KR20170077363A - Device for manufacturing a ice ball - Google Patents

Abstract

The present invention relates to an ice ball manufacturing apparatus capable of mass-producing ice balls in a ball-shaped ice ball by heating a rectangular ice having a predetermined thickness by a single operation process, In the ice-ball manufacturing apparatus,

An upper mold formed with a plurality of upper ball generating grooves having a magnetic cross section and heated by an external heat source,

And a lower mold generating grooves facing the upper-ball generating grooves and having a magnetic cross-section and being heated by an external heat source, wherein rectangular ice is interposed between the upper mold and the lower mold, The mold and the lower mold are interlocked with each other to heat the rectangular ice, and the spherical ice ball is formed between the upper and lower ball generating grooves pressed against each other.

Description

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

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an ice-ball manufacturing apparatus for manufacturing ice-shaped ice-shaped products using rectangular ice having a predetermined thickness.

Recently, the demand for ball type ice used for special purpose is increasing.

As a method for manufacturing ball-shaped ice (hereinafter, referred to as 'ice ball'), Korean Patent Laid-Open Publication No. 2015-0134809, Korean Laid-Open Patent No. 2015-0134815, and Korean Laid-Open Patent Publication No. 2015-0134808 And the like.

The Korean patent discloses devices that generate hemispherical ice and then generate the remaining hemispherical ice on the generated hemispherical ice to generate a perfect spherical ice.

However, since the above-mentioned 'Korean patents' have to undergo a number of work processes, the manufacturing process is complicated and ice balls can not be produced in large quantities.

An object of the present invention is to provide an ice ball manufacturing apparatus capable of mass-producing ice balls in a ball-shaped ice ball in a single operation process by heating and pressing rectangular ice having a predetermined thickness.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

According to an aspect of the present invention, there is provided an ice-

An upper mold formed with a plurality of upper ball generating grooves having a magnetic cross section and heated by an external heat source,

And a lower mold generating grooves facing the upper-ball generating grooves and having a magnetic cross-section and being heated by an external heat source, wherein rectangular ice is interposed between the upper mold and the lower mold, The mold and the lower mold are interlocked with each other to heat the rectangular ice, and a spherical ice ball can be manufactured between the upper and lower ball generating grooves pressed against each other.

Specifically, the ice-making apparatus further includes a main body for supporting the upper mold and the lower mold, the main body including: a lower panel; An intermediate panel disposed on an upper side of the lower panel; An upper panel disposed on an upper side of the intermediate panel; A movable panel disposed between the intermediate panel and the upper panel; And a pressurizing cylinder mounted on a lower surface of the upper panel to move up and down the moving panel. An upper surface of the upper mold is fixedly mounted on a lower surface of the moving panel, and a lower surface of the lower mold is fixed on an upper surface of the middle panel. And the upper surface of the movable panel can be fitted with a pressurized cylinder rod extension end of the pressurizing cylinder which is extended toward the intermediate panel side and contracted toward the upper panel side.

More specifically, the lower panel and the middle panel are spaced apart by a support connecting the upper surface of the lower panel and the lower surface of the middle panel, and the middle panel and the upper panel connect the upper surface of the middle panel to the lower surface of the upper panel The guide rail may be spaced apart from the guide rail, and a guide hole may be formed in the movable panel so as to be guided along the guide rail.

Specifically, the upper mold and the lower mold may be heated by hot water circulating through the upper mold and the lower mold, or by heating means embedded in the upper mold and the lower mold while generating heat by electric energy.

More specifically, the upper mold and the lower mold may be formed with a plurality of heating holes passing through the upper mold and the lower mold from one side to the other side, respectively, so that the hot water circulates or the heating means is embedded.

Specifically, the upper ball-generating grooves are formed through the upper ball-generating grooves and the upper surface of the upper mold, and the upper surface of the upper mold and the lower surface of the moving panel are spaced apart from each other between the upper mold and the moving panel. And may be fixedly mounted with the gap retaining piece interposed therebetween.

