KR20210036567A - Ice maker - Google Patents

Abstract

The present invention relates to an ice maker and, more specifically, to an ice maker capable of separating ice from an ice making plate by approaching a heat panel ice making plate in which high-temperature water flows. Therefore, the ice maker, to which an ice making circulation system is applied, comprises: a chamber in which ice is made; an ice making plate placed in the chamber, and comprising a tray having one side opened to be placed vertically, and having a latticed partition formed therein, and a cooling plate combined with the other side of the tray to circulate a refrigerant; a water supplier placed on an upper side of the ice making plate, and supplying ice making water such that ice making water flows from an upper part of the tray to a lower part; a heat panel placed in parallel with the tray, in which hot water is circulated; and an actuator flattening the surface of the ice on the tray by melting the ice with heat from the heat panel which is made to be close to the tray, when ice is formed on the tray.

Description

Ice maker

The present invention relates to an ice maker, and more particularly, to an ice maker that separates ice from the ice maker by approaching a heat panel ice maker through which hot water flows.

In general, an ice maker is an apparatus for manufacturing ice, and it produces a finished product that can be used for food or industrial use by supplying ice-making water to an ice-making plate to grow the ice-making water into ice, and then separating the generated ice from the ice-making plate.

In this process, the ice-making plate is disposed in a horizontal or vertical direction to supply ice-making water, and the ice is grown by flowing cooling water on one side of the ice-making plate.

At this time, in the case of the ice-making plate arranged in the vertical direction, ice-making water is supplied downward from the top of the ice-making plate, but the ice grown in layers is formed unevenly on the surface, and it is not easy to separate the ice from the ice-making plate. There was a problem that it couldn't.

In order to solve this problem, there is a technology of spraying ice-making water by disposing an ice-making plate in a horizontal direction, but there is a disadvantage in that the ice is formed opaque because foreign substances such as oxygen contained in the ice-making water cannot be discharged.

In addition, in the case of an ice maker in which ice generation has been completed, there is also a problem in that the ice removal process in which ice is separated from the ice plate is not properly performed due to excessively formed burrs.

In order to solve this problem, Korean Laid-Open Patent Publication No. 10-2013-0067220 (an ice making device that is easy to remove ice) has been disclosed as a prior document.

Korean Laid-Open Patent Publication No. 10-2013-0067220 (An ice maker that is easy to remove ice) facilitates the creation of transparent ice by completely immersing the ice maker in the ice-making water in the ice maker to make ice making. There is an advantage in that a deicing means including a de-icing line is further provided to facilitate de-icing of ice, but there is a disadvantage in that the number of ice-making plates in which ice is manufactured in a chamber in which an ice machine is formed is limited due to the spatial structure.

Korean Patent Laid-Open Publication No. 10-2013-0067220 (Ice making device easy to remove ice)

Accordingly, an object of the present invention is to provide an ice maker in which transparent ice can be manufactured with easy deaeration by arranging the ice making plate in a horizontal direction by improving the problems of the prior art.

In addition, it is an object of the present invention to provide an ice maker in which the surface of ice is formed evenly and easily separated from the ice-making plate by bringing a heat panel through which high-temperature water flows to the surface of ice formed on the ice-making plate.

An ice maker to which an ice making circulation system is applied, comprising: a chamber in which ice is made; An ice-making plate comprising: a tray disposed inside the chamber, a tray having one side open to be vertically disposed, and forming a grid-shaped partition wall; and a cooling plate coupled to the other side of the tray to circulate a refrigerant; A water dispenser disposed above the ice-making plate and supplying ice-making water so that the ice-making water flows from the top to the bottom of the tray; A heat panel disposed parallel to the tray and circulating hot water therein; When ice is formed on the tray, an actuator that makes the heat panel close to the tray and melts the ice surface of the tray with the heat of the heat panel to form a flat surface.

It is preferable that a plurality of the ice-making plates are disposed in the chamber at a predetermined distance apart, and a plurality of the heat panels are disposed to correspond to the number of the ice-making plates.

The actuator may include a moving shaft fixedly coupled horizontally at both sides of the heat panel; And a hydraulic cylinder that drives the moving shaft, and moves the heat panel in the direction of the ice-making plate.

The ice maker includes: a hot water tank provided with an electric heater to store hot water generated by the electric heater; An ice maker comprising: a hot water supply pipe for supplying hot water from the hot water tank; and a hot water recovery pipe for recovering hot water supplied through the supply pipe to a hot water tank, wherein hot water is circulated through the heat panel. It is preferable to be.

