KR20190078915A - Appartus for storing ice and cold water - Google Patents

Abstract

Disclosed is an apparatus for storing ice and cold water. According to an embodiment of the present invention, the apparatus for storing ice and cold water can comprise: an ice storage container in which ice made from an ice making unit is stored; and a cold water tank located below the ice storage container, and receiving at least a portion of ice stored in the ice storage container or moved to the ice storage container or water formed by melting ice for stored water to be cooled to become cold water.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ice-

The present invention relates to ice and cold water storage devices for storing ice and cold water.

Ice and cold water storage devices are devices that store ice and cold water.

The ice and cold water reservoir includes an ice reservoir for storing ice made in the ice making unit and a cold water tank for storing cold water.

Conventionally, the ice water stored in the ice reservoir is collected separately and drained. By this, water was wasted. In addition, some of the ice in the ice reservoir was melted or broken and ice of a predetermined size or less was stored and supplied to the user. In addition, there is hard ice among the ice that is made in the ice making unit and stored in the ice storage. In the past, such hard, low-quality ice was supplied to the user.

The present invention is realized by recognizing at least any one of the above-mentioned conventional needs or problems.

In one aspect of the present invention, at least a part of ice stored in an ice reservoir or ice transferred to an ice reservoir is supplied to a cold water tank located below an ice reservoir so that water stored in the cold water tank is cooled.

Another aspect of the object of the present invention is to conserve water

Another aspect of the object of the present invention is to provide the user with only high quality ice which is larger and harder than a predetermined size.

An ice and cold water storage device related to an embodiment for realizing at least one of the above problems may include the following features.

According to an aspect of the present invention, there is provided an ice and cold water storage device comprising: an ice storage for storing ice made from an ice making unit; And a cold water tank located below the ice reservoir and supplying at least a part of ice stored in the ice reservoir or ice stored in the ice reservoir or ice to cool the stored water to make cold water; . ≪ / RTI >

In this case, a grill member for partitioning the storage space into upper and lower parts is provided in a tank body having a storage space therein, so that the ice storage tank and the cold water tank can be formed.

In addition, the grill member may be formed with a through hole through which the ice stored in the ice reservoir and the ice of a predetermined size or less pass through to be supplied to the cold water tank.

The grill member may include a stationary portion fixed to the ice reservoir and a rotary portion rotatably installed in the ice reservoir to open and close the stationary portion.

In addition, when it is necessary to supply the ice stored in the ice reservoir to the cold water tank, the rotation part may be rotated to open the space between the ice part and the ice part.

The ice making unit includes an ice supply pipe extending through the tank body to the ice storage tank, and the ice produced in the ice making unit can be transferred to the ice storage through the ice supply pipe.

In addition, the ice making unit includes a flow path through which water flows and is connected to the ice supply pipe, and a coolant circulating around the flow path, wherein the coolant below the freezing point flows to cool water flowing in the flow path, And a screw member is rotatably provided through the flow path so that the ice generated in the flow path can be moved to the ice supply pipe by the rotation of the screw member.

When the rotating force of the screw member is less than a predetermined value, the rotating unit is rotated to open the space between the fixed unit and the ice tank, so that the ice supplied to the ice storage tank can be moved to the cold water tank through the ice supply pipe.

As described above, according to the embodiment of the present invention, at least a part of the ice stored in the ice reservoir or moved to the ice reservoir or the ice-melted water is supplied to the cold water tank to cool the water stored in the cold water tank.

Further, according to the embodiment of the present invention, water can be saved.

In addition, according to the embodiment of the present invention, it is possible to supply ice to only a high quality ice that is larger and harder than a predetermined size.

1 is a cross-sectional view of an embodiment of an ice and cold water storage device according to the present invention.
2 is a cross-sectional view taken along a line I-I 'in Fig.
FIGS. 3 and 4 are cross-sectional views, similar to FIG. 1, illustrating the operation of one embodiment of an ice and cold water storage device in accordance with the present invention.

In order to facilitate understanding of the features of the present invention as described above, the ice and cold water storage device related to the embodiment of the present invention will be described in detail.

The embodiments described below will be described on the basis of embodiments best suited to understand the technical characteristics of the present invention and the technical features of the present invention are not limited by the embodiments described, It is to be understood that the invention can be practiced with 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 the understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, among the constituent elements that perform the same function in the respective embodiments, the related constituent elements are indicated by the same or an extension line number.

Hereinafter, an embodiment of the ice and cold water storage device according to the present invention will be described with reference to FIGS. 1 to 4. FIG.

