KR20140115196A - Ice manufacturing apparatus - Google Patents

Abstract

The purpose of the present invention is to provide an ice maker which prevents ice from being attached to each other in an ice storage unit and facilitates discharging of ice through an ice discharging gate. The ice maker comprises an ice storage unit storing ice produced in an ice making unit; an ice discharging gate to discharge the ice stored in the ice storage unit to the outside; a floor panel forming a floor of the ice storage unit; blades rotating to prevent the ice in the ice storage unit from being attached to each other; and a stepped guide rib which protrudes from the floor panel along the outer circumference in the rotational direction of the blades and has a step right before the ice discharging gate.

Description

ICE MANUFACTURING APPARATUS

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ice maker, and more particularly to an ice maker capable of smoothly discharging ice in an ice reservoir through an ice discharge port.

The ice maker is an apparatus for generating ice and supplying it to a user, and is adapted to generate ice by receiving cold air from a refrigerant flowing in an evaporation pipe constituting a refrigeration cycle.

Among water purifiers, a water purifier equipped with an ice-making function to enable ice to be supplied as well as cold and hot water has been developed. For example, Korean Utility Model Registration No. 20-330516 has been disclosed.

In the conventional art, there is provided an evaporator through which a low-temperature refrigerant flows, a ice-making plate coupled to receive cold air from the evaporator, a nozzle for injecting purified water into the ice-making plate, and an ice storage for storing ice from the ice- .

When the water injected from the nozzle contacts the inner surface of the groove, ice is generated in the groove by the cool air transferred from the evaporator. The ice is stored in an ice storage and supplied to the user.

The ice reservoir is provided with a blade rotated by a motor, and the ice of the ice reservoir is rotated by the blade and then discharged to the outside through the discharge port.

According to the related art, the entire plate having the wing-shaped protrusion formed on its upper surface is rotated, so that the load on the motor is considerably increased, and the ice in the central region of the ice reservoir is not discharged smoothly. There is a problem that it is not discharged through the discharge port.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide an ice maker for preventing ice from sticking to each other in the ice reservoir and discharging ice smoothly through the ice discharge gate .

According to an aspect of the present invention, there is provided an ice maker comprising: an ice reservoir for storing ice generated in a ice maker; An ice discharge port for discharging the ice stored in the ice storage unit to the outside; A bottom plate forming a bottom of the ice storage unit; Wherein the upper surface of the bottom plate is protruded along the outer circumference to form a stepped guide rib immediately before the ice discharge port based on the rotation direction of the blade, do.

The guide rib may be inclined so as to be higher toward the ice discharge port.

The guide rib may be inclined in the width direction so as to be lowered toward the inside of the ice storage unit.

A stopper rib protruding from the upper surface of the bottom plate may be formed at a position spaced apart from the front end of the guide rib.

The lower end of the ice discharge port may be formed at a position higher than the upper surface of the bottom plate.

Wherein the blade comprises a first blade and a second blade respectively connected to the upper side and the lower side of the rotating shaft rotating by the driving of the motor; Wherein the first blade comprises a first horizontal portion extending in a horizontal direction from the rotation axis and a first bent portion bent downward outward at an end of the first horizontal portion; The second blade is formed to have a shorter overall length than the first blade; The first blade and the second blade may be provided so as to intersect when viewed in a plan view.

The bottom plate may have a sloped shape that decreases from the center to the edge.

A plurality of drain holes may be formed around the edges of the bottom plate.

According to the ice maker of the present invention, ice is prevented from sticking to each other by providing a rotating blade in the ice storage part, and guide ribs protruding along the outer circumference of the bottom plate are formed, Can be prevented.

Further, a stopper rib projecting from the upper surface of the bottom plate is formed at a position spaced from the front end of the guide rib with the ice discharge port therebetween, so that ice is smoothly discharged to the ice discharge port.

Also, the blades are vertically staggered at different inclination angles, so that the ice inside the ice storage unit can be uniformly discharged through the ice discharge port.

1 is a perspective view showing a cross-sectional structure of an ice maker of the present invention,
2 is a side cross-sectional view showing the ice maker of the present invention,
3 is a perspective view showing the internal structure of the ice maker of the present invention,
4 is a perspective view showing a bottom plate and a blade of the present invention,
5 is an exploded view showing a part of a cross section of the bottom plate of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a cross-sectional structure of an ice maker of the present invention, FIG. 2 is a side sectional view showing the ice maker of the present invention, FIG. 3 is a perspective view showing an internal structure of the ice maker of the present invention, Fig. 5 is a development view showing a part of a cross section of the bottom plate of the present invention. Fig.

The ice maker of the present invention includes a purified water tank 100 for storing water filtered at a filter unit (not shown) at a normal temperature, a cold water tank 500 for storing purified water supplied from the purified water tank 100 A ice making unit 200 for generating ice using the water of the cold water tank 500 and an ice storing unit 400 for storing the ice produced in the ice making unit 200.

