KR20160026012A - A Ice Ball Manufacturing Unit and Method Thereof - Google Patents

Abstract

The present invention relates to an ice making device for sealing and a method for manufacturing round ice, wherein a round ice ball can be manufactured. The ice making device comprises: a first semiround ice making container (10) inducing production of first semiround ice; a second semiround ice making container (20) producing second semiround ice; a motor driving device (30) installed in one side of the second semiround ice making container (20); a second water supply device (40) installed in an upper portion of the first semiround ice making container (10); a protrusion portion (A) inducing water for sealing (2) to be loaded in a space portion (20f); and a control device (50) connected to the devices to generate round ice.

Description

Technical Field [0001] The present invention relates to a spherical ice making apparatus and method for sealing a combined ice,

The present invention relates to a spherical ice maker and method for sealing combined use, and more particularly, to a hemispherical ice maker comprising a first hemispherical ice maker and a second hemispherical ice maker, And the second spherical ice-making device is constructed so that an extended protruding portion is formed to have a clearance space so that the spherical ice-making device and the second spherical ice- ≪ / RTI >

The general refrigerator is divided into a freezer compartment and a refrigerating compartment. The refrigerating compartment is maintained at a temperature of about 3 to 4 ° C so that food and vegetables can be kept fresh and stored for a long time. The freezing compartment has a subzero temperature Lt; / RTI >

2. Description of the Related Art [0002] In recent years, a refrigerator has been provided with an ice maker for automatically performing a series of ice-making processes without any user's operation and a dispenser for allowing ice or water to be used outside the refrigerator, Various functions have been added for use.

On the other hand, the ice made in the conventional ice-maker for refrigerator is formed in a half-moon shape because the shape of the ice-making tray of the ice maker is limited.

However, spherical ice is good for the user and good for eating, so there are many suggestions regarding the manufacture of spherical ice.

In International Application No. PCT / JP2001 / 07599, as shown in Fig. 1, a tray member 21 is mounted in a sphere molding die 24 made of heat insulating layers 24a and 24b.

Then, ice can be taken out by withdrawing the upper half 24a of the mold 24.

At this time, the ice is taken out in a state packed with the tray member 21, and after returning to the mold 24 after separating the ice.

The above-described spherical ice producing apparatus includes a tray member 21, a mold 24 separately provided, a tray member 21 separated from the mold 24 when the ice is taken out, There is a hassle.

In addition, it is understood that there is an inconvenience that it is necessary to immerse in ice in order to take out ice.

In order to solve such a problem, Korean Patent Publication No. 10-0781261 discloses an ice-maker for a refrigerator capable of ice-making spherical ice.

2 to 3, the ice-maker for a refrigerator described in the above-mentioned conventional patent will be described as follows.

An ice tray 100 in which a hemispherical first part 110 and a second part 120 are combined to form a spherical shape and ice is produced by supplying water to a hollow part of the ice part, A heater 105 installed along a surface contacting the first part 110 and the second part 120 and a driving part for opening and closing the ice-making tray 100.

The driving unit includes a motor 10 and a wire 12 coupled to the second part 120 to open and close the second part 120. It is preferable that a guide 11 is provided to prevent the wire 12 from being disengaged from the motor 10 when the second part 120 is opened.

A water supply unit 101 for supplying water is formed on the upper portion of the ice-making tray 100. The water supply part 101 may be formed at any position of the ice-making tray 100. However, considering the water supply amount control and the ice shape, the first part 110 and the second part, Most preferably in a cut-away surface to which the heat sink 120 is coupled.

However, in such a structure, when spherical structures formed by combining two hemispherical structures are frozen in a state in which water for icing is filled, ice is generated to the periphery of the hemispherical structure when water is not sealed properly. There was a problem.

In other words, if a small amount of water is frozen in the hemispherical structure, undesired ice is generated outside the hemispherical structure due to freezing of the water, which makes it difficult to separate the spherical structure. There is a problem that the ice ball is formed in a distorted form.

The main reason for the above phenomenon is that the spherical structure is cooled in a state of being filled with water. Accordingly, when the sealing is precisely performed, a perfect spherical ice ball is produced. If the device is used for a long time, The joining portion is loosened and the water is inevitably aggravated.