Specifically, a plurality of upper discharge flow grooves are formed between the upper-ball generating grooves while having a "∩" -shaped section on the lower surface of the upper metal mold, and a lower ball is formed on the upper surface of the lower metal mold with a " The upper discharge flow grooves are formed to extend from one side and / or one end to the other end of the upper mold, and the lower discharge flow grooves extend from one side of the lower mold to the other side and / Or may extend from one end to the other end.

Specifically, the ice-making device further includes an ice-making part for releasing the ice ball produced in the lower-ball-generating groove from the lower mold, the ice-making part penetrating the lower mold and the intermediate panel through the lower- A plurality of ice pins extending vertically to the panel side; And an ice cylinder mounted on an upper surface of the lower panel for lifting and lowering the ice pins. The ice pins are connected to an ice cylinder rod of the ice-rolling cylinder which extends toward the lower surface of the intermediate panel and contracts toward the lower panel, .

Specifically, the upper end of the pins may have a curvature smoothly connected to the curvature formed by the lower ball forming grooves, and the lower discharge channel may be formed to pass from the upper end to the lower end of the pin.

More specifically, a flange is formed on the upper end and the outer peripheral surface of the pin, and a flange groove on which the flange is seated may be formed in the lower ball generating groove.

Specifically, the extending end of the ice cylinder rod is mounted on the lower surface of a horizontal plate-shaped ice-making panel disposed on the lower side of the intermediate panel, and the ice-breaking pins passing through the intermediate panel extend through the ice- And a locking ring in which the lower surface extends over the upper surface of the unloading panel.

Specifically, a nut is fastened to the lower end of the idle pins passing through the ice panel, and a compression coil spring can be interposed between the respective nuts and the lower surface of the ice panel.

As described above, since the ice-ball manufacturing apparatus according to the present invention produces a ball-shaped ice ball by heating and pressing rectangular ice having a predetermined thickness, it is possible to manufacture a large number of ice balls in a single operation process There is an advantage to have.

In addition, the ice ball manufacturing apparatus according to the present invention is advantageous in that the ice ball can be easily detached from the lower mold because the ice ball manufacturing apparatus includes the ice making unit that removes the ice ball generated in the lower mold.

1 is a view showing an ice-ball manufacturing apparatus according to the present invention,
Figure 2 is a view of the upper die shown in Figure 1,
Figure 3 is a view of the lower die shown in Figure 1, and
Figs. 4A to 4C are diagrams showing the operating state of the ice-breaking means shown in Fig. 1. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 to 4C are diagrams showing an ice-ball manufacturing apparatus according to the present invention. The ice-making apparatus 100 according to the present invention cooperates with rectangular ice (R shown in FIG. 4A) An upper mold 130 and a lower mold 150 for generating a pressurized ice ball I (see FIG. 4C), and an ice-making unit 170 for releasing the ice ball I generated in the lower mold 150 do.

Here, the length of the thickness of the rectangular ice (R) has a length equal to or greater than the length of the diameter of the ice ball (I) to be manufactured.

The apparatus 100 for manufacturing an ice ball according to the present invention further includes an upper mold 130, a lower mold 150 and a body 110 supporting the ice making part 170.

First, the main body 110 includes a lower panel 112, an intermediate panel 114, and an upper panel 116 provided in a rectangular plate shape. The main body 110 further includes a movable panel 118 having a rectangular flat plate shape disposed between the intermediate panel 114 and the upper panel 116 and moving up and down.

1, an intermediate panel 114 is disposed on the upper side of the lower panel 112 and an upper panel 116 is disposed on the upper side of the intermediate panel 114 . And a moving panel 118 is disposed between the middle panel 114 and the top panel 116.

The lower panel 112 and the middle panel 114 are spaced apart from each other by a vertical support 120 connecting the upper surface of the lower panel 112 and the lower surface of the middle panel 114, And the upper panel 116 are spaced apart by a guide rail 122 connecting the upper surface of the middle panel 114 and the lower surface of the upper panel 116.

