KR102154525B1 - Ice tray - Google Patents

Abstract

The present invention relates to an ice tray, wherein the ice tray comprises a frame; A plurality of ice-making grooves provided inside the frame for making ice, wherein the ice-making groove includes a base forming a bottom surface of the ice-making groove; An extension part extending upward of the base; And a corner portion having two surfaces of the extension portion adjacent to each other to form a corner with a curved surface.
In particular, it provides an ice tray, characterized in that the thickness of the edge portion is thinner than the thickness of the extension portion.

Description

Ice tray {Ice tray}

The present invention relates to an ice tray, and more particularly, to an ice tray capable of easily separating ice from an ice making groove.

1 is a view showing a conventional ice tray 10 will be described in detail with reference to this. The conventional ice tray 10 includes an outer frame 13 forming an outer periphery of the ice tray 10 and an ice making groove 11 for manufacturing ice of a predetermined size in the outer frame 13.

One side of the ice tray 10 may include a rotation handle capable of rotating the ice tray 10. In addition, the ice tray 10 may further include a rotation shaft connecting the rotation handle and the ice tray 10.

The user evenly supplies water to the ice making groove 11. Thereafter, 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 less, ice of a certain size may be formed.

The ice may be separated from the ice tray 10 by applying an external force to the ice tray 10.

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

As the twist of the ice tray 10 is transmitted to the twist of the ice making groove 11, the ice and the ice making groove 11 may be separated.

However, all the ice can be separated only when the force that users twist the ice tray 10 is greater than a certain amount.

In particular, it was difficult to separate the ice from the ice making groove 11 in which torsion was not well transmitted. This is because the ice making groove must be sufficiently twisted to separate the ice, and a lot of force is required for this.

That is, as the amount of force required to separate the ice increases, it is difficult for users to separate the ice. And as the required force increases, there has been a problem in that the ice tray 10 is damaged in the process of applying the force.

In particular, it is difficult to transmit rotational force to the ice making groove 11 arranged along the longitudinal direction of the rotation shaft. That is, the ice making groove 11 disposed along the lengthwise direction of the rotation shaft has a problem in that it is more difficult to separate ice because it is difficult to cause distortion.

In addition, since the degree of twisting rotation decreases as the distance from the rotation handle decreases, ice removal does not occur easily, and a rotational force is applied to the ice tray 10 several times, thereby increasing the risk of damage and damage to the ice tray 10.

The present invention basically aims to solve the problem of the conventional ice tray described above.

An object of the present invention is to provide an ice tray through which a user can more easily separate ice from an ice making groove.

In addition, it is intended to provide an ice tray having an optimized thickness so that ice can be easily separated and the risk of damage to the ice tray can be reduced.

According to an embodiment of the present invention to achieve the above object, a frame; It may include a plurality of ice making grooves provided inside the frame for ice making; a rotation operation unit for separating ice from the ice making groove by rotating the frame at one side of the frame.

The rotation control unit may include a rotation handle for moving the ice by rotating the frame; It may include; a rotation shaft connecting the rotation handle and the ice tray.

The ice-making groove includes: a base forming a bottom surface of the ice-making groove; An extension part extending upward of the base; The two surfaces of the extension part are disposed adjacent to each other to form a corner with a curved surface.

In addition, the thickness of the edge portion or the thickness of the base may be made thinner than the thickness of the extension portion.

In addition, the thickness of the ice making groove positioned on the other side of the frame may be thinner than the thickness of the ice making groove positioned on one side of the frame.

On the other hand, a first ice-making unit arranged along the longitudinal direction of the rotation shaft; And a second ice making unit arranged in a direction perpendicular to the length direction of the first ice making unit.

In this case, the ice making groove of the first ice making part may be thinner than the ice making groove of the second ice making part.

In addition, the ice-making groove of the second ice-making unit may have a thicker thickness as the vertical distance from the longitudinal direction of the first ice-making unit increases.

Here, it is preferable that the thickness of the ice making groove is 0.8mm or more and less than 1mm.

The present invention basically aims to solve the problem of the conventional ice tray described above.

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, an ice tray capable of easily separating ice may be provided by locally varying the thickness of the ice making groove 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 ice-making grooves by varying the thickness of the ice-making grooves according to positions of a plurality of ice-making grooves.

1 is a cross-sectional view of an ice tray according to the prior art;
Figure 2 is an operation perspective view showing a state in which the ice tray twisting rotation according to the present invention;
3 is a partial enlarged view showing an ice-making groove of an ice tray according to the present invention.

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

In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary according to the intention or custom of users or operators. Definitions of these terms should be made based on the contents throughout the present specification.