SUMMARY OF THE INVENTION The present invention is directed to solve the above-mentioned problems, and it is an object of the present invention to provide a spherical ice maker, in which a spherical structure is formed by combining hemispherical structures, So that it is possible to form a perfect spherical ice ball without providing any sealing agent so as to seal the water in the space.

According to the present invention, water is not supplied to the entire space of the spherical structure at one time but water is filled up to the end portion of the extended stone of the second hemispherical ice maker to freeze the hemispherical ice, So that spherical ice is produced, thereby creating a more perfect spherical ice ball.

As means for achieving the above object,

A first hemispherical ice making container 10 having a cooling line and a heating line on the surface thereof and inducing the production of a first hemispherical ice by supplying water through a water hole through an inner space portion; A water supply unit for supplying the water supplied through the water supply hole of the first hemispherical ice-making vessel through the inner space to the second hemispherical ice, A second hemispherical ice making container (20) for producing; When the second hemispherical ice-making container 20 is installed on one side of the second hemispherical type ice-making container 20 and contacts the lower end of the first hemispherical type ice-making container 10 or when the ice is completed, A motor driving device 30 for separating the motor from the motor driving device 30; Water is supplied to the second hemispherical type ice making container 10 through the water supply hole 11 of the first hemispherical type ice making container 10 to water the second hemispherical type ice making container 20, A water supply device (40) for firing water up to the vessel (10) to induce the formation of a perfectly spherical ice ball; An upper outer periphery of the second hemispherical ice maker is formed so that a sealing water mounting space 20f is formed between the lower hemispherical surfaces of the first hemispherical ice maker and sealing water 2 is formed in the space 20f A protrusion (A) for guiding to be mounted; The first hemispherical ice-making container 10 is electrically connected to the first hemispherical ice-making container 10, the second hemispherical ice-making container 20, the drive motor device 30 and the water supply device 40, The water supply device 40 is electrically connected to the cooling line 12 and the heating line 13 and is electrically connected to the cooling line 22 and the heating line 23 of the second hemispherical ice- So that spherical ice is produced from the first hemispherical ice-making container 10 and the second hemispherical ice-making container 20 while the third horizontal surface 20d of the second hemispherical ice- 24) so that the water is supplied to the second hemispherical ice making container, and then the water is continuously supplied to control the supply of water so that the ice of the first hemispherical ice tray is sieved to cool the ice to make spherical ice And when the ice making is completed, the second hemispherical ice-making container (20) And a control device (50) for operating the drive motor device (30) so that ice is separated from the ice container (10).

The protrusion A of the second hemispherical type ice-making container has a first horizontal surface 20a that is in contact with the first hemispherical ice-making container 10, a second horizontal surface 20b that extends a certain length from the first horizontal surface, An inclined surface 20c inclined upward from the second horizontal surface, a third horizontal surface 20d formed horizontally from the inclined surface, and an external auxiliary surface 20d formed downward from the outer end of the third horizontal surface 20e).

The lower end of the first hemispherical ice-making container 10 is connected to a lower horizontal surface 10a of the first hemispherical ice-making container 10 and a second horizontal surface 20a of the second hemispherical ice- The horizontal surface 10a is formed in a triangular protrusion shape (a), a circular protrusion shape (b), or a straight pin shape (c).

The lower end of the first hemispherical ice-making container 10 is constituted by a lower horizontal surface 10a and an extended horizontal surface 10b.

The first hemispherical ice-making container 10 and the second hemispherical ice-making container 20 are in contact with each other at the start of ice-making, and the water- Water is supplied to the second hemispherical type ice making container (20) by supplying water through the water supply hole (11), and water is allowed to flow to the protrusions of the first hemispherical type ice maker and the second hemispherical type ice maker; Thereafter, the cooling line 22 of the second hemispherical type ice-making container 20 is operated to induce the water contained in the second hemispherical type ice-making container 20 to freeze so that the water contained in the space portion of the second hemispherical type ice- 1) is frozen and at the same time the sealing water (2) is frozen to induce a sealing function; Thereafter, the water 3 is further supplied through the first hemispherical ice-making container 10 to freeze the space of the first hemispherical ice-making container 10 by filling it with water. And opening the second hemispherical ice tray downward to operate the ball ice to be dropped downward.