The support rods 120 are arranged to connect the respective corner portions of the lower panel 112 and the respective corner portions of the middle panel 114 and similarly the guide rails 122 are arranged to connect the respective edge portions of the middle panel 114 And is arranged so as to be able to connect the corner portions and the respective corner portions of the upper panel 116.

A guide hole 124 is formed at each corner of the movable panel 118 so as to be slidably fitted in the guide rail 122 and guided along the guide rail 122. The movable panel 118 is pressed And is operated to move up and down along the guide rail 122 by the cylinder 126.

The pressurizing cylinder 126 is mounted on the lower surface of the upper panel 116 so that the pressurizing cylinder rod 128 is extended toward the middle panel 114 side and contracted toward the upper panel 116 as shown in Fig. An extended end of the cylinder rod 128 is mounted on the upper surface of the movable panel 118.

A conventional caster C may be mounted on the lower surface of the lower panel 112 to allow the ice ball manufacturing apparatus 100 according to the present invention to be easily moved. A controller box B having a controller for controlling the operation of the ice-ball manufacturing apparatus 100 according to the present invention may be disposed.

An upper mold 130, a lower mold 150, and an unloading portion 170 are disposed on the body 110 formed as described above.

The upper mold 130 and the lower mold 150 are provided in the form of a hexahedron block having a predetermined thickness.

The upper mold 130 is fixedly mounted on the lower surface of the moving panel 118 such that the lower surface of the upper mold 130 faces the upper surface of the lower mold 150. The upper surface of the lower mold 150 is fixed to the lower surface of the upper mold 130 The upper mold 130 and the moving panel 118 are fixedly mounted at a predetermined spacing S and the upper mold 130 and the lower mold 130 are fixedly mounted on the upper surface of the intermediate panel 114, The upper mold 130 and the movable panel 118 are coupled with each other with the gap retaining piece 146 interposed between the upper surface of the movable panel 118 and the lower surface of the movable panel 118.

The upper mold 130 and the lower mold 150 are heated by an external heat source when manufacturing the ice ball I and are interlocked with each other to form rectangular ice R interposed between the upper mold 130 and the lower mold 150 A plurality of heating holes 134 and 154 are formed in the upper mold 130 and the lower mold 150 and a plurality of heating holes 134 and 154 are formed in a lower surface of the upper mold 130. [ A plurality of upper ball generating grooves 132 and lower ball generating grooves 152 are formed on the upper surface of the lower mold 150 so as not to interfere with the heating holes 134 and 154.

The heating holes 134 and 154 are formed by heating the upper mold 130 and the lower mold 150 by heating means circulating hot water or generating heat by electric energy. (130) and the lower mold (150). At this time, when the heating holes 134 and 154 circulate the hot water, one end of the heating holes 134 and 154 is provided with heating means (not shown) disposed outside the ice- The hot water supply hoses 136 and 156 to which the hot water heated by the hot water circulating pipes 134 and 154 are supplied are installed at the other ends of the hot water circulation pipes 134 and 154, Hoses 138 and 158 are mounted.

The upper ball generating groove 132 and the lower ball generating groove 152 are disposed to face each other so that the rectangular ice R that melts when manufacturing the ice ball I has a spherical shape. 132 are arranged so as not to interfere with the heating holes 134,

And the lower ball generating groove 152 is formed so as to form a plurality of rows and columns in a substantially "

Quot; < / RTI >

The upper mold 130 and the lower mold 150 are provided with flow paths for discharging molten water of the rectangular ice R to the outside of the upper mold 130 and the lower mold 150 when the ice ball I is manufactured, And a plurality of upper discharge channel grooves 140 are formed on the lower surface of the upper mold 130 so as to intersect between the upper ball generation grooves 132 and have a substantially " And lower discharge channel grooves 160 are formed on the upper surface of the lower mold 150 so as to intersect between the lower ball generation grooves 152 while having a substantially U-shaped cross-section.

