured such that the tray member 500 is entirely rotated about the hinge shaft on one side. In addition, the tray member 500 is immersed in the water W stored in the cold water tank 300 by adjusting the water level of the water level control member 400 so that the water W is contained therein, Any configuration is possible as long as the plurality of ice-generating members 200 can be locked in the water W.

Hereinafter, the operation of the ice maker according to the present invention will be described with reference to FIGS. 3 to 7. FIG.

First, the operation of the embodiment shown in Fig. 1 will be described. For example, if the ice maker 100 according to the present invention is provided in the ice water purifier, the water W filtered by the water filter provided in the ice water purifier is introduced into the cold water tank 300. 1, when the water W flows into the cold water tank 300, the water level of the cold water tank 300 is maintained at a predetermined level by the water level sensor 310 provided in the cold water tank 300, Is detected. That is, the water level sensor 310 is installed in the cold water tank 300 where the water level of the cold water tank 300 is raised by the water level control member 400 so that the plurality of ice-producing members 200 can be immersed in the water stored in the cold water tank 300 300). When the water level of the cold water tank 300 is sensed by the water level sensor 310, the water level control member 400 is lowered by the driving means M as shown in FIG. The level of the water W stored in the cold water tank 300 is lower than the level of the water W stored in the cold water tank 300 by a predetermined depth It will descend until it reaches the water level.

When the water level regulating member 400 is lowered so that the plurality of ice producing members 200 are immersed in the water W stored in the cold water tank 300 to a certain depth, the refrigeration system (not shown) do. As a result, the cold refrigerant flows into the evaporator E included in the refrigeration system, thereby causing the cold refrigerant to flow into the ice producing member 200. The cooling water flowing through the ice producing member 200 is cooled by the heat exchange between the cold refrigerant flowing in the ice producing member 200 and the water W stored in the cold water tank 300, The water W stored in the cold water tank 300 is cooled by the heat transfer to the cold refrigerant flowing in the inside of the cold water tank 300. By this process, the water W stored in the cold water tank 300 can be cooled.

As the heat exchange between the cold refrigerant flowing in the ice producing member 200 and the water W stored in the cold water tank 300 is further advanced, ) Is generated. When the ice I produced in the ice producing member 200 reaches a predetermined size, a hot refrigerant flows to the evaporator E so that the surface of the ice I contacting the ice producing member 200 melts Causing ice (I) to separate from the ice-producing member (200). Then, the separated ice I is sent to an ice reservoir (not shown) and stored.

2, if the icemaker 100 according to the present invention is provided in the ice water purifier as described above, the water filtered by the water filter provided in the ice water purifier, (W) flows into the cold water tank (300). As shown in FIG. 2, it is detected by the water level sensor 310 of the cold water tank 300 that the water level of the cold water tank 300 has reached a certain water level. That is, the water level sensor 310 is installed in the cold water tank 300 where the water level of the cold water tank 300 is raised by the water level control member 400 so that the plurality of ice-producing members 200 can be immersed in the water stored in the cold water tank 300 300). 5, when the water level sensor 310 detects that the water level of the cold water tank 300 has reached a predetermined level, the tray member 500 is opened and the water level is adjusted by the driving means M The member 400 is lowered. The level of the water W stored in the cold water tank 300 is lower than the level of the water W stored in the cold water tank 300 by the plurality of ice producing members 200 and the tray member 500. [ ) Until it reaches a water level that can be locked to a certain depth.

In this state, when the refrigeration system is operated, cold refrigerant flows into the evaporator (E), so that cold refrigerant also flows into each of the plurality of ice-generating members (200) connected to the evaporator . Therefore, heat is transferred from the water W stored in the cold water tank 300 to the cold refrigerant flowing inside the ice producing member 200. As a result, the water W stored in the cold water tank 300 can be cooled.

When the water W stored in the cold water tank 300 is cooled to some extent, the tray member 500 is closed as shown in FIG. As a result, the tray member 500 contains the water W in a state in which the plurality of ice producing members 200 are locked. In this state, the level adjusting member 400 is raised by the driving means M as shown in the figure. Thereby, the water level of the water W stored in the cold water tank 300 becomes low as shown in the figure. In this state, as the heat transfer from the water W contained in the tray member 500 to the cold refrigerant flowing inside the ice producing member 200 proceeds further, as shown in FIG. 7, (I) is generated in the ice bank 200.

When the ice (I) produced in the ice producing member (200) reaches a certain size, hot refrigerant flows through the evaporator (E). Thus, the surface of the ice (I) in contact with the ice producing member (200) melts and separates the ice (I) from the ice producing member (200). Thus, the ice I separated from the ice producing member 200 is sent to and stored in an ice reservoir (not shown).

As described above, when the ice maker according to the present invention is used, the water level of the water stored in the cold water tank can be adjusted by the water level adjusting member.

Further, the ice-producing member is immersed in the water stored in the cold water tank, and cold water can be generated together with the ice.

And, it is possible to make ice making and cold water with a simple structure.

In addition, there is no need for a separate cooling system to generate cold water, and there is no need to make separate ice for cold water generation.

Further, even if cold water is not used for a long period of time, the level of water stored in the cold water tank does not rise.

In addition, it is possible to save water because the cold water is not discarded.

The above-described ice maker can be applied to a limited range of the above-described embodiments, but the embodiments may be constructed by selectively combining all or some of the embodiments so that various modifications may be made.

1 is a view showing an embodiment of an ice maker according to the present invention.

2 is a view showing another embodiment of an ice maker according to the present invention.

3 and 4 are views showing the operation of an embodiment of the icemaker according to the present invention shown in FIG.

5 to 7 are views showing the operation of another embodiment of the icemaker according to the present invention shown in Fig.

        Description of the Related Art [0002]

100: Ice maker 200: Ice producing member

300: cold water tank 310: water level sensor

400: water level control member 500: tray member

E: Evaporator I: Ice

W: water M: driving means

Claims (5)

A plurality of ice producing members 200 connected to the evaporator E included in the refrigeration system and generating ice I; A cold water tank 300 located below the plurality of ice producing members 200 and containing water W to be stored therein; And A water level adjusting member 400 which is movably provided in the cold water tank 300 and adjusts the water level so that the plurality of ice producing members 200 are immersed in or immersed in the water W stored in the cold water tank 300, ); And, The water level sensor 310 is provided in the cold water tank 300 and the water level of the cold water tank 300 is raised by the water level control member 400, 200) detects the level of the cold water tank (300) which can be immersed in the water stored in the cold water tank (300). The method according to claim 1, Wherein a tray member (500) for storing water (W) stored in the cold water tank (300) is provided between the plurality of ice generating members (200) and the cold water tank (300). The ice maker of claim 2, wherein the tray member (500) is openable and closable. The ice-maker according to any one of claims 1 to 3, wherein the level adjusting member (400) is an air bag. delete

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