The ice maker 200 includes an ice maker 210 in which ice having a predetermined shape is formed, an evaporator 210 coupled to the ice maker 210 so that heat exchange is performed between the ice- An ice tray 220 installed at a lower portion of the ice tray 210 to store the ice generated by the ice tray 210 in the ice tray 210, And a plurality of nozzles 251 for spraying the water supplied from the cold water tank 500 to the ice-making frame 210. The ice maker 250 includes: .

The ice making frame 210 includes a body portion 211 made of a metal and an ice making groove 212 formed in the body portion 211 to form a space for forming ice. A plurality of the ice-making grooves 212 are formed to correspond to the plurality of nozzles 251.

The evaporating pipe 220 includes a part of the refrigerating cycle (not shown), and an evaporating pipe outlet 220b through which the refrigerant having heat exchange with the evaporating pipe inlet 220a into which the refrigerant flows is discharged. The low temperature refrigerant flows and the water injected from the nozzle 251 causes ice to be generated in the ice making groove 212. After the ice making is completed, the high temperature refrigerant flows and the ice surface generated in the ice making groove 212 melts Let it sink. In this case, it is also possible to provide a heater in the ice-making mold 120 to perform de-icing.

The body 211 of the ice-making frame 210 is integrally coupled to the evaporation pipe 220 by die casting so that heat transfer from the refrigerant flowing in the evaporation pipe 220 to the body 211 .

The ice guide 240 includes an inclined plate 241 inclined to guide ice dropped from the ice making mold 210 and dropped to the ice storage 400, And an ice curtain 244 for preventing ice from being scattered in the ice storage part 400. The swash plate 241 is provided with a through hole 241a for passing water sprayed from the nozzle 251 toward the ice- Is formed.

The nozzle unit 250 includes a plurality of nozzles 251, an upper nozzle plate 252 protruded upward from the plurality of nozzles 251, and a nozzle connecting channel 252 between the upper nozzle plate 252 And a lower nozzle plate 253 coupled to form the nozzle plate 255. The nozzle connecting channel 255 connects the plurality of nozzles 251 to each other and the water supplied from the cold water tank 500 is filled in the nozzle connecting channel 255 and then injected through a plurality of nozzles 251. [ do.

The ice storage part 400 includes a body part 400a surrounding an inner space for storing ice and an ice discharge port 400b for discharging ice is formed in the body part 400a, The ice tray 400a is integrally formed with the body portion 500a constituting the cold water tank 500 and is provided with ice and cold water in the upper and lower spaces divided by the bottom plate 300 forming the bottom of the ice storage portion 400 Respectively.

A step 450 is formed at a portion where the body 400a of the ice storage 400 is connected to the body 500a of the cold water tank 500. The bottom plate 300 is coupled to the step 450, Respectively.

The ice storage unit 400 includes blades 421 and 422 that periodically rotate around a rotation axis 410 to discharge ice through the ice discharge port 400b and prevent ice from sticking to each other, An ice discharge gate 430 for discharging ice to the user by opening and closing the ice discharge gate 400b and a fullness sensor 440 for sensing the ice is filled in the ice storage 400, 430 are driven by the gate drive device 700. [

The blades 421 and 422 include a first blade 421 and a second blade 422 connected to the upper and lower sides of the rotating shaft 410 rotated by the motor 600, respectively.

The first blade 421 includes a first horizontal portion 421a extending in the horizontal direction from the rotation axis 410 and a first bent portion 421b bent downward outward from the end of the first horizontal portion 421a The second blade 422 includes a second horizontal portion 422a extending in the horizontal direction from the rotation axis 410 and shorter than the first horizontal portion 421a, And a second bent portion 422b bent downward outward at an end of the first blade 422a and bent at an angle smaller than that of the first bent portion 421b. The first blade 421 and the second blade 422 And is coupled to the rotation axis 410 so as to intersect when viewed in a plan view.

Although the second blade 422 has been described as having the second bent portion 422b in the present embodiment, the second bent portion 422b may be extended horizontally from the horizontal portion 422a to the second bent portion 422b without the second bent portion 422b. .

Since the first blade 421 has the first bent portion 421a and the second blade 422 having the shorter length than the first blade 421 is provided under the first blade 421, The ice 10 can be evenly stirred from the inside to the outside of the ice storage part 400 from the lower side to the upper side.

The first blade 421 and the second blade 422 may be configured to intersect at an angle of 90 degrees on a plan view or alternatively may be formed such that an acute angle and an obtuse angle are alternately formed. So as to cross at a plurality of acute angles.

The bottom plate 300 has an inclined shape that is lowered from the center to the edge, so that the ice stored in the ice storage unit 400, which is the upper space of the bottom plate 300, The ice dispersed to the edge of the bottom plate 300 and dispersed to the edge of the bottom plate 300 It is contacted with the rotating blades 421 and 422 and is pushed outward and discharged through the ice discharge port 400b.

At an edge of the top surface 300a of the bottom plate 300, a guide rib 310 having a predetermined width is formed around the circumference. The guide surface 311 of the guide rib 310 protrudes upward from the edge of the upper surface 300a of the bottom plate 300. The guide surface 311 of the guide rib 310 has an end The ice discharge gate 430 located at the front of the end portion 313 of the guide rib 310 is gradually raised toward the counterclockwise direction in which the blades 421 and 422 rotate And is inclined.

