KR101709789B1 - Icetray and refrigerator includes it - Google Patents

Abstract

The present invention relates to an ice-making tray and a refrigerator including the same.
An ice-making tray according to an embodiment of the present invention includes: a first tray that receives water for generating ice; A second tray positioned below the first tray and selectively detached from the first tray; A connecting unit connecting the first tray and the second tray; . According to another aspect of the present invention, there is provided a refrigerator comprising: a refrigerator compartment for providing a refrigerated storage space for food; A freezing chamber for providing a freezing storage space for food; And an ice tray having a first tray detachably fixed to the freezing chamber to receive water for freezing to generate ice, and a second tray selectively connected to a lower side of the first tray; . According to the ice-making tray and the refrigerator including the ice-making tray, the ice-making time of the ice can be reduced, and energy can be efficiently consumed.

Description

[0001] The present invention relates to an ice tray and a refrigerator including the same,

The present invention relates to an ice-making tray and a refrigerator including the same.

Generally, a refrigerator is a household appliance that stores food in an internal storage space shielded by a door at a low temperature and stores it for a long time. To this end, the refrigerator uses refrigerant circulating in the refrigeration cycle and cold air generated by heat exchange of the air in the storage space for storing the food, thereby cooling the storage space and storing the food in the storage space at a low temperature.

As such, the refrigerator is configured to store the low-temperature state of the food in the storage space, that is, the optimal state most suitable for storing each food.

2. Description of the Related Art In recent years, refrigerators tend to be made larger and more multifunctional in accordance with trends such as changes in eating habits and products, and refrigerators provided with various structures and convenience devices considering user's convenience.

As described above, various structures for the user's convenience are increasingly demanded by consumers such as an increase in ice demand due to an abnormal high-temperature phenomenon, a shortening of ice generation time, and various ice-making apparatuses have been proposed to satisfy such demands.

In addition, there are increasing demands from consumers for efficient use of energy, reduction in use, maintenance, and repairing costs, and a refrigerator having various functions has been proposed for this purpose.

An object of the present invention is to provide an ice-making tray and a refrigerator including the same, wherein the ice-making time is shortened.

It is another object of the present invention to provide an ice-making tray capable of selectively controlling the ice making amount of ice and a refrigerator including the same.

According to another aspect of the present invention, there is provided a refrigerator comprising: a main body having a storage space opened and closed by a door; A first tray provided in the door or the main body and including an ice tray for generating ice, wherein the ice tray includes a plurality of ice-making spaces formed in the upper surface thereof to receive water for generating ice, A second tray formed of a material having a higher thermal conductivity than the first tray, the first tray being formed with a plurality of ice-making spaces accommodating water for generating ice, Both ends of which are coupled to the first tray and the second tray such that at least a portion of the upper surface of the second tray is in contact with at least a portion of the lower surface of the first tray, Wherein the first tray includes a first space and a second space disposed adjacent to each other, and the ice tray of the second tray includes a third space, Wherein the third space is located between the first space and the second space when the first tray and the second tray are coupled to each other, A groove is formed in the upper surface of the first tray so as to be recessed in a size smaller than an ice-making space of the first tray and to receive a part of the ice-making space of the first tray.
The first tray is formed of a polymer compound material, and the second tray is formed of a metal material.
The connection unit includes: a first portion inserted and mounted on one side of the first tray; A second portion inserted and mounted on one side of the second tray; And a third portion connecting the first portion and the second portion.

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According to the ice making tray and the refrigerator including the same according to the embodiment of the present invention configured as described above, the effect of improving the freezing speed by blocking the cold air flow path of the first tray can be expected.

The effect of reducing the ice making time can be expected due to the improvement of the ice-making speed, and the reduction of the ice-making time can be expected to reduce the power consumption for the ice making.

Accordingly, the efficiency of consumption of energy can be expected to be improved, and the cost of using and maintaining the refrigerator can be expected to be reduced.

In addition, it is possible to control the amount of ice making according to the selective use of the second tray, thereby improving the ease of use.

