KR20150052526A - Ice tray - Google Patents

Abstract

The present invention relates to an ice tray. The ice tray comprises a frame; and multiple ice making grooves formed on the inner side of the frame to manufacture ice, wherein the ice making grooves comprise a base forming the bottom of the ice making grooves; an extension part extended to the upper side of the base; and an edge part forming a curved edge by two surfaces of the extension part arranged to be neighbored. Especially, the thickness of the edge part is characterized by being thinner than the thickness of the extension part.

Description

Ice tray

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ice tray, and more particularly, to an ice tray capable of easily separating ice from an ice tray.

1 is a view showing a conventional ice tray 10, which will be described in detail with reference to FIG. The conventional ice tray 10 includes an outer frame 13 forming an outer edge of the ice tray 10 and an ice making cavity 11 for producing ice of a predetermined size inside the outer frame 13.

The ice tray 10 may include a rotating handle capable of rotating the ice tray 10. The ice tray 10 may further include a rotating shaft connecting the rotating handle to the ice tray 10. [

The user supplies water evenly to the above-mentioned ice-making groove (11). When the temperature of the ice tray 10 is lowered so that the temperature of the water can be lowered to a certain point or lower, a certain size of ice can be formed.

An external force may be applied to the ice tray 10 to separate the ice from the ice tray 10.

That is, the user can twist the ice tray 10 to induce twisting of the ice tray 10.

The twist of the ice tray 10 is transferred to the twist of the ice-making groove 11, so that the ice and the ice-making groove 11 can be separated from each other.

However, the user can separate all the ice only when the force of the ice tray 10 is greater than a certain amount.

Especially, it is difficult to separate ice from the ice making grooves 11, which are not easily twisted. To separate the ice, the ice-making groove must be twisted sufficiently, which requires a lot of force.

That is, the larger the force required to separate the ice, the more difficult it is for users to separate the ice. As the required force increases, there is a problem that the ice tray 10 is damaged in the process of applying the force.

The rotational force is hardly transmitted to the ice-making groove 11 arranged along the longitudinal direction of the rotating shaft. That is, since the ice-making groove 11 disposed along the longitudinal direction of the rotary shaft is hard to twist, it is more difficult to separate the ice.

Further, as the distance from the rotary knob is reduced, the degree of twisting rotation is reduced. Therefore, dehydration does not easily occur, and rotational force is applied to the ice tray 10 several times, so that the risk of damage and breakage of the ice tray 10 can be increased.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problem of the conventional ice tray.

According to an embodiment of the present invention, there is provided an ice tray in which a user can more easily separate ice from an ice making groove.

Another object of the present invention is to provide an ice tray having an optimal thickness for easily separating ice and reducing the risk of breakage of the ice tray.

According to an aspect of the present invention, A plurality of ice-making grooves provided inside the frame for manufacturing ice, and a rotating operation part for rotating the frame at one side of the frame to separate ice from the ice-making grooves.

Wherein the rotation operation portion includes: a rotation handle for rotating the frame to release ice; And a rotary shaft connecting the rotary knob and the ice tray.

The ice-making groove includes a base forming the bottom of the ice-making groove; An extension extending upward from the base; And an edge portion having two sides of the extension portion arranged adjacent to each other and forming a curved corner.

The thickness of the corner portion or the thickness of the base may be made thinner than the thickness of the extended portion.

The thickness of the ice-making groove located on the other side of the frame may be thinner than the thickness of the ice-making groove located on one side of the frame.

Meanwhile, a first ice maker is arranged along the longitudinal direction of the rotary shaft; And a second ice making part arranged in a direction perpendicular to the longitudinal direction of the first ice making part.

At this time, the ice making groove of the first ice making part may be made thinner than the ice making groove of the second ice making part.

Also, the ice making groove of the second ice making part may have a thicker thickness as the vertical distance from the longitudinal direction of the first ice making part increases.

Here, the thickness of the ice-making groove is preferably 0.8 mm or more and less than 1 mm.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problem of the conventional ice tray.

According to a preferred embodiment of the present invention, the ice can be more easily separated from the ice tray.

According to a preferred embodiment of the present invention, it is possible to provide an ice tray in which ice can be separated more easily by locally varying the thickness of the ice tray of the ice tray.

According to a preferred embodiment of the present invention, it is possible to provide an ice tray in which ice can be easily separated from all the ice-making grooves by varying the thickness of the ice-making grooves according to positions of the plurality of ice-making grooves.

1 is a sectional view of a conventional ice tray;
FIG. 2 is an operational perspective view showing a state in which the ice tray according to the present invention is twisted; FIG.
3 is a partially enlarged view of an ice tray of an ice tray according to the present invention.

