KR101236771B1 - Ice storage device for ice maker - Google Patents

Abstract

The present invention relates to an ice separation storage device of an ice maker. According to the present invention, the user can separate and store the ice as necessary by dividing the storage container into a plurality of ice storage spaces. In addition, by installing a guide plate in the ice maker or by allowing the ejector to rotate in both directions, it is possible to increase the ease of use by automatically separating and storing the ice.

Ice tray, storage container, guide plate, compartment

Description

ICE STORAGE DEVICE FOR ICE MAKER}

The present invention relates to an ice maker, and more particularly, to an ice separating and storing device of an ice maker.

In general, a home refrigerator is a device for keeping food and the like at a low temperature by having a predetermined accommodation space, and is divided into a refrigerating chamber which maintains an image by dividing the low temperature range and a freezing chamber which is kept below zero. Recently, as the demand for ice increases, refrigerators equipped with automatic ice makers capable of making ice are increasing.

The automatic ice maker (hereinafter, referred to as ice maker) may be installed in the freezer compartment according to the aspect of the refrigerator, or in some cases, may be installed in the refrigerator compartment. When the ice maker is installed in the refrigerating chamber, the ice cold is guided to the ice maker to perform ice making.

The ice maker may be divided into a torsion method, an ejector method, and a rotation method according to an operation method of an ice unit unit ices the ice produced by the ice maker unit in the ice maker container. The twisting method is a method of twisting the ice making container to drop the ice into the storage container, the ejector method is a method of ejector installed on the upper side of the ice making container to drop the ice from the ice making container to the storage container, the rotation method The ice making container itself rotates to drop ice into the storage container.

In the above-mentioned ice-covering method, all of the ice is dropped into one storage space and stored in a cubic ice state. That is, even if it has one storage space or a plurality of storage spaces on the lower side of the ice making container, the storage space is provided as a space where all of the storage spaces are stored in a icy ice state and the ice iced by the ice-making unit Alternatively, it is stored in a plurality of storage spaces and is guided to the dispenser when needed by the user and automatically taken out, or the user opens the refrigerator door and pulls out the ice directly.

However, in the conventional ice maker as described above, since the ice iced by the ice-making unit is usually stored in a single ice state in the ice state, there is no inconvenience when the user uses the ice, but the user wants to use cold water. Since the ice iced in the ice maker cannot be used, cold water is made only by the cold of the refrigerator or the cold temperature is maintained, so that the operating time of the refrigerator is shortened or the operating cycle is shortened, resulting in power loss and lowering the overall efficiency of the refrigerator. There was a problem.

In addition, the storage container in the conventional ice maker as described above is usually formed to have one storage container or the ice making unit is set to ice the ice to only one place, even if the user tries to store the ice separately according to each need. There was a problem in that the ice must be moved manually or the storage container is separated or stored by moving the storage container.

An object of the present invention is to provide a separate ice storage device of the ice maker to separate the ice storage space into a plurality of ice to separate the storage according to the user's needs.

Another object of the present invention is to provide an ice separator of an ice maker that enables the ice maker to automatically separate and store the ice.

In order to solve the object of the present invention, an ice making container receiving water to make ice; An ice-making unit that ices the ice of the ice-making container; And a storage container having a storage space for storing the ice iced from the ice-making container by the ice-making unit, the storage container being provided under the ice-making container. The storage space of the storage container is divided into at least two or more. Provided is an ice separate storage device of an ice maker in which ice is separated and stored in each storage space by an ice making unit.

Here, the separation guide unit is provided on at least one of the ice making container or the storage container to automatically separate the ice into each storage space of the storage container; may be further provided.

The separation guide unit may be formed of a guide plate coupled to the ice making container or the storage container to guide the ice to the storage space, and a driving unit to selectively operate the guide plate.

In addition, a guide piece may be further formed on the ice making container or the storage container so as to extend the length of the guide surface in connection with the guide plate.

The ice cream unit may include an ejector that spreads ice while rotating in one direction, and the storage container may be provided such that all the storage spaces are located at one side of the ice making container based on the rotation direction of the ejector.

The ice cream unit may include an ejector that spreads ice while rotating in both directions, and the storage container may be provided such that storage spaces are located at both sides of the ice making container based on the rotation direction of the ejector.

One of the plurality of storage spaces may be connected to the water supply pipe so that water and ice can be stored.

Ice storage device of the icemaker according to the present invention, by dividing the storage container divided into a plurality of ice storage space, the user can separate and store the ice as needed. In addition, by installing a guide plate in the ice maker or by allowing the ejector to rotate in both directions, it is possible to increase the ease of use by automatically separating and storing the ice.

The ice separation and storage device of the ice maker according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

1 is a perspective view showing an example of an ice maker according to the present invention, Figure 2 is a sectional view taken along the line "II" of Figure 1, Figure 3 is a perspective view showing another example of the storage container according to Figure 1, Figure 4 A cross-sectional view showing the ice-making process in an ice maker to which the storage container is applied.