1 is a perspective view showing a configuration of a refrigerator according to an embodiment of the present invention;
2 is a perspective view showing an outer shape of an ice-making tray according to an embodiment of the present invention;
3 is an assembly view showing a structure of an ice-making tray according to an embodiment of the present invention.
4 is an assembly view showing a configuration of an ice-making tray according to another embodiment of the present invention.

Hereinafter, an ice-making tray and a refrigerator including the same according to embodiments of the present invention will be described with reference to the accompanying drawings.

It is to be understood, however, that the scope of the present invention is not limited by the embodiments described below, and those skilled in the art, upon reading the present disclosure, It will be easily suggested, but this will also be included in the technical idea of the present invention.

It is to be understood that the terms used in the present specification or claims are selected for convenience of description and should be interpreted appropriately in accordance with the technical idea of the present invention when grasping the technical contents of the present invention.

1 is a perspective view showing a configuration of a refrigerator according to an embodiment of the present invention. Referring to FIG. 1, the refrigerator includes a case 1 for providing food storage space, and a door 10 for selectively opening and closing the storage space of the case 1.

In the embodiment of the present invention, the inner space of the case 1 is divided into a left space and a right space, and a side-by-side type in which the door 10 is provided in the left space and the right space, respectively. Let's take a look at a refrigerator of an example.

The inner space of the case 1 divided into a left space and a right space may include a refrigerating compartment 20 for storing refrigerated food and a freezing compartment 30 for refrigerating and storing food. Of course, the inner space of the case 1 may be divided into an upper space and a lower space so that the refrigerating compartment 20 and the freezing compartment 30 can be separated.

The case 1 may include an outer case forming an outer appearance and an inner case formed inside the outer case to form a predetermined inner space and provide a storage space for the food by the inner space.

Between the outer case and the inner case, a heat insulating material for insulating the outer space and the inner space is filled. This heat insulating material blocks the heat exchange between the air in the refrigerating compartment (20) and the free space (30) and the air in the external space.

The refrigerator compartment 20 and the freezer compartment 30 may be provided with a drawer, a shelf, a basket, or the like to house a plurality of food items. The drawer is slidable in the forward and backward directions to accommodate various foods. The shelf supports the various foods while being adjusted in height, so that the food can be stored in the refrigerating chamber 20 and the freezing chamber 30 at a low temperature.

In addition, the case 1 is formed in a state that the front face is opened to allow the food to enter and leave, and the opened front face is selectively opened and closed by the rotation of the door 10, .

The door 10 may include a refrigerator compartment door 11 that shields the refrigerator compartment 20 and a freezer compartment door 12 that shields the freezer compartment 30. The refrigerator compartment door 11, The front and rear surfaces of the body 12 can be configured to accommodate food.

Of course, the arrangement of the refrigerator compartment 20, the freezer compartment 30, and the shape of the door 10 may vary depending on the type and the type of refrigerator, and the present invention is not limited to this and can be applied to various types of refrigerators .

Meanwhile, an ice maker for making ice is positioned in the inner space of the freezer compartment (30) or the freezer compartment door (12). In the embodiment of the present invention, a configuration for generating ice by the ice-making tray 40 will be described as an example.

The ice-making tray 40 is rotatably fixed to the inner case, and ice is generated by freezing water by the cold air of the freezing chamber 30. [ At this time, when water is frozen in the ice-making tray 40 and ice is generated, the ice is directly operated by the user to detach the ice from the ice-making tray 40, or automatically operates to move ice from the ice- So that the ice generated by the user can be easily used.

And an ice storage box for storing the ice cubes from the ice-making tray 40 may be further provided below the ice-making tray 40. The ice storage box allows the user to easily use the stored ice.

FIG. 2 is a perspective view showing an outer shape of an ice-making tray according to an embodiment of the present invention, and FIG. 3 is an assembly view showing a configuration of an ice-making tray according to an embodiment of the present invention.

The ice making tray 40 according to the embodiment of the present invention includes a first tray 50 having a hexahedron shape having a predetermined inner space as a whole and having an open upper surface and a second tray 50 supported by the first tray 50, And a connection unit 70 connecting the first tray 50 and the second tray 60 to each other.

