KR20200142862A - Water-based ice maker that is harmless to the human body and can make various types of ice - Google Patents

Abstract

The present invention relates to a flowing-type ice maker capable of making ice in various shapes harmless to a human body. According to the present invention, the flowing-type ice maker comprises a condenser, a compressor, a condenser line, a refrigerant line, an ice-making water nozzle unit, an ice-making water supply pipe, and an ice-making unit, wherein the ice-making unit comprises a housing, a through hole, a refrigerant inlet, and a refrigerant outlet. According to the present invention, hygienic ice can be provided to a user.

Description

Water-based ice maker that is harmless to the human body and can make various types of ice}

The present invention relates to a water-flow-type ice maker capable of manufacturing various shapes of ice that is harmless to the human body, and more particularly, to a water-flow-type ice-making apparatus capable of manufacturing various shapes of ice that are harmless to the human body, capable of producing various ice by making ice-making water. About.

In general, an ice-making apparatus is a device that manufactures ice as a refrigerant is moved to an ice-making pipe by a pressure of a compressor and heat exchanged through a condenser.

1 is a view for explaining a conventional ice making apparatus.

Referring to FIG. 1, a conventional ice maker includes a condenser 10 for condensing a refrigerant; A compressor 20 for compressing the vaporized refrigerant; A condenser line 30 transferring the refrigerant compressed from the compressor to a condenser; A refrigerant line 40 for transferring the refrigerant condensed from the condenser to a compressor; An ice-making water nozzle part 50 from which ice-making water is discharged; It is composed of a branch pipe 52 and an ice making unit 70 branched into a plurality of lower portions so that the ice-making water can be discharged toward the inner circumferential surface of the ice-making water supply pipe.

However, the conventional ice making apparatus has a disadvantage in that the manufacturing process is not easy because a plurality of inner and outer members are provided, and the price is high because it is manufactured by plating on a copper material.

In addition, conventional ice making apparatuses use nickel in the welding process, causing a problem in that water quality is contaminated due to harmful nutrient inorganic substances such as heavy metals over time.

The present invention is to solve the above-described problem, wherein the ice-making unit includes a housing whose interior is sealed and empty, and by inserting an inner member into a plurality of through holes formed in one housing, the refrigerant circulating inside the housing is It is an object of the present invention to provide a water-flow-type ice making device capable of manufacturing ice of various shapes that are harmless to the human body that forms the surrounding temperature of the inner member below the freezing point.

However, the object of the present invention is not limited to the above-mentioned object, and another object that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides an ice making apparatus for making ice water, comprising: a condenser for condensing a refrigerant; A compressor for compressing the vaporized refrigerant; A condenser line for transferring the refrigerant compressed from the compressor to a condenser; A refrigerant line for transferring the refrigerant condensed from the condenser to a compressor; An ice-making water nozzle from which the ice-making water is discharged; An ice-making water supply pipe for dropping the ice-making water discharged from the ice-making water nozzle unit; And an ice-making unit through which ice-making water falling from the ice-making water supply pipe is made, wherein the ice-making unit includes a housing consisting of an upper surface, a lower surface, and a side surface and having an inner sealed and empty shape; and a penetrating through the upper surface and the lower surface. A ball; and an inner member fitted into the through hole; and a refrigerant inlet through which refrigerant can enter and exit at a predetermined portion of the side surface; and a refrigerant outlet through which refrigerant can be discharged at another predetermined portion of the side surface. The refrigerant introduced from the refrigerant inlet circulates inside the housing, forming the ambient temperature of the inner member below the freezing point, and then discharged through the refrigerant outlet, and the inner member is located under the ice-making water supply pipe to provide the ice making process. It relates to a water-flow ice making apparatus capable of making ice of various shapes harmless to the human body, characterized in that ice is made by contacting while water flows.

In addition, the present invention is characterized in that a plurality of through-holes penetrating the upper and lower surfaces of the housing are formed so that the ambient temperature of the plurality of inner members is formed below the freezing point using one housing. It relates to a flow-type ice making device capable of.

In addition, the upper, lower, and side surfaces of the housing are made of a plate material and are integrally formed. The through holes formed on the upper and lower surfaces of the housing are formed so that their respective central axes coincide with each other, and the through holes formed on the upper surface are formed to Burring processing can be performed so that the end of the ball comes out upward, and the inner member is inserted inside the burring-processed area by burring processing so that the end of the through hole comes out downward in the through hole formed on the lower surface. It relates to a water-flow ice making device capable of manufacturing ice of various shapes harmless to the human body, characterized in that it loses.