As shown therein, the ice maker according to the present invention is fixed to a device in which the ice maker is installed, the ice maker 110 receives ice water through a water supply unit, and is formed on the upper side of the ice maker 110. Ejector (120) for icing ice while rotating in both directions with respect to the ice making container (110), the drive unit (130) for driving the ejector (120), and the ice produced in the ice making container (110) And an ice bank 140 for storing.

The ice making container 110 has an ice making space 111 having a substantially semi-cylindrical cross-sectional shape, and the ice making space 111 can make several pieces of ice of a predetermined size at a time on the inner circumferential surface of the ice making container 110. Partition protrusions 113 are formed to separate the plurality of unit spaces 112.

The ejector 120 includes a rotating shaft 121 installed to cross the center of the ice making container 110 and a plurality of ejector pins 122 projecting vertically from the rotating shaft 121. As the ejector pins 122 rotate, the ejector pins 122 are partitioned by the partition protrusions 113 so that the ice in the unit space 112 can be discharged from the ice making container 110. Each space 112 is provided to correspond one-to-one.

The drive unit 130 is provided with a motor box 131 installed on one side of the ejector 120, a rotating motor provided in the motor box 131 to rotate the ejector 120 in any direction (hereinafter referred to as , The first motor 132 and a reduction gear (not shown) for reducing the rotational speed of the first motor 132.

The storage container 140 has a storage space therein divided into a plurality of partitions 143 so that the first storage space 141 and the second storage space 142 are arranged in a direction away from the ice making container 110. It is installed as possible. In addition, the storage container 140 is connected to the ice outlet (not shown) of the dispenser by storing only simple pieces of ice among the plurality of storage spaces, while the second storage space 142 is connected to water. The ice may be stored together to be connected to the water outlet (not shown) of the dispenser.

Here, according to the installation position of the storage container 140, the separation guide unit for separating the ice in the storage container 140 or the ice making container 110 to guide each storage space (141, 142) ( 150 may be further provided.

For example, when the storage container 140 is biased and installed on one side of the ice making container 110 as shown in FIGS. 1 and 2, the second storage space 142 of the storage container 140 is the ice making. It may be located far away from the container 110 may not be able to reach the second storage space 142 of the storage container 140 ice iced by the ejector 120. In view of this, the ice making container 110 may further include a guide plate 151 which extends the guide surface of the ice iced by the ejector 120 to the second storage space 142.

The guide plate 151 is rotatably coupled to one side of the ice making container 110 as shown in Figures 1 and 2 and the rotating shaft 152 of the guide plate 151 is installed inside the motor box 130 It may be coupled to a rotating motor (hereinafter, the second motor) 153. Here, the second motor 153 for driving the guide plate 151 may be coupled to interlock with the first motor 132 for rotating the ejector 120. In this case, a clutch device capable of appropriately distributing the rotational force of the first motor 132 may be required.

In addition, a guide piece 144 may be formed at an upper end of the storage container 140 to form a guide surface together with the guide plate 151 coupled to the storage container 110 as shown in FIGS. 3 and 4. That is, the more the storage space of the storage container 140, the longer the rotation radius of the guide plate 151, in this case, the distance between the ice making container 110 and the storage container 140 has to be far away and thus the ice maker Since the entire length may be longer, in consideration of this, instead of reducing the length of the guide plate 151, the guide piece 144 is further formed within the rotation radius of the guide plate 151 so that the ice smoothly moves to the second storage space 142. Can be flowed in.

On the other hand, although not shown in the drawings, the guide plate (not shown) is rotatably coupled to the storage container 140, a guide piece (not shown) may be formed on the opposite side, that is, the ice making container 110. Also in this case, the effect may be substantially the same as the above-described embodiment. However, in this case, as the second motor is installed in the storage container, the installation position with the first motor may be prevented from overlapping.

In the figure, reference numeral 114 denotes a sliding plate.

Effects of the ice separation and storage device of the ice maker according to the present invention as described above are as follows.

That is, if ice making is required, the ice maker (not shown) is turned on and the ice making operation is started. When the ice making operation starts, the water supply unit (not shown) supplies water to the ice making space 111 of the ice making container 110. When the supply of water is completed, the water in the ice making container 110 is frozen by being exposed to cold air in the cooling chamber for a predetermined time or more.

Then, after the predetermined time elapses after the temperature of the ice making container 110 is lowered or lowered to a predetermined temperature, it is determined that ice making is completed and the process for ice-making is started.