Preferably, the ice maker includes a screw disposed under the chamber to crush the ice made.

The present invention has the advantage of providing an ice maker in which transparent ice is formed by easily degassing components included in ice-making water during ice making.

In addition, by providing a heat panel through which high-temperature water flows, there is an advantage in that the surface of ice is formed evenly, and an ice maker that is easily removed is provided.

1 is a perspective view of an ice maker according to the present invention.
2 is a side cross-sectional view of the ice maker according to the present invention before driving.
3 is a side cross-sectional view of the ice maker according to the present invention after driving.
4 is a schematic diagram showing an ice making circulation system applied to an ice maker according to the present invention.
5 is an exemplary view of a screw installed in the ice maker according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of functions or configurations that are already known will be omitted in order to clarify the gist of the present invention.

In addition, in describing the present invention, terms indicating a direction are described so that those skilled in the art can clearly understand the present invention, and indicate a relative direction, and thus the scope of the rights is not limited.

The ice maker of the present invention is an ice maker to which an ice-making circulation system is applied, and a direct cooling method or an indirect cooling method may be selectively applied, and the configuration of the refrigeration cycle may be changed accordingly.

In this case, a compressor, a pump, a condenser and a valve, a refrigerant supplier, and the like for configuring the ice making circulation system may be included.

1 is a perspective view of an ice maker according to the present invention, FIG. 2 is a cross-sectional view before the heat panel of the ice maker according to the present invention moves, and FIG. 3 is a cross-sectional view of a state in which the heat panel of the ice maker according to the present invention moves in the direction of the ice maker, and FIG. 4 is It is a schematic diagram showing the ice making circulation system of the ice maker of the present invention.

1 to 4, the ice maker of the present invention is largely composed of a chamber 10, an ice plate 100, a water dispenser 200, a heat panel 300, and an actuator 400.

The chamber 10 is made to open at least one surface, and the ice-making plate 100, the water supply 200, the heat panel 300, and the actuator 400 are inside or outside the nozzle, pipe, etc. It is combined, installed, and connected through.

In this case, the lower portion of the chamber 10 may be opened to form an outlet (not shown) for discharging ice that has been de-icing.

The ice making plate 100 includes a tray 110 and a cooling plate 120.

The tray 110 is placed vertically with one side open, and a grid-shaped partition wall is formed.

The cooling plate 120 is disposed on the other side of the tray 110 to form a refrigerant circulation path so that the refrigerant circulates therein.

At this time, one side of the tray 110 may be formed to face the rear side of the chamber 10.

In addition, the cooling plate 120 may include a refrigerant inlet (not shown) and a refrigerant outlet (not shown) to form a refrigerant circulation path through which refrigerant circulates.

In this case, it is preferable that the refrigerant circulation path is disposed adjacent to the tray 110 so as to improve cooling efficiency, and is disposed so as to pass through all of the grooves formed in the grid-shaped partition wall formed in the tray 110.

In addition, the ice-making plate 100 may be vertically placed, and a plurality of the ice-making plates 100 may be spaced apart from each other by a predetermined distance in the left and right directions.

At this time, the interval of the ice-making plate 100 placed vertically in the left and right direction may be formed in a range of 150 mm to 200 mm, and a member capable of adjusting the interval of the ice-making plate 100 according to the standard of ice to be iced may be formed. .

In addition, as a member in which the ice-making plate 100 is coupled and installed in the chamber 10, a support pipe (not shown) and a fixing pipe (not shown) may be formed.

The support pipes are installed horizontally in the front and rear direction of the chamber 10, and two may be arranged in parallel on both sides of the chamber 10.

In this case, the support pipe is preferably disposed below the ice-making plate 100.

Both ends of the fixing pipe are fixedly coupled to the support pipe in a perpendicular direction, and the upper portion thereof is coupled to the lower portion of the ice-making plate 100 to fix the ice-making plate 100.

Therefore, it is preferable that the number of fixing pipes corresponds to the number of ice-making plates 100.

The water supply 200 is disposed above the ice-making plate 100 and supplies ice-making water so that the ice-making water flows from the top to the bottom of the tray 110.

In this case, it is preferable that a plurality of water supply devices 200 are disposed so as to supply ice-making water in the chamber 10.

The heat panel 300 is disposed parallel to the tray 110, and hot water circulates therein to dissipate heat.

In this case, a plurality of heat panels 300 may be disposed so as to correspond to the number of ice-making plates 100.