The first tray 50 is formed to have a predetermined inner space divided into a plurality of spaces, and the water is received in the plurality of inner spaces, and the water accommodated according to the shape of the space is frozen to generate ice do.

That is, the first tray 50 provides an ice-making space 51 for generating ice by a predetermined internal space divided into a plurality of spaces. While water is contained in the ice-making space 51, The shape of the ice generated by the water is determined according to the shape of the space 51.

The upper end of the ice-making space 51 may be lower than the entire inner space of the first tray 50. This is to allow water to flow into each of the ice-making spaces 51 when water is received into the ice-making space 51.

Water can freely flow into each of the ice-making spaces 51, so that even if the water overflows in any one of the ice-making spaces 51, the overflowing water can move to the other ice-making space 51, Can be prevented from moving to the outer space of the first tray (50).

In addition, the height of the water contained in the ice making space 51 can be uniformed more than a certain amount, and the level of the ice can be maintained uniformly.

The first tray 50 is made of a polymer compound having a predetermined self-elasticity and water repellency. As such a polymer compound, fluororesin, silicone, polypropylene and the like are used. Of course, other polymer compounds may be used.

The first tray 50 may be formed in various thicknesses depending on the kind of the polymer compound used and may be formed of a suitable polymer compound according to various conditions such as a set time for ice-making or a temperature of the freezing chamber 30 .

When the first tray 50 is made of a polymer compound, other portions including the ice-making space 51 are brought into contact with the water accommodated for the generation of ice. Therefore, when a predetermined external force is applied to the first tray in a state where the first tray is frozen with ice in the ice-making space 51, ice can be separated from the first tray 50 due to the characteristics of the polymer compound having predetermined water- have.

In addition, the first tray 50 may include a plurality of polymer layers. That is, the surface of the first tray 50 may be formed of a plurality of polymer layers by coating the surface of the first tray 50 with another polymer compound.

The surface of the first tray 50 may be coated with another polymer compound by spraying or painting on the surface of the first tray 50 processed with one polymer compound.

A lever 52 is provided on the front surface of the first tray 50 for releasing ice from the first tray 50 in the internal space of the first tray 50. The lever 52 is formed in the form of a disk having a predetermined thickness and a lever handle 53 is provided on the front surface of the lever 52 so that the user can grasp the lever 52 to rotate the lever 52.

A fixing protrusion 54 for fixing the first tray 50 to the inner space of the freezing chamber 30 so as to be rotatable is formed on the rear surface of the first tray 50. The fixing protrusion 54 protrudes rearward from the rear surface of the first tray 50. The inner case of the freezing chamber 30 is provided with a fixing hole or a coupling portion for engaging with the fixing protrusion 54. [

Therefore, the first tray 50 is rotatably fixed to the inner space of the freezer compartment 30 with the fixing protrusions 54 inserted into the fixing holes or the coupling parts.

A second tray 60 having a thermal conductivity different from that of the first tray 50 is disposed on the lower side of the first tray 50. The second tray 60 is formed of a metal material having a high thermal conductivity and corresponding to the first tray 50 as a whole.

When the second tray 60 is made of a metal material having a good thermal conductivity, the temperature of the inner space of the freezing chamber 30 is quickly transferred to the second tray 60. The low temperature of the freezing chamber 30 transmitted to the second tray 60 is transmitted to the first tray 50 and the water contained in the ice making space 51 of the first tray 50 flows faster And cooled.

The water contained in the ice making space 51 is cooled more quickly, thereby shortening the freezing time.

Meanwhile, the second tray 60 may be configured to shut off the flow path of the cool air flowing to the lower side of the first tray 50. As described above, the second tray 60 blocks the cold air flow of the first tray 50, thereby preventing cold loss of the first tray 50.

In order to freeze the water contained in the ice making space 51, a certain amount of time is required.

When the ice tray 40 is formed of the first tray 50, the cold air of the freezer chamber 30 flows in all directions of the front, rear, left, top, and bottom of the first tray 50.

When the cold air flows in all the directions of the first tray 50, the cold air flows in the freezing time of the water contained in the ice making space 51, The freezing time of the water contained in the ice-making space 51 becomes longer.