An upper discharge channel hole 144 for discharging molten water of the rectangular ice R to the outside of the upper metal mold 130 is formed in each of the upper groove forming grooves 132 formed in the upper mold 130 .

The upper discharge flow hole 144 is formed through the upper surface of the upper mold 130 through the upper ball generating groove 132 and is discharged to the upper portion of the upper mold 130 through the upper discharge flow hole 144. The water is discharged to the outside of the upper mold 130 through the gap S between the upper mold 130 and the movable panel 118.

The upper discharge channel grooves 140 and the lower discharge channel grooves 150 are formed on the lower surface of the upper mold 130 and the lower surface of the lower mold 150, The lower discharge channel groove 150 extends from one side of the lower mold 150 to the other side and / or extends from one end to the other end. The pressing pressure of the pressure cylinder 126 is preferably between 5 and 6 kgf / cm < 2 >.

More preferably, the upper mold 130 and the lower mold 150 may be made of a metal or a nonmetal having excellent thermal conductivity, and the upper mold 130 and the lower mold 150 are preferably between 50 and 70 ° C.

The ice making part 170 is provided with a plurality of ice making holes 152 for releasing the ice ball I generated in the lower ball generating groove 152 of the lower mold 150 from the lower ball generating groove 152 during manufacture of the ice ball I, And an ice-making cylinder 180 for lifting and lowering the pin 172 and the plurality of ice-pins 172.

As shown in FIGS. 4A to 4C, the idler pin 172 has a vertically extending rod shape and passes through the lower mold 150 and the middle panel 114 through the lower ball generating groove 152, And extend perpendicularly to the panel 112 side. At this time, a flange 174 is formed on the outer peripheral surface of the upper end of each of the lowering pins 172 so that the lowering pin 172 can extend over the lower lowering groove 152, A flange groove 176 on which the flange 174 is seated is formed.

The upper end of each of the ice pins 172 is formed to have a curvature smoothly connected to the curvature formed by the lower ball generating grooves 152. Each ice pin 172 is formed with a rectangular ice A lower discharge flow hole 178 through which molten water is discharged is formed. The lower discharge channel 178 is vertically formed from the upper end to the lower end of the ice pin 172 along the longitudinal direction of the ice pin 172 as shown in the figure.

On the other hand, the idling cylinder 180 is mounted on the upper surface of the lower panel 112 so that the idling cylinder rod 182 is extended toward the lower surface side of the intermediate panel 114 and contracted toward the lower panel 112 side. At this time, the extending end of the ice cylinder rod 182 is mounted on the lower surface of the ice sheet panel 184 having a horizontal plate shape disposed on the lower side of the middle panel 114, And the extending end of the ice cylinder rod 182 is connected to the ice pin 172 of the ice panel 184 so as not to interfere with the ice pin 172 passing through the ice panel 172. [ And is mounted on the lower surface.

Each of the ice pins 172 passing through the ice panel 184 is fitted with a catch ring 188 having a lower surface covering the upper surface of the ice panel 184, And a compression coil spring 192 is fitted on each of the nuts 190 and the lower surface of the ice panel 184. The compression coil spring 192 is inserted into each of the ice pins 172, do.

That is, when the ice cylinder 180 raises the ice panel 184, the ice panel 184 pushes up the catch ring 188 so that as the catch ring 188 ascends by the ice panel 184, The ice pin 172 is lifted and the ice ball I generated in the lower ball generating groove 152 of the lower mold 150 is released from the lower mold 150.

The use state of the ice-ball manufacturing apparatus 100 according to the present invention formed as described above will be briefly described below.