The upper plate forming the upper surface of the housing and the lower plate forming the lower surface of the housing are provided with an upper bent portion formed by bending the upper surface plate to have a predetermined width at the rim of the upper surface plate member, and the upper surface bent portion and the predetermined lower surface thereof The upper bent portion is formed to form a side surface by bonding with the portion butt.

In addition, a bottom bent portion formed by bending to have a predetermined width at the edge of the bottom plate material is further provided, and the top bent portion and the bottom bent portion are formed to form a side surface by bonding the top bent portion and the bottom edge of the bottom bent portion. do.

In addition, a part of the edge of the upper bent portion and a portion of the edge of the lower surface bent portion are bent so that the outer surface 410 and the inner surface 420 of the lower bent portion are mutually formed. Combine them face to face.

In addition, the housing may be manufactured by compression-molding the upper and lower surfaces of a circular pipe with a press to form the pipe in a rectangular or square shape, or by compression-molding a plate and welding.

In addition, in the present invention, a partition member for partitioning the interior left and right is disposed inside the housing to divide the interior of the housing into a left partition and a right partition, wherein one side of the partition member is formed to contact the plate material of the side. And, the other side of the partition member is provided with a refrigerant circulation unit through which the refrigerant circulates by making a gap with the plate member of the side surface, and the refrigerant circulating inside the housing through the refrigerant circulation unit is provided with the left and right side partitions. It relates to a water-flow-type ice making device capable of manufacturing ice of various shapes harmless to the human body, characterized in that it circulates.

In addition, the plurality of through-holes are respectively disposed in the left and right compartments, and an inner member is inserted into the through-holes disposed in the left compartment and the through-holes disposed in the upper compartment. It relates to a flowing water ice making device capable of manufacturing shaped ice.

In addition, a refrigerant inlet and a refrigerant outlet are disposed on opposite sides of the refrigerant circulation unit, the refrigerant inlet is disposed to flow into the left (or right) compartment, and the refrigerant outlet is disposed in the right (or left) compartment. Arranged so as to be introduced, the refrigerant introduced into the left (or right) compartment lowers the temperature of the inner member of the left (or right) compartment, and then circulates and flows into the right (or left) compartment through the refrigerant circulation part. It relates to a water-flow ice making apparatus capable of manufacturing ice of various shapes harmless to the human body, characterized in that the temperature of the inner member of the (or left) compartment is lowered, and then the refrigerant is discharged through the refrigerant outlet.

In addition, the partition member has a space formed therein, and by supplying a high-temperature gas to the inside of the inner mold member to increase the temperature of the ice formed in the inner mold member, characterized in that ice of various shapes harmless to the human body It relates to a water-flow-type ice making device capable of manufacturing.

In addition, the partition member is formed of a partition outer surface portion forming a space therein; and a partition inner surface portion dividing the interior into a left inner surface portion and a right inner surface portion; and the partition inner surface portion is in close contact with one side of the partition outer surface portion. , The other side of the inner surface of the compartment has a gas circulation unit through which the gas can circulate by making a gap with the outer surface of the compartment, and a gas inlet and a gas outlet are disposed on the opposite side of the gas circulation unit, and the gas inlet is the left side The gas outlet is arranged to allow gas to be introduced into the inner surface, and the gas outlet is arranged to discharge the gas from the right inner surface, so that the gas introduced into the left inner surface is introduced to the left inner surface and then the temperature of the left compartment is raised, and the gas circulation It relates to a water-flow-type ice making apparatus capable of manufacturing ice of various shapes harmless to the human body, characterized in that it circulates through the part to the right compartment to raise the temperature of the right compartment and then discharges gas through the gas outlet.

In addition, the cross-section of the inner member of the present invention relates to a water ice making apparatus capable of manufacturing ice of various shapes harmless to the human body, characterized in that the cross section has one of a circle, a star shape, a triangle, and a square.

In addition, the ice-making water nozzle unit is characterized in that the lower portion is divided into a plurality so that the ice-making water can be discharged toward the inner circumferential surface of the ice-making water supply pipe to form a plurality of branch pipes, and the inlet of the branch pipe faces the ice-making water supply pipe. It relates to a water-flow type ice making device capable of manufacturing ice of various shapes that are harmless to the human body.

