KR101880231B1 - Equipment for manufacturing ice with a different color or different kind of interposition - Google Patents

Abstract

The present invention relates to an ice making apparatus in which a dichromatic or heterogeneous insert capable of mass production of ice containing a dichromatic or heterogeneous insert which can be taken in is contained inside.
The present invention relates to an apparatus for producing ice with an insert contained therein, the apparatus comprising: a first rail; A second rail disposed parallel to the first rail at a predetermined distance; A lower rail disposed between the first rail and the second rail and having a lower end rotatably connected to the first rail rotatably to vertically rotate the lower rail to form lower ice, part; A lower rail disposed between the first rail and the second rail and disposed at a rear end of the lower ice freezing section, and a lower end rotatably connected to the first rail rotatably up and down, An inserting water cooling unit for discharging the water to the backward and downward direction; A first rail disposed at a rear end of the inserted water cooling unit, and a lower end rotatably connected to the first rail so as to be vertically rotatable, An upper ice freezing unit for discharging the ice to the lower part; And a second rail disposed between the first rail and the second rail so as to be able to move left and right along the second rail and to move downward from the lower ice freezing unit, the inserted water cooling unit and the upper ice freezing unit, And a main ice freezing portion in which ice is sequentially stacked in the inside, the raw ice material is injected, and then the ice is frozen to form ice contained in the insert. [5] The ice making machine according to claim 1, Make the device a technical point.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ice-

The present invention relates to an ice making apparatus in which a dichromatic or heterogeneous insert capable of mass production of ice containing a dichromatic or heterogeneous insert which can be taken in is contained inside.

Generally, the ice maker is a device for producing ice having a shape corresponding to the freezing space by freezing the tray so that the water injected into the tray having water is provided in a plurality of freezing spaces.

Such a conventional ice maker has been mainly developed for a structure capable of easily manufacturing a large amount of ice corresponding to a freezing space provided in a tray. Therefore, the ice produced by the conventional ice maker is mostly in a simple form.

In recent years, efforts have been made to develop an ice-maker capable of producing ice having a different or different type of insert inserted therein in order to provide functionality to ice by simply leaving the ice.

However, there is a problem that the ice maker structure for manufacturing the ice into which the insert is inserted is well established, mass production is not possible, and the insert can not be variously changed.

Korean Registered Patent Bulletin No. 2014.03.10 Registration.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an ice-colored or heterogeneous insert capable of mass- And it is an object of the present invention to provide an ice making apparatus included inside.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to another aspect of the present invention, there is provided an apparatus for manufacturing an ice containing an insert, the apparatus including a dichromatic or heterogeneous insert according to the present invention, the apparatus comprising: a first rail; A second rail disposed parallel to the first rail at a predetermined distance; A lower rail disposed between the first rail and the second rail and having a lower end rotatably connected to the first rail rotatably to vertically rotate the lower rail to form lower ice, part; A lower rail disposed between the first rail and the second rail and disposed at a rear end of the lower ice freezing section, and a lower end rotatably connected to the first rail rotatably up and down, An inserting water cooling unit for discharging the water to the backward and downward direction; A first rail disposed at a rear end of the inserted water cooling unit, and a lower end rotatably connected to the first rail so as to be vertically rotatable, An upper ice freezing unit for discharging the ice to the lower part; And a second rail disposed between the first rail and the second rail so as to be able to move left and right along the second rail and to move downward from the lower ice freezing unit, the inserted water cooling unit and the upper ice freezing unit, And a main ice freezing portion which is formed by sequentially laminating ice, injecting a raw material of ice, and freezing the ice to form ice contained in the insert.

The ice making apparatus including the dichromatic or heterogeneous insert according to the present invention according to the present invention can rapidly and conveniently mass-produce ice into which ice or a different or different kind of insert is inserted, Depending on the shape, logos and the like can be displayed outside the ice, so it is possible to give the ice a functionality and expect an effect such as advertisement and the like.

Figs. 1 and 6 illustrate an ice making apparatus in which a dichromatic or heterogeneous insert according to a preferred embodiment of the present invention is contained inside. Fig.
The present invention relates to an ice making apparatus and a method of manufacturing ice using the ice making apparatus.