2 shows a state in which the ice tray 100 according to the present invention rotates torsional.

The ice tray 100 may include a frame 110 forming the outer shape of the ice tray 100, and a plurality of ice-making grooves 106 for making ice of a certain size within 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 extension portion 102 extending upward from the base 101.

In addition, the ice making groove 106 may further include a corner portion 103 in which two surfaces of the extension portion 102 are disposed adjacent to each other to form a corner in a curved surface.

Meanwhile, a rotation operation unit 120 for separating ice from the ice tray 100 by rotating the ice tray 100 may be included on one side of the ice tray 100.

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

The user can rotate the ice tray 100 by holding the rotating handle.

The rotation shaft 122 may be provided on one side of the frame 110, and the rotation handle 121 and the ice tray 100 may be connected by the rotation shaft 122.

In addition, a support member 123 for inducing torsional rotation of the ice tray 100 may be provided when a rotational force is applied to the rotation handle 121. The support member 123 may extend from the rotation handle 121 and be connected to one side of the frame 110.

Accordingly, when the rotation handle 121 is rotated, the ice tray 100 rotates around the rotation shaft 122 by a predetermined angle to perform twist rotation.

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 as the ice-making groove 106 is twisted.

That is, it can be seen that as the twist of the ice-making groove 106 increases, the ice becomes easier to separate.

Meanwhile, as the thickness of the ice making groove 106 decreases, the twist of the ice making groove 106 may increase when the ice tray 100 is twisted.

Accordingly, in order to more easily separate ice from the ice-making groove 106, the torsion of the ice-making groove 106 may be maximized by adjusting the thickness of the ice-making groove 106.

As the thickness of the ice-making groove 106 decreases, the degree to which the ice-making groove 106 is twisted increases, thereby increasing the ice-breaking efficiency.

However, as the overall thickness of the ice making groove 106 decreases, the strength of the ice tray 100 may decrease.

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

It is possible to consider a method of greatly improving the effect of twisting by locally thinning only the thickness of the base 101 or the edge portion 103 to which a large amount of rotational force is transmitted.

Hereinafter, it will be described in more detail with reference to FIGS. 2 and 3. In the ice-making groove 106, the base 101 or the edge portion 103 is relatively affected by the torsional rotation than the extension portion 102.

Therefore, as the thickness of the base 101 is reduced, the twist of the base 101 increases, so that the ice may be separated more efficiently. By adjusting only the thickness of the base 101 or the corner portion 103, the ice removal effect can be improved.

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

In addition to the base 101, the edge portion 103 may have a thickness thinner than that of the extension portion 102.

On the other hand, when the ice tray rotates torsional rotation, the magnitude of the force received by each of the ice making grooves 106 may be different. Therefore, the degree of torsion 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 according to the amount of rotational force received by the ice-making groove 106.

This is because if the thickness of the ice making groove 106, which is relatively well twisted, is adjusted to be thin, there is a risk of damage to the ice making groove 106 due to excessive twisting.

That is, only the thickness of the ice making groove 106 in which the torsion is relatively small among the plurality of ice making grooves 106 may be provided to be thinner than that of the other ice making grooves 106.

In this way, by adjusting only the thickness of the ice making groove 106, which has not been well separated, 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.

Referring to FIG. 2 in more detail, the ice-making groove 106 is in a direction perpendicular to the length direction of the first ice-making part 104 and the first ice-making part 104 arranged along the length direction of the rotation axis. It may include the arranged second ice making portion 105.

The first ice making unit 104 may have a smaller degree of torsion than the second ice making unit 105. This is because the rotational force is not easily transmitted to the first ice making unit 104 coaxial with the rotational shaft.

Therefore, according to an embodiment of the present invention, the thickness of the ice making groove 106 of the first ice making part 104 among the plurality of ice making grooves 106 is the thickness of the ice making groove 106 of the second ice making part 105 It can be made thinner.

In this case, the base 101 of the first ice making part 104 may be provided thinner than the base of the second ice making part 105. In addition, the edge portion 103 of the first ice making portion 104 may be thinner than the edge portion 103 of the second ice making portion 105 and 104.

In this way, by locally adjusting the thickness of the ice-making groove 106 according to the position of the ice-making groove 106, the problem of the first ice-making part 104, which is difficult to separate ice, can be solved.

In addition, the thickness of the ice-making groove 106 of the second ice-making part 105 may increase as the vertical distance from the length direction of the first ice-making part 104 increases.

Since the rotational force received increases as the ice-making groove 106 moves away from the first ice-making unit 104 in the vertical direction, it is less difficult to separate ice even if the thickness of the ice-making groove 106 is relatively thick. to be.