Hereinafter, a vacuum cleaner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

FIG. 2 shows a state in which the ice tray 100 according to the present invention is twisted.

The ice tray 100 may include a frame 110 forming an outer shape of the ice tray 100 and a plurality of ice making grooves 106 for forming ice of a predetermined size in the frame 110 have.

The ice making groove 106 may include a base 101 forming a bottom surface of the ice making groove 106 and an extending portion 102 extending upward from the base 101.

In addition, the ice-making groove 106 may further include a corner portion 103 having two sides of the extending portion 102 arranged adjacently and forming a curved corner.

The ice tray 100 may include a rotation operation part 120 for rotating the ice tray 100 to separate ice from the ice tray 100.

The rotation operation unit 120 may include a rotation knob 121, a rotation shaft 122, and a support member 123.

The user can rotate the ice tray 100 by holding the rotary knob.

The rotary shaft 122 may be provided on one side of the frame 110 and the rotary knob 121 may be connected to the ice tray 100 by the rotary shaft 122.

A support member 123 may be provided to guide the twist rotation of the ice tray 100 when the rotary knob 121 is rotated. The support member 123 may extend from the rotary knob 121 and may be connected to one side of the frame 110.

Accordingly, when the rotary knob 121 is rotated, the ice tray 100 can be twisted by a predetermined angle about the rotation axis 122 to rotate.

The user twists the ice tray to separate the ice, and at this time, the ice that has been in close contact with the ice-making groove 106 is separated while the ice-making groove 106 is twisted.

That is, it can be seen that as the twist of the ice-making groove 106 becomes larger, the ice is easily separated.

On the other hand, as the thickness of the ice-making groove 106 becomes thinner, the twisting of the ice-making groove 106 may become large at the time of twisting rotation of the ice tray 100.

Therefore, in order to more easily separate the ice from the ice-making groove 106, the thickness of the ice-making groove 106 can be adjusted to maximize the twisting of the ice-making groove 106.

As the thickness of the ice-making groove 106 becomes thinner, the degree to which the ice-making groove 106 is twisted increases, and the efficiency of debarking can be increased.

However, as the overall thickness of the ice-making groove 106 becomes thinner, the strength of the ice tray 100 may be weakened.

Therefore, in order to reduce the risk of damaging the ice tray 100, it is necessary to consider the strength of the ice-making groove 106 together.

The thickness of the base 101 or the edge portion 103 to which rotational force is transmitted may be locally thinned to considerably improve the effect of torsion.

Hereinafter, this will be described in more detail with reference to FIG. 2 and FIG. The base 101 or the corner portion 103 is more affected by the twisting rotation than the extending portion 102 in the ice making groove 106.

Therefore, as the thickness of the base 101 is reduced, the distortion of the base 101 is increased, so that the separation of ice can be more efficiently performed. It is possible to improve the deicing effect by adjusting only the thickness of the base 101 or the corner portion 103.

Therefore, according to a preferred embodiment of the present invention, the thickness of the base 101 may be thinner than the thickness of the extended portion 102.

Not only the base 101 but also the edge portion 103 may have a thickness smaller than that of the extension portion 102.

On the other hand, when the icemaker is twisted, the magnitude of the force applied to each of the ice-making grooves 106 may be different. Therefore, the degree of twisting in each of the ice-making grooves 106 may be different.

Therefore, it is necessary to adjust the thickness of the ice-making groove 106 in accordance with the magnitude of the rotational force received by the ice-making groove 106.

If the thickness of the ice-making groove 106, which is relatively twisted, is even thinner, there is a risk of breakage of the ice-making groove 106 due to excessive twisting.

That is, the thickness of the ice-making groove 106, which is relatively small in the twist of the plurality of ice-making grooves 106, can be made thinner than the thickness of the other ice-making groove 106.

The object of the present invention for easily separating ice from all the ice making grooves 106 of the ice tray 100 can be achieved by adjusting only the thickness of the ice making groove 106,

2, the ice-making groove 106 includes a first ice-making portion 104 arranged along the longitudinal direction of the rotary shaft, a second ice-making portion 104 extending in a direction perpendicular to the longitudinal direction of the first ice- And a second ice-making part 105 which is arranged.

The degree of twisting of the first freezing portion 104 may be smaller than that of the second freezing portion 105. This is because the first ice making part 104, which is coaxial with the rotating shaft, does not transmit rotational force.

Accordingly, the thickness of the ice-making groove 106 of the first ice-making part 104 of the plurality of ice-making grooves 106 may be greater than the thickness of the ice-making groove 106 of the second ice- It can be made thinner.