In addition, a guide member provided inside the ice-making water supply pipe and guiding the ice-making water to the inner wall of the ice-making water supply pipe when the ice-making water is discharged from the ice-making water nozzle unit; It relates to a possible flowing water ice maker.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor may appropriately define the concept of the term in order to describe his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

As described above, according to the present invention, there is an effect of providing a user with hygienic ice by using a single housing to form an ambient temperature of a plurality of inner members below the freezing point, making it easy to manufacture and using stainless steel.

In addition, the present invention can provide the user with ice that is harmless to the human body because nickel (Ni) or copper (Cu) used as the joining member is not exposed by applying a paste to the inside and then welding it in the welding process. It works.

1 is a schematic diagram schematically showing a conventional ice making apparatus.
2 is a schematic diagram schematically showing a water ice making apparatus capable of manufacturing ice of various shapes harmless to a human body according to a preferred embodiment of the present invention.
3 is a side view showing a state in which ice making units of a water-flow-type ice making apparatus capable of manufacturing ice of various shapes harmless to a human body according to a preferred embodiment of the present invention are variously disposed.
4 shows a state in which through-hole drilling is formed in the housing of the ice making unit according to a preferred embodiment of the present invention.
5 shows a state in which burring is formed in a through hole of a housing according to a preferred embodiment of the present invention.
6 shows a state in which a burring is formed in a through hole of a housing and an inner member is coupled to the through hole according to a preferred embodiment of the present invention.
7 is a diagram illustrating a state in which a refrigerant inlet and a gas inlet, a refrigerant outlet and a gas outlet are formed in a housing to which an inner member according to the first embodiment of the present invention is combined, and a partition member is provided.
8 shows a hot gas de-icing method ice making unit formed according to the first embodiment of the present invention.
9 shows a state in which a refrigerant inlet and a refrigerant outlet are formed in a housing to which an inner member according to a second embodiment of the present invention is combined, and a partition member and a heater are provided.
10 illustrates a heater de-icing method ice making unit formed according to a second embodiment of the present invention.
11 is a diagram illustrating various partition member removal methods according to a second embodiment of the present invention.
12 shows the shape of the inner member and ice according to a preferred embodiment of the present invention.
13 shows the structure of the housing of the present invention in detail.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples do not limit the scope of the present invention, but are merely exemplary matters of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and the composition of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

2 is a schematic diagram schematically showing a water-flow ice making apparatus capable of manufacturing ice of various shapes harmless to the human body according to a preferred embodiment of the present invention.

Referring to FIG. 2, an ice making apparatus 100 for making ice-making water according to the present invention includes: a condenser 110 for condensing a refrigerant; A compressor 120 for compressing the vaporized refrigerant; A condenser line 130 for transferring the refrigerant compressed from the compressor to a condenser; A refrigerant line 140 for transferring the refrigerant condensed from the condenser to a compressor; An ice-making water nozzle unit 150 from which the ice-making water is discharged; An ice-making water supply pipe 160 for dropping the ice-making water discharged from the ice-making water nozzle unit; And an ice-making unit 200 through which ice-making water falling from the ice-making water supply pipe is iced.

FIG. 4 shows a state in which through-hole drilling is formed in the housing of the ice making unit according to a preferred embodiment of the present invention.

Referring to FIG. 4, the ice-making unit 200 includes one housing 300 having an upper surface, a lower surface, and a side surface and having a predetermined shape in which the inside is sealed and empty, and includes an upper surface and a lower surface of the housing 300. The and side surfaces are made of a plate material and are integrally formed, and a plurality of through holes 210 penetrating the upper and lower surfaces of the housing are drilled (see a in Fig. 4).

In addition, the through-holes of the ice making unit may be arranged in a plurality or in a single row.

5 shows a state in which a burring is formed in a through hole of a housing according to a preferred embodiment of the present invention.

5, the through hole 210 formed on the upper surface may be burringed so that the end of the through hole comes out upward, and the through hole 210 formed on the lower surface has the end of the through hole downward. Burring processing can be performed so that it comes out (see a in Fig. 5).

In addition, the inner member 220 is coupled to the through hole 210 of the housing or the through hole in which the burring is formed.

6 shows a state in which the burring 301 is formed in the through hole 210 of the housing according to a preferred embodiment of the present invention, and the inner member 220 is coupled to the through hole in which the burring is formed.