That is, when the ice-making tray 40 is constituted only by the first tray 50, air flows in all the directions of the first tray 50 by the air flow of the freezing chamber 30, Loss occurs.

At this time, the second tray 60 blocks the cool air flowing in one direction (the lower side in the embodiment of the present invention) of the first tray 50, thereby preventing loss of cool air.

For example, when the second tray 60 is positioned below the first tray 50, the coolant flow path for flowing downwardly of the first tray 50 is performed by the second tray 60 The cooling air is prevented from flowing and the cold air of the cool air is transmitted to the first tray 50 to promote freezing of water contained in the ice making space 51. [

Accordingly, the time for freezing water in the first tray (50) is shortened and the ice-making time is reduced.

Also, since the cool air formed in the freezing chamber (30) is allowed to stay for a predetermined time between the first tray (50) and the second tray (60) without heat loss due to the high thermal conductivity of the second tray The freezing time is further shortened.

The second tray 60 may be disposed in contact with at least a lower surface of the first tray 50 or may be spaced apart from the first tray 50 by a predetermined distance. When the second tray 60 is positioned in contact with at least the lower surface of the first tray 50, the cool air of the freezing chamber 30 is guided to the first tray 60 by the thermal conductivity of the second tray 60, It is possible to save the time required for transmission to the portable terminal 50.

When the second tray 60 is spaced apart from the first tray 50 by a predetermined distance, the first tray 50 can block the air flow around the first tray 50, It is possible to prevent the loss of cool air generated in the air conditioner.

The second tray 60 may have a top surface corresponding to the first tray 50 or a rectangular plate having a predetermined thickness.

However, the second tray 60 may have a larger area of contact with the first tray 50 in order to further transmit the cool air temperature to the first tray 50, It is preferable that the lower surface of the tray 50 corresponds to the lower surface of the tray 50.

When the second tray 60 is formed in a shape corresponding to the first tray 50, the second tray 60 is provided with a second ice making space 61 for providing a space for freezing water while being accommodated therein .

The second ice making space 61 is formed in the second tray 60, so that the user can selectively generate the ice using the second ice making space 61, Can be adjusted.

The ice tray 40 is further provided with a connection unit 70 for connecting the first tray 50 and the second tray 60 to each other. The connection unit 70 has a predetermined self-elasticity and functions to support the second tray 60 on the first tray 50.

The connection unit 70 is fixed to the front of the first tray 50 and the second tray 60 to support the front half of the second tray 60 to the front half of the first tray 50 And a second tray 60 which is fixed to the rear of the first tray 50 and the second tray 60 so that a rear half of the second tray 60 is connected to the first tray 50, And a second unit (72) for performing a function of supporting the second part (72).

The first unit 71 is formed in a substantially ⊂ shape when viewed from the right side, and a portion bent rearward of the upper and lower ends is provided on the front side of the first tray 50 and the second tray 60 And may be configured to hold the first half of the second tray 60 to the first half of the first tray 50.

The distance between the first tray (50) and the second tray (60) can be adjusted by varying the length of the first unit (71). That is, the first unit 71 may be configured to have its own length, or may be configured to be adjustable in length by a plurality of first units 71 having different lengths .

A second unit 72 for supporting the first tray 50 and the second tray 60 may be provided on the rear surface of the first tray 50 and the second tray 60 . The second unit 72 is formed in a substantially "⊃" shape when viewed from the right side, so that the front and rear bent portions of the upper and lower ends are fixed to the rear side of the first tray 50 and the second tray 60 So as to support the second half of the second tray 60 on the second half of the first tray 50.

The second unit 72 can be adjusted in its own length or can be adjusted in space between the first tray 50 and the second tray 60 by a plurality of the second units 72 having different lengths do.

Meanwhile, the first tray 50 may be formed of a polymer compound, and the second tray 60 may be formed of an aluminum or aluminum alloy material having excellent thermal conductivity. At this time, as the thickness of the first tray 50 becomes thicker, heat transfer between the first tray 50 and the water for generating ice becomes difficult, so that the generation time of ice becomes long, (50) should be formed.