Likewise, as the ice-making groove 106 increases a vertical distance from the longitudinal direction of the first ice-making part 104, the base or the edge portion of the ice-making groove 106 may be thinner.

According to another preferred embodiment of the present invention, the thickness of the ice-making groove 106 located on the other side of the frame 110 is the ice-making groove 106 located on one side of the frame 110 on which the rotation handle 121 is provided. It may be thinner than the thickness of ).

This is because the distortion of the ice-making groove 106 decreases as the position of the ice-making groove 106 moves away from the rotation operation unit.

Therefore, it is preferable to increase the twisting efficiency by making the ice making groove 106 thinner as the distance from the rotation operation unit increases.

Even at this time, the thickness of the ice-making groove 106 may be thinly adjusted only in the portion where the force of the rotational force is relatively large.

That is, the corner 103 or the base 101 of the ice making groove 106 located on the other side of the frame 110 is the corner 103 or the base of the ice making groove 106 located on one side of the frame It can be provided thinner than the thickness of (101) part.

On the other hand, it is preferable that the ice making groove 106 is not damaged and has a thickness of 0.8 mm or more and only 1 mm to increase the degree of twist.

In addition, the ice tray 100 is preferably a hydrophobic material. When the ice tray 100 is made of a hydrophobic material, ice ice is made much easier. This is because water is hydrophilic, so if the ice tray 100 is made hydrophobic, the adhesion between the water and the ice making groove 106 may decrease.

100: ice tray 101: base
102: extension 103: corner
104: first ice making unit 105: second ice making unit
106: ice making groove 120: rotation control unit

Claims (12)

frame;
A plurality of ice making grooves provided inside the frame for making ice;
A rotation operation part for separating ice from the plurality of ice making grooves by rotating the frame at one side of the frame; And
A support member provided on one side of the frame and connected to the rotation operation unit to induce a torsional rotation of the ice tray when a rotational force is applied to the rotation operation unit; and
Each of the plurality of ice making grooves,
A base forming a bottom surface of the ice making groove;
An extension part extending upward of the base;
Includes; two surfaces of the extension portion are disposed adjacent to each other to form a corner in a curved surface;
The plurality of ice making grooves are provided with a thinner thickness as they are located farther from one side of the frame,
Each of the plurality of ice-making grooves is an ice tray, characterized in that the thickness of the edge portion or the thickness of the base is thinner than the thickness of the extension portion. delete The method of claim 1,
The rotation operation unit,
A rotating handle for moving the ice by rotating the frame;
Includes; a rotation shaft connecting the rotation handle and the ice tray,
The plurality of ice making grooves,
A first ice making unit arranged along the longitudinal direction of the rotation shaft;
And a second ice making unit arranged in a direction perpendicular to the length direction of the first ice making unit. The method of claim 3,
Ice tray, characterized in that the ice-making groove of the first ice-making part is thinner than the ice-making groove of the second ice-making part. The method of claim 4,
The ice making groove of the second ice making part,
Ice tray, characterized in that the thicker the vertical distance from the longitudinal direction of the first ice making portion. frame;
A plurality of ice making grooves provided inside the frame for making ice;
A rotation operation part for separating ice from the plurality of ice making grooves by rotating the frame at one side of the frame; And
A support member provided on one side of the frame and connected to the rotation operation unit to induce a torsional rotation of the ice tray when a rotational force is applied to the rotation operation unit; and
The ice tray, characterized in that the plurality of ice making grooves are provided with a thinner thickness as they are located farther from one side of the frame. The method of claim 6,
The rotation operation unit,
A rotating handle for moving the ice by rotating the frame;
Includes; a rotation shaft connecting the rotation handle and the ice tray,
The plurality of ice making grooves,
A first ice making unit arranged along the longitudinal direction of the rotation shaft;
And a second ice making unit arranged in a direction perpendicular to the length direction of the first ice making unit. The method of claim 7,
Ice tray, characterized in that the ice-making groove of the first ice-making part is thinner than the ice-making groove of the second ice-making part. The method of claim 7,
The ice making groove of the second ice making part,
Ice tray, characterized in that the thickness of the ice-making groove is thicker as the ice-making groove has a longer vertical distance from the longitudinal direction of the first ice-making unit. The method according to any one of claims 6 to 9,
Ice tray, characterized in that the thickness of the ice making groove is 0.8mm or more and less than 1mm. The method of claim 3,
The support member is an ice tray, characterized in that extending from the rotation handle and connected to one side of the frame. The method of claim 7,
The support member is an ice tray, characterized in that extending from the rotation handle and connected to one side of the frame.

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