FIG. 1 is a cross-sectional view of an embodiment of an ice and cold water storage device according to the present invention, and FIG. 2 is a cross-sectional view taken along the line I-I 'of FIG.

3 and 4 are sectional views of the ice and cold water storage device according to an embodiment of the present invention.

One embodiment of the ice and cold water storage device 100 according to the present invention may include an ice reservoir 200 and a cold water tank 300.

The ice reservoir 200 may store ice (IC) made from the ice-making unit IM.

The ice reservoir 200 may include a grill member 250 that divides the storage space SS vertically into a tank body TB having a storage space SS formed therein as shown in FIG.

For example, the upper part of the storage space SS partitioned by the grill member 250 can be the ice storage 200. The lower part of the storage space SS defined by the grill member 250 may be a cold water tank 300 as will be described later.

However, the structure in which the ice reservoir 200 is formed is not particularly limited, and any known structure can be used as long as the ice IC made from the ice-making unit IM can be stored separately from the cold water tank 300 .

On the other hand, the tank body TB may be provided with a purified water tank TP on the ice storage 200 where water filtered by a water filter (not shown), that is, purified water, is stored. The purified water stored in the purified water tank TP can be supplied to the freezing unit IM or the cold water tank 300. [

The ice reservoir 200 may be provided with an ice transfer member 210 rotatably. Then, the ice (IC) stored in the ice storage 200 is moved to an ice discharge port (not shown) by the rotation of the ice transfer member 210 and may be discharged to the outside through the ice discharge port and supplied to the user.

1 and 2, the ice making unit IM for making ice stored in the ice storage 200 includes an ice supply pipe TI extending through the tank body TB and extending to the ice storage 200, ).

Further, the freezing unit RW and the refrigerant flow path RR may be formed in the freezing unit IM. Water flows into the flow path (RW) and can be connected to the ice supply pipe (TI). Then, the refrigerant flow path RR surrounds the flow path RW and the refrigerant below the freezing point can flow. Thereby, the water flowing in the flow path RW can be cooled by the refrigerant below the freezing point of the refrigerant flowing in the refrigerant flow path RR, and ice (IC) can be generated in the flow path RW.

The screw member SC may be rotatably provided in the freezing unit IM through the flow path RW. Then, the ice IC generated in the flow path RW can be moved to the ice supply pipe TI by the rotation of the screw member SC. As described above, the ice (IC) transferred to the ice supply pipe TI can be supplied to the ice storage 200 through the ice supply pipe TI and stored in the ice storage 200. The ice supply tube (TI) can be made to compress the ice (IC). For example, the ice supply tube TI may be configured to reduce the inner diameter toward the ice storage 200 so that the ice IC is compressed.

The screw member SC can be connected to the screw driving motor SM by a belt (not shown) and rotated. However, the configuration for causing the screw member SC to rotate is not particularly limited, and any well-known configuration is possible.

The structure of the ice-making unit IM for making ICs stored in the ice storage 200 is not particularly limited and the ICs made by making ICs are supplied to the ice storage 200, Any known structure is possible as long as the IC 200 is stored in the storage 200.

The cold water tank 300 may be located below the ice reservoir 200. At least a part of the ice (IC) stored in the ice reservoir 200 or the ice (IC) transferred to the ice reservoir 200 is supplied to the cold water tank 300, and the stored water is cooled to become cold water .

The cold water tank 300 may be provided with a grill member 250 which divides the storage space SS vertically into a tank body TB having a storage space SS formed therein.

The upper part of the storage space SS defined by the grill member 250 becomes the ice storage 200 as described above and the lower part of the storage space SS partitioned by the grill member 250 is connected to the cold water tank 300).

However, the structure in which the cold water tank 300 is formed is not particularly limited, and at least a part of the ice ICs stored in the ice reservoir 200 or moved to the ice reservoir 200 separately from the ice reservoir 200, Any structure known in the art can be used as long as the IC is supplied with the melted water so that the stored water can be cooled to become cold water.

The grille member 250 may be formed with a through hole HP. The ice (IC) stored in the ice reservoir 200 may be passed through the through hole HP or may be supplied to the cold water tank 300 through ice or ice of a predetermined size or less. Thereby, the water stored in the cold water tank 300 can be cooled and become cold water. In addition, since only the ice (IC) having a size larger than a predetermined size exists in the ice storage 200, the user can supply only high quality ice ICs larger than a predetermined size. And because ice (IC) can be used to make cold water without throwing molten water, it can save water.