6, the through-holes 210 formed on the upper and lower surfaces of the housing are formed so that their respective central axes coincide with each other, and the inner member 220 is inside the through-hole or the burring-processed through-hole. ) Is fitted.

7 shows a state in which the inner member according to the first embodiment of the present invention is provided with a refrigerant inlet and a gas inlet, a refrigerant outlet and a gas outlet, and a partition member in a housing inserted into a through hole.

Referring to FIG. 7, a refrigerant inlet 230 through which a refrigerant can enter and exit a predetermined portion of the housing side; and a gas inlet 250 through which a high-temperature gas can enter and exit a predetermined portion of the housing side. A refrigerant outlet 240 or a gas outlet 260 through which refrigerant and gas can be discharged is formed in another predetermined portion of the housing.

In addition, a partition member 270 for partitioning the interior left and right is disposed inside the housing 300 to divide the interior of the housing into a left partition and a right partition, wherein one side of the partition member 270 is the side surface. And a refrigerant circulation unit 310 through which the refrigerant 330 can circulate by making a gap with the side plate and the other side of the partition member 270 is provided, and is provided with a housing through the refrigerant circulation unit. (300) The refrigerant 330 circulating inside circulates the left compartment and the right compartment.

In more detail, a refrigerant inlet 230 and a refrigerant outlet 240 are disposed on the opposite side of the refrigerant circulation unit 310, and the refrigerant inlet is arranged to flow into the left (or right) compartment. The refrigerant outlet is arranged to flow into the right (or left) compartment, so that the refrigerant introduced into the left (or right) compartment lowers the temperature of the inner member 220 of the left (or right) compartment. The refrigerant is circulated and introduced into the right (or left) compartment through the refrigerant circulation part to lower the temperature of the inner member 220 of the right (or left) compartment, and then the refrigerant is discharged through the refrigerant outlet 240.

In addition, the plurality of through-holes 210 are respectively disposed in the left and right compartments, and the inner member 220 is fitted into the through-holes disposed in the left compartment and the through-holes disposed in the upper compartment.

FIG. 3 is a side view showing a state in which ice-making units of a water-flow-type ice making apparatus capable of manufacturing ice of various shapes harmless to a human body according to a preferred embodiment of the present invention are variously disposed.

3, the refrigerant introduced from the refrigerant inlet circulates inside the housing, forming an ambient temperature of the inner member below the freezing point, and then discharged through the refrigerant outlet, and the inner member is the ice-making water supply pipe It is located in the lower portion of the ice-making water, characterized in that the ice is made by contacting while flowing.

8 is a view showing a hot gas de-icing method ice making unit formed according to the first embodiment of the present invention.

Referring to Figure 8, the ice-making unit 200 is a refrigerant flows through the refrigerant inlet 230 and circulates through the internal refrigerant circulation unit 210 of the housing so that the ambient temperature of the inner member 220 is below the freezing point. After being formed into, it is discharged through the refrigerant outlet 240.

In addition, a gas inlet 250 through which a high-temperature gas can enter and exit a predetermined portion of the side of the ice-making unit; and a gas outlet 260 through which a high-temperature gas can be discharged at another predetermined portion of the side. In addition, the gas introduced through the gas inlet 250 circulates through the internal gas circulation unit 320 of the housing to remove ice formed around the inner member.

FIG. 9 shows a state in which an inlet and an outlet are formed in a housing to which an inner member according to a second embodiment of the present invention is combined, and a partition member and a heater are provided.

9, the partition member 270; A space is formed inside the partition member, and a heater 350 is disposed inside the partition member to increase the temperature of the inner mold member to remove ice formed on the inner mold member.

10 is a diagram illustrating a heater de-icing method ice making unit formed according to a second embodiment of the present invention.

Referring to Figure 10, the ice-making unit 200 flows through the refrigerant inlet 230 and circulates through the internal refrigerant circulation unit 210 of the housing, so that the ambient temperature of the inner member 220 is below freezing point. After being formed into, it is discharged through the refrigerant outlet 240.

In addition, the partition member 270; A space is formed inside the partition member, and a heater 350 is disposed inside the partition member to increase the temperature of the inner mold member to remove ice formed on the inner mold member.

11 is a diagram illustrating various partition member removal methods according to a second embodiment of the present invention.

11, the partition member 270 has a space formed therein, and supplies a gas having a high temperature therein, or a heater 350 is provided inside the partition member 270 to provide an inner member. By increasing the temperature of 220, the ice formed on the inner member 220 may be removed.