The present invention relates to an ice making apparatus in which a dichromatic or heterogeneous insert having a shape such as a logo or the like is contained in the inside of a dichromatic or heterogeneous insert capable of mass production of ice contained therein.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an ice making apparatus including a dichromatic or heterogeneous insert according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 6, an ice making apparatus including a dichromatic or heterogeneous insert according to a preferred embodiment of the present invention includes a first rail 10, a second rail 20, a lower ice freezing unit 30, an inserted water cooling section 40, an upper ice freezing section 50, and a main ice freezing section 60.

The first rail 10 is installed horizontally along the lower ice chiller 30, the water cooling unit 40 and the upper ice chiller 50 to be installed in the lower ice chiller 30 and the water cooling unit 40 and the upper end of the upper ice freezing section 50 are rotated.

That is, the first rails 10 are arranged at the upper and lower sides so that the lower ice, the insert, and the upper ice, which are frozen in the lower ice freezing section 30, the inserted water cooling section 40 and the upper ice freezing section 50, respectively, Direction of rotation.

Next, the second rail 20 is installed parallel to one side of the first rail 10 at a predetermined distance to guide the left and right movement and rotation of the main ice freezing unit 60.

That is, the lower part of the second rail 20 is frozen in the lower ice freezing part 30, the inserted water-cooled part 40 and the upper ice freezing part 50, The left and right movement of the main ice freezing section 60 is guided so that the main ice freezing section 60 is sequentially housed in the main ice storage section 60. The lower ice and the insert and the upper ice are integrally frozen And the upright rotation of the main ice freezing unit 60 is guided so that the inserted ice is discharged to the outside.

Next, the lower ice freezing unit 30 is installed between the first rail 10 and the second rail 20 to spray clear water or the like, which serves as a raw material of ice, and rapidly freeze the lower ice to form lower ice.

1, the lower ice refrigerator 30 may include a lower ice refrigeration tray 31, a first nozzle 32, and a first refrigeration coil 33. In this case,

The lower ice freezing tray 31 is provided with a plurality of lower ice freezing spaces 31a which are upper and lower openings which form a lower ice forming frame. The first nozzle 32 is installed below the lower ice freezing tray 31 and injects the ice material into the lower ice freezing space 31a. The first freezing coil 33 is installed on the upper side of the lower ice freezing tray 31 to freeze the ice material injected into the lower ice freezing space 31a to form lower ice.

However, the first freezing coil 33 has a function of defrosting so that the lower ice is discharged downward from the lower ice freezing space 31a after the lower ice is formed. That is, the first freezing coil 33 performs a freezing function when the refrigerant flows into the first freezing coil 33 and performs a defrosting function when the hot gas flows into the first freezing coil 33. Accordingly, the lower ice is momentarily separated from the lower ice freezing tray 31 by the instantaneous thawing function of the first freezing coil 33, and is discharged downward.

The first nozzle 32 is connected to the second rail 20 so as to be rotatable up and down. 3, the first nozzle 32 is rotated downward and vertically before the lower ice is discharged from the lower ice freezing tray 31, so that the lower ice, which is separated from the lower ice freezing tray 31, And is received in the main ice freezing section (60) without disturbance of the main ice storage section (31).

The inserted water cooling unit 40 is disposed between the first rail 10 and the second rail 20 and disposed at the rear end of the lower ice freezing unit 30 to spray the raw material of the insert and rapidly freeze, .

For this, the insertion water cooling unit 40 may include an insert freezing tray 41, a second nozzle 42, and a second freezing nozzle 43, as shown in FIG.

The insert freezing tray (41) is provided with a plurality of insert freezing spaces (41a) which are upper and lower openings which form a mold of an insert. That is, the shape of the insert can be variously configured according to the shape of the insert freezing space 41.

The second nozzle 42 is installed on the lower side of the insert freezing tray 41 and injects the insert material into the insert freezing space 41a. The second freezing coil 43 is installed on the upper side of the insert freezing tray 41 to freeze the insert material injected into the insert freezing space 41a to form an insert.

At this time, the material of the insert may be made of a color different from that of the raw material of the ice, or may be exposed to the outside while being inserted into the ice. It is composed of materials that can be consumed like ice ingredients and can be taken with ice.

That is, the insert may be made of jelly, solid, or solid such as ice, lower ice and other syrups, juices, health and functional foods with different transparency from the lower ice.