As described above, according to the present invention, one spherical structure is formed by combining hemispherical structures to produce spherical ice balls by adding water for ice-making to the spherical structures, and an extended protrusion is formed to have a gap space in the second hemispherical ice- So that it is possible to form a perfectly spherical ice ball without providing a sealing agent separately.

According to the present invention, water is not supplied to the entire space of the spherical structure at one time but water is filled up to the end portion of the extended stone of the second hemispherical ice maker to freeze the hemispherical ice, To produce spherical ice, thereby creating a more perfect spherical ice ball.

1 to 3 are block diagrams of a conventional ice-ball manufacturing apparatus.
4 is a block diagram of an ice-ball manufacturing apparatus according to the present invention.
5 is a conceptual view of an ice making vessel of the present invention.
6 is an operation diagram in a state where water is firstly supplied to a second ice making container of the present invention.
7 is an operation diagram in a state where water is supplied to the first ice making container of the present invention in a second order.
8 is a view of the second ice tray rotated to remove ball ice in the present invention.
9 is a conceptual diagram illustrating the first ice-making vessel being heated to remove ice.
10 is a view showing a state in which the second ice tray is returned to its original position in the present invention to prepare ball ice.
11 is a first contact surface between a first ice making container and a second ice making container in the present invention.
12 is a block diagram showing a control operation of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

4 is a block diagram of an ice-ball manufacturing apparatus according to the present invention.

5 is a conceptual view of an ice making vessel of the present invention.

6 is an operation diagram in a state where water is firstly supplied to a second ice making container of the present invention.

7 is an operation diagram in a state where water is supplied to the first ice making container of the present invention in a second order.

8 is a view of the second ice tray rotated to remove ball ice in the present invention.

9 is a conceptual diagram illustrating the first ice-making vessel being heated to remove ice.

10 is a view showing a state in which the second ice tray is returned to its original position in the present invention to prepare ball ice.

11 is a first contact surface between a first ice making container and a second ice making container in the present invention.

12 is a control operation block diagram of the present invention,

The constituent elements of the present invention largely consist of a first hemispherical ice making container 10, a second hemispherical ice making container 20, a drive motor device 30, a water supply device 40 and a control device 50 .

The first hemispherical ice making vessel 10 is formed in a hemispherical shape and has a hemispherical space for accommodating water inside. That is, the first hemispherical ice making vessel 10 of the present invention is configured to have a certain thickness and to secure a hemispheric space portion on the inside thereof, and to generate hemispheric ice when the water is put in the space portion. A cooling line 12 is formed on the surface of the first hemispherical ice-making container 10 so that cooling can be performed when water is introduced into the first hemispherical ice-making container 10, And the ice formed in the first hemispherical type ice-making container 10 can be separated from the surface of the first hemispherical type ice-making container 10 to the outside. In addition, a water supply hole 11 is formed in the upper part, and water is supplied through the water supply hole 11.

The second hemispherical type ice-making container 20 has a substantially hemispherical shape substantially the same as the outer shape of the first hemispherical type ice-making container, and has a hemispherical space for accommodating water therein. And the cooling line 22 and the heating line 23 are provided in the same manner as the cooling line 12 and the heating line 13 existing in the main body 10. The protrusion A has a first horizontal surface 20a which is in contact with the first hemispherical type ice making container 10 and a second horizontal surface 20a which is in contact with the first hemispherical type ice making container 10. [ A second horizontal surface 20b extending from the first horizontal surface by a predetermined length, an inclined surface 20c inclined upward from the second horizontal surface, a third horizontal surface 20d formed horizontally from the inclined surface, And an outer auxiliary surface 20e formed downward from the outer end of the third horizontal surface.

