KR20110054759A - Ice maker - Google Patents

Abstract

PURPOSE: An ice maker is provided to easily produce cold water and ice using an evaporator and to additionally store remained water. CONSTITUTION: An ice maker comprises an ice making frame(200), a water injection unit(300), and a tray member(400). The ice making frame is connected to a freezer system and produces ice. The water injection unit is located under the ice making frame and injects water to the ice making frame to produce ice. The tray member collects water fallen from the ice making frame and is rotated between an ice guide position and a cold water convey position. The ice guide position guides the produced ice to an ice storage(S). The cold water convey position sends water collected in the tray member to a cold water tank(T).

Description

Ice maker {ICE MAKER}

The present invention relates to an ice maker that can produce cold water while preparing ice by spraying water on an ice making machine.

Ice makers are provided in ice water purifiers and refrigerators to produce ice. There are many types of such ice machines. There is an immersion ice maker which produces ice by submerging the ice producing member connected to the evaporator connected to the refrigeration system. In addition, there is a spray ice maker for spraying water on the ice tray connected to the refrigeration system to produce ice.

In the case of the submerged ice maker, there is a method of making the cold water by cooling the water stored in the cold water tank by sending the ice generated in the ice maker to the water stored in the cold water tank.

However, there is a problem in the spray ice maker that only ice production and cold water production are impossible. That is, there is a problem that a separate cooling system is required to manufacture cold water in the spray ice maker.

The present invention is made by recognizing at least one of the needs or problems occurring in the conventional ice maker.

One object of the present invention is to spray ice on the ice making machine to produce ice.

Another object of the present invention is to be able to collect and store the water remaining without the ice.

Yet another object of the present invention is to be able to produce cold water while preparing ice.

Another object of the present invention is to facilitate the production of ice and cold water with one evaporator.

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

Basically, the present invention is based on preparing ice by spraying water on an ice making machine, and collecting the remaining water without storing the ice and storing it separately.

Ice maker according to an embodiment of the present invention is connected to a refrigeration system and the ice making frame ice; A water spray unit disposed below the ice tray and spraying water onto the ice tray to generate ice in the ice tray; And a tray member located inside the water spray unit and collecting water falling into the ice tray without falling into ice by the ice tray. As shown in FIG.

In this case, the tray member may be rotatable between an ice guide position for guiding the separated ice generated in the ice making frame to the ice reservoir and a cold water transfer position for sending the collected water to the cold water tank.

In addition, the tray member may be provided with a guide grill having a water flow hole for guiding the separated ice generated in the ice making frame to the ice reservoir and through which water can pass.

On the other hand, the water spraying unit is located inside the tray member and the water spray member in which water flows therein; And a plurality of water spray nozzles connected to the water spray members. It may include.

And, it may further include a cold water tank for receiving and storing the water collected in the tray member.

As described above, according to the embodiment of the present invention, ice may be manufactured by spraying water on the ice making frame.

In addition, according to an embodiment of the present invention, water remaining without ice may be collected and stored separately.

In addition, according to an embodiment of the present invention, cold water may be prepared.

In addition, according to an embodiment of the present invention, ice and cold water can be easily produced by one evaporator.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the ice maker associated with an embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on 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, It is to be understood that the present invention may be implemented as illustrated embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and such modified embodiments fall within the technical scope of the present invention. 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 preparing ice by spraying water on an ice making machine, and collecting and storing the remaining water without ice to prepare cold water separately.

As illustrated in FIG. 1, the ice maker 100 according to the present invention may include an ice maker 200, a water spray unit 300, and a tray member 400. In addition, it may further include a cold water tank (T). And, it may further include an ice storage (S).

Ice tray 200 may be connected to a refrigeration system (not shown). Therefore, the refrigerant may flow in the ice making chamber 200. That is, as shown in FIG. 2 and FIG. 3, a cool refrigerant may flow in the ice making chamber 200 during ice making. Accordingly, when the water W injected by the water spraying unit 300 touches the ice making frame 200, the cool refrigerant flowing through the inside of the ice making frame 200 and the water W sprayed on the ice making frame 200 are included. By heat exchange with), that is, heat transfer from the water (W) to the cool refrigerant flowing through the interior of the ice tray 200, the ice tray 200 has ice (I) as shown in Figs. Is generated. In addition, as shown in FIG. 4, the ice I generated in the ice making frame 200 is separated from the ice making frame 200 and the separated ice I is sent to the ice storage S during ice making. The hot refrigerant may flow inside the 200. Accordingly, the surface of the ice I in contact with the ice making tray 200 is melted, and as shown in FIG. 4, the ice I generated in the ice making frame 200 may be separated from the ice making frame 200.