However, the second freezing coil 43 has a defrosting function so that the insert can be discharged downward from the insert freezing space 41a after the insert is formed. That is, the second freezing coil 43 performs a freezing function when the refrigerant flows into the second freezing coil 43 and performs a defrosting function when the hot gas flows into the second freezing coil 43. Therefore, the insert is instantaneously separated from the insert freezing tray 41 by the instantaneous thawing function of the second freezing coil 43 and discharged downward.

The second nozzle 42 is connected to the second rail 20 so as to be rotatable up and down. 4, when the second nozzle 42 is vertically rotated downward before the insert is discharged from the insert freezing tray 41, the insert removed from the insert freezing tray 41 is inserted into the second nozzle 42 And is accommodated on the lower ice inside the main ice freezing section (60) without interruption.

Next, the upper ice freezing part 50 is installed between the first rail 10 and the second rail 20 to spray clear water or the like, which serves as a raw material of ice, and rapidly freeze the ice to form upper ice.

For this, the upper ice freezing section 50 may be composed of an upper ice freezing tray 51, a third nozzle 52 and a third freezing coil 53, as shown in FIG.

The upper ice freezing tray (51) is provided with a plurality of upper ice freezing spaces (51a) which are upper and lower openings which form upper ice forming frames. The third nozzle 52 is installed below the upper ice freezing tray 51 and injects the ice material into the upper ice freezing space 51a. The third freezing coil 53 is installed above the upper ice freezing tray 51 to freeze the ice material injected into the upper ice freezing space 51a to form the upper ice.

However, the third freezing coil 53 has a function of defrosting the upper ice to be discharged downward from the upper ice freezing space 51a after the upper ice is formed. That is, the third freezing coil 53 performs a freezing function when the refrigerant flows into the third freezing coil 53 and performs a defrosting function when the hot gas flows into the third freezing coil 53. Accordingly, the upper ice is instantaneously separated from the upper ice freezing tray 51 by the momentary thawing function of the third freezing coil 53 and discharged downward.

Further, the third nozzle 52 is rotatably connected to the second rail 20 up and down. 5, the third nozzle 52 is rotated vertically downward before the upper ice is discharged from the upper ice freezing tray 51, and the upper ice, which is separated from the upper ice freezing tray 51, Is accommodated in the interior of the main ice freezing section (60) without interfering with the main body (52).

The main ice freezing unit 60 is moved horizontally along the second rail 20 between the first and second rails 10 and 20 so that the lower ice freezing unit 30 and the water- The lower ice, the insert, and the upper ice, which are discharged downward from the upper ice storage unit 40 and the upper ice storage unit 50, are received in order.

The main ice freezing unit 60 moves to the rear end of the upper ice freezing unit 50 in a state where the lower ice, the insert, and the upper ice are accommodated in order, and the lower ice, the insert, and the upper ice are integrally frozen The second rail 20 rotates downward, and the frozen insert discharges the ice contained therein.

6, the main ice tray 60 may include a main ice tray 61, a fourth nozzle 62, and a fourth freeze coil 63.

The main ice tray 61 includes a plurality of main ice freezing spaces 61a, which are installed on the second rail 20 so as to be capable of moving left and right and up and down, and in which the lower ice, the insert and the upper ice are received in turn, .

6, the fourth nozzle 62 is installed on the upper rear side of the upper ice freezing unit 50 to spray the lower ice contained in the main ice tray 61, the ice material for freezing the insert and the upper ice integrally, .

As shown in FIG. 7, the fourth freezing coil 63 is installed below the fourth nozzle 62 to freeze the lower ice, the insert, and the upper ice integrally using the ice material sprayed to the main ice tray 61 The insert is to form the ice contained therein.

Therefore, while the main ice tray 61 is moved to the rear end of the upper ice freezing section 50, the ice, which is frozen in the main ice freezing space 61a as shown in FIG. 8, It is possible to rapidly mass-produce the ice in which the insert is contained in an automated manner.

When the ice in the main ice tray 61 is completely discharged, the main ice tray 61 moves to the front end of the lower ice tray 31 again, .

Since the log including the insert manufactured as described above is displayed on the outside of the ice as it is due to the shape and color of the insert, it is expected that the ice can be improved in functionality and advertisement.