In addition, the present inventors ice maker 1000 is installed in the hot water tank 40, the hot water tank 40, the electric heater 41 to increase the temperature of the water, and hot water from the hot water tank 40 to the heat panel 300. It may include a hot water supply pipe 42 for supplying, and a hot water recovery pipe 43 for recovering the hot water supplied to the heat panel 300 back to the hot water tank 40.

The actuator 400 is formed to include a moving shaft 410 and a hydraulic cylinder 420 to move the heat panel 300 in the tray 110 direction.

The moving shaft 410 is placed on both sides of the heat panel 300 and may be horizontally installed in the front and rear directions of the chamber 10.

In addition, a number of coupling bars 421 are formed in the left and right directions of the chamber 10 so that one end of the moving shaft 410 may be fixedly coupled.

In addition, it may be coupled to a hole member (not shown) formed in the chamber 10 so as to maintain the moving shaft 410 horizontally and move it in the front-rear direction.

For example, the hydraulic cylinder 420 is fixedly coupled to the coupling bar 421 to which the moving shaft 410 is coupled, and when the hydraulic cylinder 420 is driven in one direction, the coupling bar 421 coupled to the hydraulic cylinder 420 ) Moves in the forward direction to move the moving shaft 410 in the forward direction.

At this time, the heat panel 300 fixedly coupled to the moving shaft 410 moves together in all directions, and the surface of the ice formed on the tray 110 closes the heat panel 300 to the tray 110 located in the front. Can be formed flat by melting.

5 is a view showing a screw for crushing ice formed in the ice maker according to the present invention.

Referring to FIG. 5, the ice maker 1000 according to the present invention may include a screw 500 disposed under the chamber 10 to crush ice made.

At this time, the screw 500 crushes the ice in a shape corresponding to the grid shape of the tray 110 and discharges the ice out of the chamber 10.

As an embodiment, the screw 500 may be formed in a shape in which the pitch of the screw 500 becomes narrower from one side to the other side, and may include a chain and a motor for driving the screw 500.

As described above, the technical idea of the present invention relates to an ice maker, and specifically, by spraying ice-making water in a downward direction on an ice-making plate placed vertically, the quality of ice is improved, and a heat panel is provided to facilitate ice removal. It is about an ice machine.

Various modifications can be made by those of ordinary skill in the art within the scope of the basic technical idea of the present invention, and therefore, the scope of the present invention should be interpreted within the scope of the patent claims written to include various modifications. will be.

10: chamber
40: hot water tank
41: electric heater
42: hot water supply pipe
43: hot water recovery pipe
100: ice plate
110: tray
120: cooling plate
200: water dispenser
300: heat panel
400: actuator
410: moving shaft
420: hydraulic cylinder
421: coupling bar
500: screw

Claims (5)

In the ice maker to which the ice making circulation system is applied,
A chamber 10 in which ice is made inside;
A tray 110 disposed inside the chamber 10, one side of which is open to be placed vertically, and having a lattice-shaped partition wall; And, a cooling plate coupled to the other side of the tray 110 to circulate a refrigerant (120); ice-making plate 100 made of;
A water dispenser 200 disposed above the ice-making plate 100 and supplying ice-making water so that ice-making water flows from the top to the bottom of the tray 110;
A heat panel 300 disposed parallel to the tray 110 and circulating hot water therein;
When ice is formed on the tray 110, an actuator ( 400); Ice maker, characterized in that consisting of. The method of claim 1,
The ice-making plate 100,
A plurality of pieces are disposed in the chamber 10 to be spaced apart by a predetermined distance,
The heat panel 300,
An ice maker, characterized in that a plurality of ice-making plates are disposed to correspond to the number of the ice-making plates (100). The method of claim 1,
The actuator 400,
A moving shaft 410 fixedly coupled horizontally at both sides of the heat panel 300; And a hydraulic cylinder 420 that drives the moving shaft 410
An ice maker, characterized in that the heat panel (300) is moved in the direction of the ice-making plate (100). The method of claim 1,
The ice maker 1000,
A hot water tank 40 provided with an electric heater 41 to store hot water generated by the electric heater 41;
A supply pipe 42 for supplying hot water from the hot water tank 40; And,
A hot water recovery pipe (43) for recovering the hot water supplied through the hot water supply pipe (42) to the hot water tank (40); and the hot water is circulated through the heat panel (300). The method of claim 1,
The ice maker 1000,
An ice maker comprising: a screw 500 disposed under the chamber 10 to crush the ice made.

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