In more detail, the partition member 220 includes a partition outer surface portion 271 for forming a space therein; and a partition inner surface portion 272 that divides the interior into a left inner surface and a right inner surface, and The inner side of the compartment is in close contact with the outer side of the compartment, and the other side of the inner side of the compartment has a gas circulation part 320 through which the gas can circulate by making a gap with the outer side of the compartment, and the gas circulation part 320 A gas inlet 250 and a gas outlet 260 are disposed on the opposite side of the ), the gas inlet is disposed so that gas is introduced into the left inner surface, and the gas outlet is disposed so that the gas on the right inner surface is discharged. As a result, after the gas flowing into the left inner surface is introduced into the left inner surface, the temperature of the left compartment is raised, and circulated to the right compartment through the gas circulation unit 320 to increase the temperature of the right compartment. Gas is discharged through the gas outlet 260.

12 is a view showing the shape of the inner member and ice according to a preferred embodiment of the present invention.

Referring to Fig. 12, the cross section of the inner member 220 has a plurality of shapes such as a circle, a star shape, a triangle, and a square (see Fig. 12a).

Therefore, it is possible to manufacture ice of various shapes according to the shape of the inner member 220 (see Fig. 12C).

In addition, the ice-making water nozzle unit 150 is divided into a plurality of lower portions so that the ice-making water can be discharged toward the inner circumferential surface of the ice-making water supply pipe 160 to form a plurality of branch pipes, and the inlet of the branch pipe is Head to the ice water supply pipe.

In addition, a guide member provided inside the ice-making water supply pipe 160 and guiding the ice-making water to the inner wall of the ice-making water supply pipe when the ice-making water is discharged from the ice-making water nozzle unit 150 is further included. 12 b)

13 is a detailed diagram showing the structure of the housing of the present invention.

13(a) shows the structure of the housing according to the third embodiment of the present invention, and FIG. 13(b) shows the structure of the housing according to the fourth embodiment of the present invention, and FIG. (C) shows the structure of the housing according to the fifth embodiment of the present invention.

As shown in (a) of FIG. 13, the housing of the present invention is formed by bending a plate material for an upper surface forming the upper surface of the housing and a plate member for a lower surface forming the lower surface of the housing to have a predetermined width at the rim of the upper surface plate member. The upper surface bent portion is provided, and the upper surface bent portion is formed to form a side surface by bonding the upper surface bent portion to a predetermined portion of the lower surface.

In addition, as shown in (b) of FIG. 13, a lower surface bent portion formed by bending the lower surface plate to have a predetermined width is further provided, and the upper surface is combined with the upper surface bent portion and the lower surface bent portion. The bent portion and the bottom bent portion are formed to form a side surface.

In addition, as shown in (c) of FIG. 13, a part of the edge of the upper bent portion and a portion of the edge of the lower bent portion are bent so as to face the outside, and the inner surface of the upper bent portion 410 And the inner surfaces 420 of the lower surface bent portions are butted to face each other.

Although the present invention has been described in detail through specific examples, this is for explaining the present invention in detail, and the present invention is not limited thereto, and those of ordinary skill in the art within the spirit of the present invention It is clear that the transformation or improvement is possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100 Ice maker 110 Condenser
120 compressor and 130 condenser line
140 Refrigerant line 150 Ice-making water nozzle part
160 Ice-making water supply pipe 200 Ice-making section
210 Through hole 220 Inner member
230 Refrigerant inlet 240 Refrigerant outlet
250 gas inlet 260 gas outlet
270 Division member 271 Division outer surface
272 compartment inner part 300 housing
301 Burring 310 Refrigerant circulation part
320 Gas circulation part 330 Refrigerant
340 high temperature gas 350 heater
360 Ice 410 Inner surface of top bend
420 Inner surface of lower bend

Claims (8)