On the other hand, as the thickness of the first tray 50 becomes thinner, the first tray 50 becomes difficult to manufacture and the durability of the first tray 50 decreases.

4, the second ice-making space 61 formed in the second tray 60 is disposed adjacent to the lower surface of the first ice-making space 51 formed in the first tray 50 A space between the first tray 50 and the second tray 60 may be maintained between the lower surface of the first ice-making space 51 and the ice-making space to freeze the ice.

At this time, a portion of the lower surface of the first tray 50 is accommodated on the upper surface of the second tray 60, thereby guiding the combined position of the first tray 50 and the second tray 60 It is possible.

Hereinafter, the operation of the ice-making tray and the refrigerator will be described.

When power is supplied to the refrigerator, cold air is supplied to the refrigerating chamber (20) and the freezing chamber (30) so as to maintain a set temperature necessary for storing the food. At this time, the water contained in the ice-making tray 40 is frozen by the supplied cool air.

In the ice-making tray 40, water for user's ice-making is stored in the ice-making spaces 51 and 61. In this way, the water contained in the ice-making spaces 51 and 61 is supplied by the user or automatically supplied to complete the preparation for ice-making.

When water for ice-making is received in the ice-making spaces 51 and 61, water for ice-making is gradually frozen by the cold air supplied to the freezing chamber 30 and is converted into ice. When the iced water contained in the ice making spaces 51 and 61 is completely iced and the ice is generated, the user grasps the lever handle 53 and rotates the lever 52 to open the ice- The upper surface faces downward.

When the opened upper surface of the ice-making tray 40 faces downward, the ice that has been de-iced in the ice-making spaces 51 and 61 is separated from the ice-making tray 40 and directed downward, .

The ice stored in the ice storage box is used by the user as needed, so that the ice making by the ice-making tray 40 is completed.

At this time, when more ice is required, the user places the second tray 60 so as to be spaced apart from the first tray 50 by a predetermined distance, and the second ice- . When water is supplied to the second ice making space 61, the second tray 60 is supported by the first tray 50 using the connecting unit 70.

In this way, when the first tray 50 and the second tray 60 are used together, more ice can be iced than when the first tray 50 is used alone, So that it can meet the demand.

When the user holds the lever handle 53 and rotates the lever 52 by supporting the second tray 60 on the first tray 50 by the connection unit 70, The second tray 60 is rotated at the same time by the rotation of the first tray 50 so that ice from the ice-making tray 40 can be released from the ice-making tray 40 at the same time without any other operation do.

According to the ice-making tray and the refrigerator including the ice-making tray of the present invention configured as described above, the ice-making time is shortened, thereby improving the time usability of the user and reducing power consumption, As shown in FIG.

Many of these advantages are likely to be used in industries that produce and process refrigerators and those that produce and process refrigerator parts.

1. Case 10. Door
20. Refrigerator 30. Refrigerator
40. Ice-making tray 50. First tray
60. Second tray 70. Connecting unit

Claims (8)

A main body having a storage space opened and closed by a door;
And an ice-making tray provided in the door or the main body for generating ice,
The ice-
A first tray in which a plurality of ice-making spaces for receiving water are formed on an upper surface of the first tray;
A second tray formed of a material having a higher thermal conductivity than the first tray, the first tray being formed with a plurality of ice-making spaces accommodating water for generating ice,
Both ends of which are coupled to the first tray and the second tray such that at least a portion of the upper surface of the second tray is in contact with at least a portion of the lower surface of the first tray, And a connecting unit supported by the first tray,
Wherein the first tray has a first space and a second space located adjacent to each other,
Wherein the first space and the second space are located between the first space and the second space when the first tray and the second tray are coupled to each other,
And a groove is formed on an upper surface of the second tray corresponding to the ice-making space of the first tray, the groove being recessed to a size smaller than the ice-making space of the first tray, The refrigerator. The method according to claim 1,
The first tray is formed of a polymer compound material,
And the second tray is formed of a metal material. delete delete The method according to claim 1,
The connecting unit includes:
A first portion inserted and mounted on one side of the first tray;
A second portion inserted and mounted on one side of the second tray;
And a third portion connecting the first portion and the second portion. delete delete delete

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