In order to form a space through which water flows on the lower horizontal surface 10a of the first hemispherical ice-making container 10 and the first horizontal surface 20a of the second hemispherical ice-making container 10, Are formed in the form of a triangular protrusion, a circular protrusion, or a straight pin to induce a space in which water flows in a horizontal direction. On the contrary, the lower horizontal surface of the first hemispherical type ice-making container 10 may be formed in a flat shape, the first horizontal surface 20a of the second hemispherical type ice-making container 20 may be formed in the shape of a triangular protrusion, It can be guided to form a space portion in which water flows in a horizontal direction.

Further, the lower end of the first hemispherical ice making container 10 can be composed of the lower horizontal surface 10a and the extended horizontal surface 10b, and the sealing can be further strengthened by the extended horizontal surface. That is, since the space for sealing is extended by the extended horizontal surface, the sealing effect is further enhanced.

In addition, the present invention is characterized in that a sealing space 20f is formed between the lower edge of the first hemispherical ice-making container 10 and the inclined surface 20c of the second hemispherical ice-making container 20, 20f are mounted with the sealing water 2. When the sealing water is frozen in the state where the sealing water is mounted, there is no clearance for water to escape to the outside, so that leakage of water is prevented, so that spherical ice can be easily manufactured.

The motor driving device 30 is installed on one side of the second hemispherical type ice making container 20 to bring the second hemispherical type ice making container 20 into contact with the lower end of the first hemispherical type ice making container 10, 1 < / RTI >

The water supply device 40 is installed on the upper part of the first hemispherical type ice making container 10 and supplies water to the second hemispherical type ice making container 20 through the water supply hole 11 of the first hemispherical type ice making container 10 And then water is taken up to the first hemispherical ice tray 10 to induce the formation of a perfectly spherical ice ball.

The control device 50 is electrically connected to the first hemispherical ice making container 10, the second hemispherical ice making container 20, the drive motor device 30 and the water supply device 40, And is electrically connected to the cooling line 12 and the heating line 13 of the ice-making container 10 and also to the cooling line 22 and the heating line 23 of the second hemispherical ice-

The control device 50 controls the water supply device 40 so that spherical ice is produced from the first hemispherical ice-making container 10 and the second hemispherical ice-making container 20. The second hemispherical ice- The water supply amount is adjusted so that the water is supplied only up to the water supply limiting line 24 where the third horizontal surface 20d of the first horizontal surface 20d is present.

The controller 50 is connected to the driving motor unit 30 to supply water to the ice maker to drive the second hemispherical ice maker 20 to contact the first hemispherical ice maker 10, When the production is completed, the second hemispherical type ice-making container 20 is separated from the first hemispherical type ice-making container 10 so that the ice is removed.

Hereinafter, the overall operation of the present invention will be described.

The first hemispherical type ice making container 10 and the second hemispherical type ice making container 20 are in contact with each other so that the first hemispherical type ice making container 10 and the second hemispherical type ice making container 20 are coupled to each other. Water is supplied through the upper water supply hole (11) of the vessel (10) to allow water to flow into the second hemispherical ice making container (20).

Thereafter, the cooling line 22 of the second hemispherical ice-making container 20 is operated to induce the water contained in the second hemispherical ice-making container 20 to freeze.

Then, the water 1 contained in the space portion of the second hemispherical ice-making container 20 is frozen, and at the same time, the sealing water 2 freezes and functions as a sealing member. That is, the sealing water freezes outside the contact surface between the first hemispherical ice-making container 10 and the second hemispherical ice-making container 20, so that the water can be prevented from being taken out to the outside.

Thereafter, when all the water in the second hemispherical ice-making container 20 is frozen, the water 3 is further supplied through the first hemispherical ice-making container 10 to fill the space of the first hemispherical ice-making container 10 with water .

At this time, since the sealing water 2 is frozen, even if the first hemispherical ice-making container 10 is filled with the water 3, there is no fear of the cell.

This is different from the conventional art. In the prior art, since hemispherical structures are combined to form a single spherical structure, water is collected on the joint surface since the whole space is immediately filled with water. However, In the state where there is water in the remaining space part, water is never counted from the bonding surface.

As a result, the use of the present invention can produce spherical ice of high quality, so that spherical ice can be produced quickly and accurately. Moreover, since ball-shaped ice is produced as water is supplied, one of them can provide ball- The effect will be provided.