 At this time, the base 101 of the first ice-making unit 104 may be thinner than the base of the second ice-making unit 105. The corner portion 103 of the first ice making portion 104 may be thinner than the corner portion 103 of the second ice making portion 105 or 104. [

The thickness of the ice-making groove 106 is locally adjusted according to the position of the ice-making groove 106 to solve the problem of the first ice-making part 104, which is difficult to separate ice.

In addition, the thickness of the ice making groove 106 of the second ice making part 105 may become thicker as the vertical distance from the longitudinal direction of the first ice making part 104 increases.

Since the rotational force transmitted to the ice making groove 106 in the vertical direction in the first ice making portion 104 increases, the ice is hardly separated even if the thickness of the ice making groove 106 becomes relatively thick to be.

Likewise, the base or corner of the ice-making groove 106 may be made thinner as the ice-making groove 106 is vertically distanced from the longitudinal direction of the first ice-making section 104.

The thickness of the ice-making groove 106 located at the other side of the frame 110 is determined by the thickness of the ice-making groove 106 located at one side of the frame 110 provided with the rotary knob 121. According to another preferred embodiment of the present invention, ). ≪ / RTI >

This is because the tilting of the ice-making groove 106 becomes smaller as the position of the ice-making groove 106 moves away from the rotation operating portion.

Therefore, it is preferable that the thickness of the ice-making groove 106 is made thinner as the distance from the rotation operating portion increases, thereby increasing the efficiency of twisting.

At this time, the thickness of the ice-making groove 106 can be adjusted to be thinner only in a portion where the rotational force is relatively large.

That is, the edge 103 or the base 101 of the ice-making groove 106 located on the other side of the frame 110 is positioned at the corner 103 or base 103 of the ice- (101).

On the other hand, it is preferable that the thickness capable of raising the degree of twist without damaging the ice-making groove 106 is 0.8 mm or more and 1 mm or less.

The ice tray 100 is preferably made of a hydrophobic material. When the ice tray 100 is manufactured using a hydrophobic material, the ice is easily removed. Since the water is hydrophilic, when the ice tray 100 is made hydrophobic, adhesion between water and the ice-making groove 106 can be reduced.

100: Ice tray 101: Base
102: extension part 103: corner part
104: first ice making part 105: second ice making part
106: ice-making groove 120:

Claims (10)

frame;
A plurality of ice-making grooves provided inside the frame for producing ice;
And a rotation operation part for rotating the frame at one side of the frame to separate ice from the ice-making groove,
The ice-
A base forming the bottom of the ice-making groove;
An extension extending upward from the base;
And an edge portion that is formed by two surfaces of the extending portion adjacent to each other and has a curved surface,
Wherein the thickness of the corner portion or the thickness of the base is thinner than the thickness of the extended portion. The method according to claim 1,
And the thickness of the ice-making groove located on the other side of the frame is thinner than the thickness of the ice-making groove located on one side of the frame. 3. The method according to claim 1 or 2,
The rotating operation unit includes:
A rotary knob for rotating the frame to release ice;
And a rotating shaft connecting the rotating handle and the ice tray,
Wherein the plurality of ice-
A first ice maker arranged along the longitudinal direction of the rotary shaft;
And a second ice making part arranged in a direction perpendicular to the longitudinal direction of the first ice making part. The method of claim 3,
And the ice making groove of the first ice making part is thinner than the ice making groove of the second ice making part. 5. The method of claim 4,
The ice making chamber of the second ice-
And the thickness of the ice tray is thicker as the vertical distance from the longitudinal direction of the first ice making part is longer. frame;
A plurality of ice-making grooves provided inside the frame for producing ice;
And a rotation operation part for rotating the frame at one side of the frame to separate ice from the ice-making groove,
And the thickness of the ice-making groove located on the other side of the frame is thinner than the thickness of the ice-making groove located on one side of the frame. The method according to claim 6,
The rotating operation unit includes:
A rotary knob for rotating the frame to release ice;
And a rotating shaft connecting the rotating handle and the ice tray,
Wherein the plurality of ice-
A first ice maker arranged along the longitudinal direction of the rotary shaft;
And a second ice making part arranged in a direction perpendicular to the longitudinal direction of the first ice making part. 8. The method of claim 7,
And the ice making groove of the first ice making part is thinner than the ice making groove of the second ice making part. 8. The method of claim 7,
The ice making chamber of the second ice-
And the thickness of the ice-making groove is thicker in an ice-making groove which is distant from the longitudinal direction of the first ice-making unit. 10. The method according to any one of claims 6 to 9,
Wherein the thickness of the ice-making groove is 0.8 mm or more and less than 1 mm.

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