Here, the first freezing coil 33, the second freezing coil 43, the third freezing coil 53, and the fourth freezing coil 63 may be continuously installed on the left and right sides or may be installed independently as described above .

When the first freezing coil 33, the second freezing coil 43, the third freezing coil 53, and the fourth freezing coil 63 are continuously installed, a partition wall is provided between the first freezing coil 33 and the second freezing coil 43, And the hot gas are supplied separately.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

10: first rail
20: second rail
30: lower ice freezing section
31: Lower ice freezing tray
32: First nozzle
33: first freezing coil
40: Insertion water cooling
41: Inserts frozen tray
42: second nozzle
43: second freezing coil
50: Upper ice freezing section
51: Upper ice freezer tray
52: Third nozzle
53: third freezing coil
60: main ice freezing section
61: main ice freezing tray
62: fourth nozzle
63: fourth freezing coil

Claims (7)

An apparatus for producing ice in which an insert is contained,
A first rail;
A second rail disposed parallel to the first rail at a predetermined distance;
A lower rail disposed between the first rail and the second rail and having a lower end rotatably connected to the first rail rotatably to vertically rotate the lower rail to form lower ice, part;
A lower rail disposed between the first rail and the second rail and disposed at a rear end of the lower ice freezing section, and a lower end rotatably connected to the first rail rotatably up and down, An inserting water cooling unit for discharging the water to the backward and downward direction;
A first rail disposed at a rear end of the inserted water cooling unit, and a lower end rotatably connected to the first rail so as to be vertically rotatable, An upper ice freezing unit for discharging the ice to the lower part; And
The lower ice, the insert and the upper ice, which are installed between the first rail and the second rail to move left and right along the second rail and are discharged downward from the lower ice freezing unit, the inserted water cooling unit and the upper ice freezing unit, And a main ice freezing part for forming an ice contained in the insert by freezing the ice raw material after spraying the ice raw material, characterized in that the ice- . The method according to claim 1,
The insert material
Wherein the ice material is different in material or color from the ice material. The method according to claim 1,
The lower ice-
A lower ice freezing tray provided with a plurality of lower ice freezing spaces with upper and lower openings;
A first nozzle installed on the lower side of the lower ice freezing tray and having one end connected to the first rail so as to be rotatable up and down and injecting the ice material into the lower ice freezing space; And
And a first freezing coil installed on the lower ice freezing tray for freezing or thawing the ice raw material injected into the lower ice freezing space. [5] The ice making machine according to claim 1, Device. The method according to claim 1,
The insert freezer
An insert freezing tray provided with a plurality of insert freezing spaces with upper and lower openings;
A second nozzle installed on the lower side of the insert freezing tray and having one end rotatably connected to the first rail so as to be rotatable up and down, and injecting an insert material into the insert freezing space; And
And a second freezing coil provided on the upper side of the insert freezing tray for freezing or thawing the insert material injected into the insert freezing space. The method according to claim 1,
The upper ice-
An upper ice freezing tray provided with a plurality of upper ice freezing spaces having upper and lower openings;
A third nozzle installed at a lower side of the upper ice freezing tray and connected at one end to the first rail so as to be rotatable up and down, and injecting the ice material into the upper ice freezing space; And
And a third refrigeration coil installed above the upper ice freezing tray for freezing or thawing the ice raw material injected into the upper ice freezing space. [5] The ice making machine according to claim 1, Device. The method according to claim 1,
The main ice-
The lower ice, the insert, and the upper ice discharged from the lower ice freezing unit, the inserted water cooling unit, and the upper ice freezing unit, respectively, horizontally movably along the second rail between the first and second rails, A main ice tray which is stacked in order inside;
A fourth nozzle installed at a rear end of the upper ice freezing part and spraying the ice material for freezing the lower ice, the insert, and the upper ice integrally with the main ice tray; And
And a fourth refrigeration coil installed below the fourth nozzle to integrally freeze the lower ice, the insert, and the upper ice by using the ice raw material sprayed to the main ice tray to form ice contained in the insert And the ice is inserted into the ice. The method according to claim 6,
The main ice tray
Wherein the second ice is rotated downward on the second rail in a state of moving to a rear end of the upper ice freezing part, and then the ice contained in the insert is discharged to the outside. Device.

Images