In the ice making apparatus for making ice water,
A condenser for condensing the refrigerant, a compressor for compressing the vaporized refrigerant, a condenser line for transferring the refrigerant compressed from the compressor to the condenser, a refrigerant line for transferring the refrigerant condensed from the condenser to the compressor, and the ice-making water discharge And an ice-making water nozzle part to be formed, an ice-making water supply pipe for dropping the ice-making water discharged from the ice-making water nozzle part, and an ice-making part for ice making of the ice-making water falling from the ice-making water supply pipe,
The ice-making unit includes a housing having an upper surface, a lower surface, and a side surface and having a constant shape in which the inside is sealed and empty, a through hole penetrating the upper surface and a lower surface, an inner member fitted into the through hole, and a predetermined portion of the side surface. A refrigerant inlet through which the refrigerant can enter and a refrigerant outlet through which refrigerant can be discharged are formed in another predetermined portion of the side surface.
The inner member is located under the ice-making water supply pipe and is in contact with the ice-making water while flowing and ice is made,
A plurality of through-holes penetrating the upper and lower surfaces of the housing are formed so as to form the ambient temperature of the plurality of inner members below the freezing point using one housing,
The top, bottom, and side surfaces of the housing are made of a plate material, characterized in that it is possible to manufacture ice of various shapes harmless to the human body. According to claim 1
Each through hole formed on the upper and lower surfaces of the housing is formed so that each central axis coincides with each other,
The through hole formed on the upper surface can be burringed so that the end of the through hole comes out upward, and the through hole formed on the lower surface is burringed so that the end of the through hole comes out downward, and the burring-processed part The inner member is inserted into the inside of,
In the interior of the housing, a partition member for partitioning the interior left and right is disposed to divide the interior of the housing into a left compartment and a right compartment,
One side of the partition member is formed to come into contact with the plate member on the side, and the other side of the partition member is provided with a refrigerant circulation unit through which the refrigerant circulates by making a gap with the plate member on the side surface, and circulates inside the housing through the coolant circulation unit. The refrigerant circulates between the left and right compartments,
The plurality of through-holes are respectively disposed in the left and right compartments, and an inner member is inserted into the through-holes disposed in the left and right compartments,
A refrigerant inlet and a refrigerant outlet are disposed on the opposite side of the refrigerant circulation unit,
The refrigerant inlet is arranged to flow into the left compartment, and the refrigerant outlet is arranged to flow into the right compartment, so that the refrigerant introduced into the left compartment lowers the temperature of the inner member of the left compartment,
After circulating and flowing into the right compartment through the refrigerant circulation part to lower the temperature of the inner member of the right compartment, the refrigerant is discharged through the refrigerant outlet,
A gas inlet through which a high-temperature gas can enter and exit a predetermined portion of the side of the ice-making unit, and a gas outlet through which a high-temperature gas can be discharged is further provided at another predetermined portion of the side.
A water-flow-type ice making apparatus capable of producing ice of various shapes harmless to a human body, characterized in that the gas introduced from the gas inlet circulates through an internal gas circulation portion of the housing to de-icze the ice formed around the inner member. According to claim 2
The upper plate forming the upper surface of the housing and the lower plate forming the lower surface of the housing
In the human body, characterized in that the upper surface bent portion is formed by bending the upper surface to have a predetermined width at the rim of the upper surface plate, and the upper surface bent portion is formed to form a side surface by buttly coupling the upper surface bent portion and a predetermined portion of the lower surface. Flow-type ice making device capable of manufacturing various shapes of harmless ice. According to claim 3
A bottom bent portion formed by bending to have a predetermined width at the edge of the bottom plate is further provided,
Flow-type ice making apparatus capable of manufacturing ice of various shapes harmless to a human body, characterized in that the upper surface bent portion and the lower surface bent portion are formed to form a side surface by bonding the upper surface bent portion and the lower surface bent portion to form a side surface. According to claim 4
A part of the edge of the top bent portion and a portion of the edge of the bottom bent portion are bent so that the edge of the bottom bent portion faces the inner surface 410 of the top bent portion and the inner surface 420 of the bottom bent portion faces each other. Flow-type ice making device capable of manufacturing ice of various shapes harmless to the human body, characterized in that it is combined to be seen. The method of claim 5,
The cross-section of the inner member has a shape of one of a circular shape, a star shape, a triangle shape, and a square shape, and a water-flow ice making apparatus capable of manufacturing ice of various shapes harmless to the human body. The method of claim 6,
The ice-making water nozzle unit is characterized in that the lower portion is divided into a plurality so that the ice-making water can be discharged toward the inner circumferential surface of the ice-making water supply pipe to form a plurality of branch pipes, and the inlet of the branch pipe faces the ice-making water supply pipe. Flowing water ice making device capable of manufacturing ice of various shapes that are harmless to human body. The method of claim 7,
A guide member provided inside the ice-making water supply pipe and guiding the ice-making water to the inner wall of the ice-making water supply pipe when the ice-making water is discharged from the ice-making water nozzle unit; Flow-type ice maker.

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