Meanwhile, a plurality of concave ice making grooves 210 may be formed in the ice making frame 200 so that ice I may be generated as shown in FIG. 1. Therefore, as shown in FIG. 2, water may be injected from the water spray unit 300 to the ice generating groove 210 of the ice making machine 200 so that ice I may be generated in the ice producing groove 210. have. In the illustrated embodiment, the ice making groove 210 has a quadrangular shape, but the shape of the ice making groove 210 is not limited to the quadrangle, and the ice I may be generated by the water sprayed from the water spraying unit 300. Any form can be used.

The water spray unit 300 may be located under the ice tray 200 as shown in FIG. 1. As described above, the water spray unit 300 may be configured to spray water onto the ice tray 200 to generate ice (I). To this end, the water spray unit 300 may include a water spray member 310 and a water spray nozzle 320 as shown in the embodiment shown in FIG.

The water spray member 310 may be located inside the tray member 400 as shown in FIG. 1. And, one side of the water spray member 310 is a water supply source, for example, if the ice maker 100 according to the present invention is provided in an ice water purifier (not shown) through a plurality of water filters (not shown) filtered water This may be connected to a purified water tank (not shown). Therefore, water supplied from a water supply source such as a purified water tank may flow in the water spray member 310.

The water spray nozzle 320 may be connected to the water spray member 310 as shown in FIG. 1. The water spray nozzle 320 may be a plurality, as shown in the illustrated embodiment. In addition, each of the water spray nozzles 320, each of the ice making grooves 210 of the ice making machine 200, as shown in the illustrated embodiment, so as to spray water into each ice making groove 210 of the ice making frame 200 It can be located below. Each of the water spray nozzles 320 connected to the water spray member 310 may flow water supplied from the water supply source such as the purified water tank to the water spray member 310 as described above. As such, the water flowing in the water spray nozzle 320 may be injected into the ice making groove 200 of the ice making frame 200, that is, the ice making frame 200, as shown in FIG. 2.

The tray member 400 may be located under the ice tray 200 as shown in FIG. 1. In addition, the water spray unit 300 may be located inside the tray member 400 as shown in the illustrated embodiment. In addition, the tray member 400 is made by the water spraying unit 300, the water that is not ice (I) by the ice tray 200 of the water sprayed on the ice tray 200, that is, by the ice tray 200 Can receive and collect cooled water. Then, the cooled water (W) collected in the tray member 400 may be sent to the cold water tank (T).

To this end, the tray member 400, the ice guide position shown in Figure 4 for guiding the separated ice (I) generated in the ice making frame 200 to the ice storage (S) and the tray member 400 It is possible to rotate between the cold water transfer positions shown in Fig. 5 to send the collected cooled water W to the cold water tank (T). In order to rotate the tray member 400, a rotation shaft A may be formed in the tray member 400 as shown in FIG. 1. Therefore, the tray member 400 may rotate as shown in FIG. 4 or 5 with respect to the rotation axis A. As shown in FIG.

On the other hand, the tray member 400 may be provided with a guide grill 410 as shown in the embodiment shown in FIG. Accordingly, as illustrated in FIG. 4, the ice I separated after being generated in the ice making frame 200 may be guided to the ice storage S. Referring to FIG. The guide grill 410 may have a water flow hole 411 as shown in the illustrated embodiment. The size of the water flow hole 411 may be smaller than the size of the ice I so that the ice I separated from the ice making frame 200 does not fall into the tray member 400. And, the size of the water flow hole 411 is the water (I) by the injection of water to the ice tray 200 by the water spray nozzle 320 and the ice frame 200 of the water injected to the ice tray 200 It may be a size that does not interfere with receiving and collecting the falling water.

And, on one side of the tray member 400, that is, the side adjacent to the cold water tank (T), a water transfer guide 420 may be formed as shown in the embodiment shown in FIG. Accordingly, the cooled water W collected in the tray member 400 is to be sent to the cold water tank T along the water transfer guide 420 at the cold water transfer position of the tray member 400 as shown in FIG. Can be.

Cold water tank (T) can receive and store the water collected in the tray member (400). To this end, the cold water tank (T) may be located under the tray member 400, as shown in the embodiment shown in FIG. Accordingly, the cooled water W collected in the tray member 400 may be sent to the cold water tank T by its own weight as shown in FIG. 5. However, the position of the cold water tank (T) is not limited to the illustrated embodiment, any position may be used as long as it can receive and store the cooled water W collected in the tray member 400.

Ice storage (S) may also be located under the tray member 400, as shown in the embodiment shown in FIG. Accordingly, as shown in FIG. 4, the ice I separated after being generated in the ice making groove 210 of the ice making machine 200 may be stored in the ice storage S by its own weight. The location of the ice storage (S) is also not limited to the illustrated embodiment and may be any position as long as it can store the separated ice (I) generated in the ice making groove 210 of the ice making frame 200. .

Hereinafter, the operation of one embodiment of the ice maker 100 according to the present invention will be described in detail with reference to FIGS. 2 to 5.