For moving, as shown in FIG. 5A, the first motor 132 of the driving unit 130 rotates in one direction to rotate the ejector 120 in the forward direction. Then, the ejector pins 122 rotate in a forward direction to lift and rotate ices I in the unit space 112 of the ice making container 110. Then, as shown in (b) of FIG. 5, the ice I rotates along the ejector pin 122 and is caught by the sliding plate 114 to be separated from the ejector pin 122, and then the sliding plate 114. It slides along and falls to the first storage space 141 of the storage container 140. When the ice is completely filled in the first storage space 141 or the ice is to be transferred to the second storage space 142 by another command and stored therein, as shown in (c) of FIG. The second motor 153 is driven to rotate the guide plate 151 by a predetermined angle. Then, the ice I scattered by the ejector pin 122 is guided to the guide plate 151 via the sliding plate 114, and the ice I slides along the guide plate 151 to form a second portion. Guided to storage 142. In this case, when the guide piece 144 is extended to the upper end of the second storage space 142, the guide piece 144 and the guide plate 151 are connected to the guide surface even if the width of the guide plate 151 is not long enough Since the total length of the length of the icemaker and the storage container 140 can be narrowed by that the size of the ice maker can be reduced through this.

Next, as shown in (d) of FIG. 5, when the user selects ice using the dispenser, ice is extracted from the first storage space 141 of the storage container 140 while the user uses water to dispense the water. If selected, water may be extracted from the second storage space 142 of the storage container 140.

On the other hand, if there is another embodiment of the ice separated storage device of the ice maker according to the present invention.

That is, in the above-described embodiment, the storage container is installed eccentrically on one side of the ice making container, and the ejector rotates in only one direction to separate and store the ice into the respective storage spaces. It is installed in the middle of the ice making container and the ejector rotates in both directions to separate and store the ice in each storage space.

For example, as shown in FIGS. 6 and 7, the first storage space 241 and the second storage space 242 of the storage container 240 are both sides in the width direction of the ice making container 210 by the partition wall 243. Installed in each position, the rotation motor 232 for rotating the ejector 220 is a bidirectional rotation motor is applied. The partition wall 243 is disposed so as to vertically coincide with the center of rotation of the ejector 220 or at least within the rotational diameter range of the ejector 220 no matter in which direction the ejector 220 rotates. Both storage spaces (241, 242) can be accommodated smoothly it may be desirable.

Here, ice separation plates 214 for separating and guiding the ice in both directions so that the ice scooped up by the ejector 220 is rotated as it is, so as not to move in the opposite direction, on both upper ends of the width direction of the ice making container 210, respectively. Can be installed.

In the drawing, reference numeral 211 denotes an ice making space, 212 denotes a unit space, 213 denotes a partition protrusion, 221 a rotating shaft, 222 denotes an ejector pin, 230 denotes a driving unit, and 231 denotes a motor box.

The ice is iced in the ice maker according to the present embodiment as described above is similar to the ice operation of the above-described embodiment. However, in this embodiment, as the storage container 240 is installed so that the respective storage spaces 241 and 242 are located on both sides of the ice making container 210, ice is required according to the rotation direction of the ejector 220. The storage spaces 241 and 242 may be separately stored. In this case, there is no need for a separate guide plate for moving the ice to a distant storage space, thereby reducing the manufacturing cost by reducing the number of parts. In addition, since the storage container 240 is installed at an intermediate position with respect to the ice maker 210, the width of the ice maker may be reduced in length to reduce the size of the ice maker.

On the other hand, the refrigerator to which the ice maker as described above is not shown in the drawings, it is usually installed in the freezer door for opening and closing the freezer compartment or the freezer compartment of the refrigerator. And even in this case, the ice separator of the ice maker is configured and operated in the same manner as in the above-described embodiment as well as the operation effect thereof is the same.

The ice separation and storage device of the ice maker according to the present invention can be equally applied not only to an ice maker applied to a refrigerator, but also to a product in which the ice maker is used alone.

1 is a perspective view showing an example of an ice maker according to the present invention,

2 is a cross-sectional view taken along line “I-I” of FIG. 1;

3 is a perspective view showing another example of the storage container according to FIG.

4 is a cross-sectional view showing the ice-making process in the ice maker according to FIG.

5 is a schematic view showing an ice-making process in the ice maker according to FIG. 1;

6 is a perspective view showing another example of an ice maker according to the present invention;

FIG. 7 is a cross-sectional view taken along the line “II-II” of FIG. 6.

DESCRIPTION OF REFERENCE NUMERALS

110: ice making container 112: unit space

120: ejector 122: ejector pin

130: drive unit 132: rotation motor

140: storage container 141: first space

142: second space 143: partition wall

144: guide 150: separation guide unit

151: guide plate 153: rotating motor

Claims (7)

An ice making container provided with an ice making space for making ice by receiving water; An ejector installed at an upper side of the ice making container to lift and ice the ice in the ice making space while rotating in both directions with respect to the ice making container; An ice separation plate installed on the ejector to separate and guide the ice spread by the ejector in both directions according to the rotation direction of the ejector; And And a storage container which is stored in the ice making space by the ejector and guides the ice guided by the ice separating plate, and is provided under the ice making container. And the storage container is divided into two storage spaces by partitions so that ice is separately stored in each storage space according to the rotation direction of the ejector. delete delete delete delete delete The method of claim 1, Any one of the two storage spaces is separated ice storage device of the ice maker is connected to the water supply pipe so that water and ice can be stored.

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