In order to manufacture the ice ball I using the ice-ball manufacturing apparatus 100 according to the present invention, the hot water is first circulated to the upper mold 130 and the lower mold 150, or the heat- The rectangular ice R is placed on the lower mold 130 such that the rectangular ice R is interposed between the upper mold 130 and the lower mold 150 under the condition that the upper mold 130 and the lower mold 150 are heated, , The pressurizing cylinder 126 is operated to press the upper mold 130 toward the lower mold 150 (see FIG. 4A).

The pressurizing cylinder 126 presses the upper mold 130 toward the lower mold 150 until the lower surface of the upper mold 130 contacts the upper surface of the lower mold 150, The water melted by the upper mold 130 and the lower mold 150 heated when the rectangular ice (R) is pressurized flows through the upper discharge channel groove 140, the lower discharge channel groove 160, the upper discharge channel hole 144, The lower mold 130 is discharged to the outside of the upper mold 130 and the lower mold 150 through the lower discharge channel 178. When the lower surface of the upper mold 130 is pressed by the pressure cylinder 126, A spherical ice ball is formed between the upper and lower ball generating grooves 132 and 152 facing each other.

When the lower surface of the upper mold 130 contacts the upper surface of the lower mold 150, the pressing cylinder 126 raises the upper mold 130 (FIG. 4B).

When the upper mold 130 rises by the pressure cylinder 126, the ice ball generated in the lower ball generating groove 152 of the lower mold 150 is released from the lower mold 150. For this purpose, (Fig. 4C).

That is, the ice-making cylinder 180 extends the ice-making cylinder rod 182 to freeze the ice ball generated in the lower-ball generating groove 152 from the lower mold 150. As the freezing cylinder rod 182 is extended, the freezing panel 184 connected to the freezing cylinder rod 182 pushes up the locking ring 188 mounted on each of the freezing pins 172, Descend to the upper side of the lower ball generating groove 152 and move the ice ball generated in the lower ball generating groove 152 to the upper side of the lower mold 150.

On the other hand, when the ice ball I that is transferred to the upper side of the lower mold 150 is collected, the ice pin 172 is returned. To this end, the ice cylinder 180 shrinks the ice cylinder rod 182. As the ice cylinder rod 182 is contracted as described above, each of the ice pins 172 descends due to its own weight. Further, the flange 174 of each ice pin 172 is seated on the flange groove 176, When the flange 174 of the floating pin 172 is seated in the flange groove 176, the operation of the floating cylinder 180 is stopped.

At this time, when the ice panel 184 descending along the ice cylinder cylinder 182 to be shrunk is resiliently supported by the respective compression coil springs 192, the ice panel 184 is elastically deformed by the compression coil spring 192 Thereby preventing the ice pin 172 from being damaged when the ice pin 172 is returned.

Since the ice-ball manufacturing apparatus 100 according to the present invention thus formed is capable of manufacturing a ball-shaped ice ball I by heating and pressing the rectangular ice R having a predetermined thickness, Thereby making it possible to mass-produce the balls (I).

Since the ice ball manufacturing apparatus 100 according to the present invention is provided with the ice part 170 for releasing the ice ball I generated in the lower mold 150, 150).

The ice-ball manufacturing apparatus 100 is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: Ice ball manufacturing apparatus 110:
112: lower panel 114: middle panel
116: upper panel 118: moving panel
126: pressurizing cylinder 130: upper mold
132: upper ball generating groove 134, 154: heating ball
140: upper discharge channel groove 144: upper discharge channel hole
146: space retaining piece 150: lower mold
152: lower ball generating groove 160: upper discharge channel groove
170: ice part 172: ice pin
178: Lower discharge channel hole 180: Ice cylinder

Claims (12)

On the bottom,

An upper mold formed with a plurality of upper ball generating grooves having a magnetic cross section and heated by an external heat source,
On the upper surface,