10: first hemispherical ice tray
20: second hemispherical ice tray
30: drive motor device
40: water supply device
50: Control device

Claims (5)

A first hemispherical ice making container 10 having a cooling line and a heating line on its surface and supplying water through a water hole through an inner space to induce the production of a first hemispherical ice;
A water supply unit for supplying the water supplied through the water supply hole of the first hemispherical ice-making vessel through the inner space unit to the water supply unit to freeze the second hemispherical ice, A second hemispherical ice making container (20) for producing;
When the second hemispherical ice-making container 20 is installed at one side of the second hemispherical type ice-making container 20 and contacts the lower end of the first hemispherical type ice-making container 10 or when the ice is completed, A motor driving device 30 for separating the motor from the motor driving device 30;
Water is supplied to the second hemispherical type ice making container 10 through the water supply hole 11 of the first hemispherical type ice making container 10 to water the second hemispherical type ice making container 20, A water supply device (40) for firing water up to the vessel (10) to induce the formation of a perfectly spherical ice ball;
An upper outer periphery of the second hemispherical ice maker is formed so that a sealing water mounting space 20f is formed between the lower hemispherical surfaces of the first hemispherical ice maker and sealing water 2 is formed in the space 20f A protrusion (A) for guiding to be mounted;
The first hemispherical ice-making container 10 is electrically connected to the first hemispherical ice-making container 10, the second hemispherical ice-making container 20, the drive motor device 30 and the water supply device 40, The water supply device 40 is electrically connected to the cooling line 12 and the heating line 13 and is electrically connected to the cooling line 22 and the heating line 23 of the second hemispherical ice- So that spherical ice is produced from the first hemispherical ice-making container 10 and the second hemispherical ice-making container 20 while the third horizontal surface 20d of the second hemispherical ice- 24) so that the water is supplied to the second hemispherical ice making container, and then the water is continuously supplied to control the supply of water so that the ice of the first hemispherical ice tray is sieved to cool the ice to make spherical ice And when the ice making is completed, the second hemispherical ice-making container (20) And a control device (50) for operating the drive motor device (30) so that ice is separated from the ice container (10). The method according to claim 1,
The protrusion (A) of the second hemispherical type ice-making container
A first horizontal surface 20a which is in contact with the first hemispherical type ice making container 10 and a second horizontal surface 20b which extends from the first horizontal surface by a predetermined length and an inclined surface 20c which is inclined upward from the second horizontal surface , A third horizontal surface (20d) formed horizontally from the inclined surface, and an external auxiliary surface (20e) formed in a downward direction from an outer end of the third horizontal surface. The method according to claim 1,
The lower horizontal surface 10a of the first hemispherical type ice-making container 10 and the lower horizontal surface 10a of the first hemispherical type ice-making container 10 are formed so as to be able to form a space where water flows on the first horizontal surface 20a of the second hemispherical ice- 10a is formed into a triangular protrusion shape (a), a circular protrusion shape (b), or a straight pin shape (c). The method according to claim 1,
Wherein the lower end of the first hemispherical ice-making container (10) comprises a lower horizontal surface (10a) and an extended horizontal surface (10b). The first hemispherical ice-making container 10 and the second hemispherical ice-making container 20 are in contact with each other at the start of ice-making and the water supply device 40 is controlled to connect the first hemispherical ice- Water is supplied to the second hemispherical ice-making container (20) by supplying water through the second hemispherical ice maker (11), and water is allowed to flow to the protrusions of the first hemispherical type ice maker and the second hemispherical type ice maker;
Thereafter, the cooling line 22 of the second hemispherical type ice-making container 20 is operated to induce the water contained in the second hemispherical type ice-making container 20 to freeze so that the water contained in the space portion of the second hemispherical type ice- 1) is frozen and at the same time the sealing water (2) is frozen to induce a sealing function;
Thereafter, the water 3 is further supplied through the first hemispherical ice-making container 10 to freeze the space of the first hemispherical ice-making container 10 by filling it with water.
And opening the second hemispherical ice making container downward to operate the ball ice to be dropped downward.

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