First, the refrigeration system connected to the ice tray 200 is operated. When the refrigeration system is operated, cool refrigerant flows to the ice tray 200 connected to the refrigeration system. In this state, as shown in Figure 2, if a water supply source, such as an ice maker according to the present invention is provided in the ice purifier, water is supplied from the purified water tank to the water spray member 310 of the water spray unit 300.

As such, when water is supplied to the water spray member 310, as shown in FIG. 2, from each of the plurality of water spray nozzles 320 connected to the water spray member 310, an ice tray 200, that is, an ice tray Water is sprayed into the ice making groove 210 of 200.

Water injected from the water spray nozzle 320 to the ice making groove 210 of the ice making machine 200 is frozen by heat transfer to the cool refrigerant flowing inside the ice making machine 200. Accordingly, ice (I) is generated in the ice making groove 210 of the ice making machine 200 as shown in FIG. Thus, ice I can be produced.

On the other hand, of the water sprayed into the ice making groove 210 of the ice making frame 200, the water is only cooled by the ice making frame 200 and not frozen in the ice making groove 210 of the ice making frame 200 or ice making frame 200 As shown in FIG. 2, small ice grains frozen in the ice making groove 210 are collected in the tray member 400 through the water flow hole 411 of the guide grill 410. Therefore, the water cooled by the ice tray 200 may be collected and stored in the tray member 400.

Generation of ice (I) in the ice making groove 210 by the injection of water from the water spray nozzle 320 to the ice making groove 210 of the ice making machine 200, and injected into the ice making groove 210 If the ice (I) of the water to continue the process of collecting and storing the water in the tray member 400, as shown in Figure 3 ice generation groove 210 is generated a predetermined size of ice (I) and The tray member 400 stores the cooled water at a predetermined level.

As such, when ice I having a predetermined size is formed in the ice making groove 210, the tray member 400 is rotated toward the ice storage S as shown in FIG. 4. Then, the refrigeration system is operated to allow the hot refrigerant to flow in the ice making chamber 200. Accordingly, the surface of the ice I in contact with the ice making groove 210 is melted. Therefore, the ice I generated in the ice making groove 210 is separated from the ice making groove 210 as shown in FIG. 4 and falls to the tray member 400 by its own weight. As such, the ice I dropped to the tray member 400 is guided to the ice storage S as illustrated in FIG. 4 by the guide grill 410 of the tray member 400. The ice I guided to the ice storage S by the guide grill 410 of the tray member 400 may be supplied to the user after being stored in the ice storage S.

In addition, when the cooling water W of a predetermined level is collected in the tray member 400, the tray member 400 is rotated toward the cold water tank T as illustrated in FIG. 5. Accordingly, the cooled water W collected in the tray member 400 is sent to the cold water tank T as illustrated by the water transfer guide 420 formed in the tray member 400. Thus, cold water can be produced. As such, the cooled water W sent to the cold water tank T may be stored in the cold water tank T and then supplied to the user.

As such, when the ice maker 100 according to the present invention is used, ice may be manufactured by spraying water on the ice maker.

In addition, the remaining water without ice can be collected and stored separately.

Thereby, cold water can be manufactured.

Therefore, ice and cold water can be easily produced by one evaporator.

The ice maker described above may not be limitedly applied to the configuration of the above-described embodiment, but the embodiments may be configured by selectively combining all or some of the embodiments so that various modifications can be made.

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

2 to 5 are views showing the operation of one embodiment of the ice maker according to the present invention.

        Explanation of symbols on the main parts of the drawings

100: ice maker 200: ice tray

210: ice making groove 300: water spray unit

310: water spray member 320: water spray nozzle

400: tray member 410: guide grill

411: water flow hole 420: water transfer guide

S: Ice Storage T: Cold Water Tank

I: Ice W: Water

A: axis of rotation

Claims (5)

An ice making frame 200 connected to the refrigeration system and generating ice I; A water spraying unit 300 disposed below the ice making frame 200 and spraying water onto the ice making frame 200 to generate ice I in the ice making frame 200; And A tray member 400 having the water spraying unit 300 located therein and collecting water falling without ice (I) by the ice making frame 200 among the water sprayed on the ice making frame 200; Ice machine configured including. According to claim 1, wherein the tray member 400 is collected in the ice guide position and the tray member 400 for guiding the separated ice (I) generated in the ice tray 200 to the ice storage (S) Ice maker which is rotatable between the cold water transfer position for sending water (W) to the cold water tank (T). According to claim 1 or 2, wherein the tray member 400 The guide grille 410 is formed with a water flow hole 411 for guiding the separated ice I generated after the ice making frame 200 to the ice storage S and allowing water to pass therethrough. Ice maker. According to claim 1 or 2, wherein the water spray unit 300 A water spray member 310 positioned inside the tray member 400 and in which water flows; And A plurality of water spray nozzles 320 connected to the water spray members 310; Ice maker comprising a. The ice maker of claim 1, further comprising a cold water tank (T) for receiving and storing the water collected in the tray member (400).

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