And a lower mold for forming a lower ball forming groove facing the upper ball generating grooves, the lower forming grooves being heated by an external heat source,
Wherein the upper mold and the lower mold interlock with each other to heat the rectangular ice while pressurizing and pressurizing the upper and lower balls and between the upper and lower molds, ) Shaped ice ball is manufactured.
The method according to claim 1,
The ice-making device comprises:
And a main body supporting the upper mold and the lower mold,
Wherein,
Lower panel;
An intermediate panel disposed on an upper side of the lower panel;
An upper panel disposed on an upper side of the intermediate panel;
A moving panel disposed between the intermediate panel and the upper panel; And
And a pressurizing cylinder mounted on a lower surface of the upper panel to move up and down the moving panel,
The upper surface of the upper mold is fixedly mounted on a lower surface of the moving panel, the lower surface of the lower mold is fixedly mounted on an upper surface of the middle panel,
Wherein an upper end of the movable panel is fitted with an extension end of a pressurizing cylinder rod of the pressurizing cylinder which is extended toward the intermediate panel and contracts toward the upper panel.
The method of claim 2,
The lower panel and the intermediate panel being spaced apart by a support connecting the upper surface of the lower panel and the lower surface of the intermediate panel,
Wherein the intermediate panel and the upper panel are spaced apart by a guide rail connecting an upper surface of the intermediate panel and a lower surface of the upper panel,
And a guide hole is formed in the moving panel so as to be guided along the guide rail.
The method according to claim 1,
Wherein the upper mold and the lower mold have a plurality of projections,
The hot water circulating through the upper mold and the lower mold or heated by the heating means built in the upper mold and the lower mold while being heated by electric energy.
The method of claim 4,
Wherein a plurality of heating holes are formed through one side of the upper mold and the other side of the lower mold such that the hot water circulates in the upper mold and the lower mold and the heating unit is embedded.
The method of claim 2,
Wherein the upper ball generating grooves are formed with upper discharge passage holes extending from the upper ball generating groove through the upper surface of the upper mold,
Wherein the upper surface of the upper mold and the lower surface of the moving panel are fixedly mounted with a gap holding piece interposed therebetween such that a gap is formed between the upper mold and the moving panel.
The method according to claim 1,
And a plurality of upper discharge flow grooves are formed between the upper and lower ball generating grooves on the lower surface of the upper mold,
On the upper surface of the lower mold, a plurality of lower discharge channel grooves are formed between the lower ball generation grooves and have a " U "
The upper discharge flow grooves are formed to extend from one side of the upper mold to the other side and / or from one end to the other end,
Wherein the lower discharge channel grooves are formed to extend from one side of the lower mold to the other side and / or from one end to the other end.
The method of claim 2,
The ice-making device comprises:
And an ice-making part for releasing the ice ball generated in the lower-ball generating groove from the lower mold,
The ice-
A plurality of ice pins extending vertically through the lower mold and the intermediate panel through the lower ball generating grooves and toward the lower panel side, respectively; And
And an ice-making cylinder mounted on an upper surface of the lower panel for lifting and lowering the ice-making pins,
Wherein the ice pins are extended to a lower surface side of the intermediate panel and connected to an ice-making cylinder rod of the ice-making cylinder to be contracted to the lower panel side.
The method of claim 8,
Wherein an upper end of the idle pins has a curvature smoothly connected to a curvature of the lower ball generating groove,
And the lower discharge channel is formed in the ice-making fins so as to penetrate from the upper end to the lower end of the ice-making pin.
The method of claim 8,
Wherein a flange is formed on an upper end and an outer peripheral surface of the ice pin, and a flange groove on which the flange is seated is formed in the lower ball generating groove.
The method of claim 8,
Wherein an extending end of the ice cylinder rod is mounted on a lower surface of a horizontal plate-shaped ice panel disposed on a lower side of the intermediate panel,
Wherein the ice pins extending through the intermediate panel extend through the ice panel and the ice pins are mounted with hook rings having a lower surface extending over the upper surface of the ice panel.
The method of claim 11,
Wherein a nut is fastened to the lower end of the ice fins penetrating through the ice panel, and a compression coil spring is interposed between the respective nuts and the lower surface of the ice panel.

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