The grill member 250 may include a fixing part 251 fixed to the ice storage 200 and a rotation part 252 rotatably installed in the ice storage 200. The rotation of the rotation part 252 can open / close the fixing part 251. The configuration in which the rotation part 252 is rotatably provided in the ice storage 200 is not particularly limited and may be any known construction such as being hinged and rotatable. The rotation unit 252 may be manually rotated by the user in one direction or the other direction or may be automatically rotated in one direction or the other direction by a driving motor (not shown) connected to the rotation unit 252 .

For example, when the temperature of the cold water stored in the cold water tank 300 becomes higher than the predetermined cold water temperature, the rotation of the rotary part 252 It is possible to open the space between the fixing part 251 and the fixing part 251. [ The ice IC stored in the ice storage 200 can be moved to the cold water tank 300 by its own weight through the space between the fixing part 251 and the rotation part 252. [ The water stored in the cold water tank 300 may be cooled by the ice IC moved from the ice storage tank 200 to the cold water tank 300 to become cold water.

On the other hand, if the rotational force of the screw member SC of the ice-making unit IM is lower than a predetermined value, compression of the ice (IC) produced in the ice-making unit IM and supplied to the ice bin 200 via the ice- This is not done properly. That is, ice (IC) is low-grade ice (IC) that is not hard but easily broken. The rotational force of the screw member SC can be determined by measuring the electric current or voltage applied to the screw driving motor SM for rotating the screw member SC.

In this case, the rotation part 252 can be rotated to open the space between the rotation part 252 and the fixed part 251. Thereby, low quality ice (IC) supplied to the ice storage 200 through the ice supply pipe TI can be moved to the cold water tank 300 by its own weight without being stored in the ice storage 200. The water stored in the cold water tank 300 may be cooled by the low quality ice IC that has been transferred to the cold water tank 300 through the ice supply pipe TI and the ice storage 200 to become cold water.

Accordingly, only the ice (IC) of good quality is stored in the ice storage 200, so that only the ice IC of good quality can be supplied to the user, and the ice IC of low quality is supplied to the cold water tank 300 without discarding, It is possible to save water.

As described above, when the ice and cold water storage device according to the present invention is used, at least a part of ice stored in an ice reservoir or transferred to an ice reservoir or ice-melted water is supplied to cool water stored in a cold water tank Water can be saved, and ice can be supplied only to a user, which is larger and harder than a predetermined size. .

The above-described ice and cold water storage device is not limited to the above-described embodiments, but all or a part of the embodiments may be selectively combined so that various modifications may be made to the embodiments It is possible.

100: Ice and cold water storage device 200: Ice storage
210: ice transfer member 250: grill member
251: Fixing portion 252:
300: cold water tank IM: freezing unit
IC: ice TI: ice supply tube
RW: Flow path RR: Refrigerant flow path
SC: Screw member SM: Screw-driven motor
TB: tank body SS: storage space
TP: Water tank

Claims (8)

An ice reservoir for storing ice made from the ice making unit; And
A cold water tank located below the ice reservoir and supplying at least a part of the ice stored in the ice reservoir or the ice stored in the ice reservoir or the ice to cool the stored water to make cold water;
And an ice and cold water storage device. The ice and cold water storage device according to claim 1, wherein a tank body having a storage space therein is provided with a grill member for vertically dividing the storage space, thereby forming the ice storage tank and the cold water tank. [3] The ice and cold water storage device of claim 2, wherein the grill member is formed with a passage hole through which the ice stored in the ice storage tank is melted or below a predetermined size to be supplied to the cold water tank. The ice and cold water storage device as claimed in claim 3, wherein the grill member includes a fixed portion fixed to the ice reservoir, and a rotating portion rotatably installed in the ice storage and opening / closing the fixed portion. The ice and cold water storage device according to claim 4, wherein when the ice stored in the ice storage tank needs to be supplied to the cold water tank, the rotation unit is rotated to open the space between the ice storage unit and the cold storage tank. 5. The ice maker according to claim 4, wherein the ice making unit includes an ice supply pipe extending through the tank body to the ice storage,
And the ice made in the ice making unit moves to the ice reservoir through the ice supply pipe. 7. The ice maker according to claim 6, wherein the ice making unit comprises: a flow path in which water flows and is connected to the ice supply pipe; and a coolant circulating around the flow path, And a screw member is rotatably provided through the flow path so that the ice generated in the flow path moves to the ice supply pipe by the rotation of the screw member, And cold water storage. The ice maker according to claim 7, wherein when the rotational force of the screw member is less than a predetermined value, the rotation unit is rotated to open the space between the stationary unit and the ice, and the ice supplied to the ice reservoir is moved to the cold water tank Ice and cold water storage devices.

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