The guide surface 311 of the guide rib 310 is formed so that the edge portion 314 of the guide rib 310 is higher than the inner side portion 315 and is inclined in the width direction so as to gradually decrease toward the inside of the ice storage portion 400 Lt; / RTI >

If the guide rib 310 is not formed and the upper surface 300a of the bottom plate 300 is flat, the end of the first bent portion 421b of the first blade 421 and the side end portion of the ice discharge port 400b 400c. When the first blades 421 are continuously rotated in a state where ice is caught, the motor 600 is overloaded and ice is broken.

Since the guide rib 310 is formed in the present invention, the stepped portion 313 of the guide surface 311 positioned immediately before the ice discharge port 400b has a step difference from the counterclockwise direction in which the blades 421, The ice 10 of the ice storage part 400 is guided in the counterclockwise direction along the guide surface 311 of the guide rib 310 by the rotation of the first blade 421, And falls from the end portion 313 to the upper surface 300b of the bottom plate 300. [ In this case, the ice 10 is dropped and falls as the rotational motion of the blade 421 is added to the falling ice 10, so that the ice portion contacting the first blade 421 changes, And is smoothly discharged through the ice discharge port 400b without being interposed between the blade 421 and the side end portion 400c of the ice discharge port 400b.

A stopper rib 320 protruding from the upper surface 300a of the bottom plate 300 is provided at a position spaced apart from the end portion 313 of the guide rib 310 with the ice discharge port 400b interposed therebetween. To the edges.

The ice 10 pushed by the first blade 421 is caught by the stopper rib 320 and can not pass over the stopper rib 320 and is guided outward along the stopper rib 320 to be discharged to the ice discharge port 400b And is discharged. The ice in the inner space of the ice storage part 400 is pushed outward by the second blade 422 and is then guided outward along the stopper rib 320 by the first blade 421 so that the ice discharge port 400b, The ice in the ice storage part 400 is uniformly stirred and is smoothly discharged through the ice discharge port 400b.

On the other hand, a plurality of slit-shaped drain holes 330 are formed around the edges of the bottom plate 300. The ice stored in the ice storage part 400 is melted as time elapses, and the water in which the ice is melted flows into the cold water tank 500 through the drain hole 330.

Since the internal spaces of the ice storage part 400 and the cold water tank 500 communicate with each other through the drain hole 330 when the drain hole 330 is made larger, The amount of ice melted increases due to the temperature of the high cold water tank 500.

Therefore, it is preferable that the drain hole 330 is formed to have a minimum size in order to minimize the amount of ice due to the temperature of the cold water tank 500, so that the drain hole 330 is formed in a narrow slit shape At the same time, the bottom plate 300 is formed only in a part of the periphery.

5, a stopper rib 320 is formed at a position spaced from the front end portion 313 of the guide rib 310. A stopper rib 320 is formed between the guide rib 310 and the stopper rib 320, (400b) are formed.

When the lower end portion 400d of the ice discharge port 400b is formed at the same or lower position as the upper surface 300b of the bottom plate 300, the molten water flows between the ice discharge gate 430 and the ice discharge port 400b Can leach into the gap of.

The lower end portion 400d of the ice discharge port 400b is formed at a higher position than the upper surface 300b of the bottom plate 300 so that water melted by the ice is discharged from the lower end portion 400d of the ice discharge port 400b to the bottom A space G between the upper surface 300b of the plate 300 and a space between the side surface of the bottom plate 300 and the inner surface of the body portion 400a of the ice storage portion 400, So that it can be prevented from leaking into the gap between the ice discharge gate 430 and the ice discharge port 400b.

In addition, since the molten ice is blocked by the stopper rib 320 and flows toward the drain hole 330 without passing over the area of the upper surface 300b of the bottom plate 300, water is accumulated in the area of the upper surface 330b .

A circulation pump (not shown) for supplying water in the cold water tank 500 to the nozzle 251 and a nozzle connection channel 255 (not shown) of the circulation pump and the nozzle unit 250 are provided in the cold water tank 500, And a cold water tank connecting line (not shown) for connecting the cold water tank connecting lines.

The cold water tank 500 is not provided with a separate cooling means such as a cooling coil and the water cooled by the ice making unit 200 is introduced into the cold water tank 500. As a result, It becomes simple.

According to the above-described structure, the ice storage portion is provided with the rotating blades to prevent the ice from sticking together, and the guide ribs and the stopper ribs protruding along the outer circumference of the bottom plate are formed, And the ice is smoothly discharged to the ice discharge port.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

100: purified water tank 200: ice-
210: Ice-making frame 211:
212: Ice-making groove 220: Evaporation tube
230: Ice-mold frame holder 240: Ice guide
241: swash plate 241a: through hole
244: ice curtain 250: nozzle part
251: nozzle 252: upper nozzle plate
253: lower nozzle plate 255: nozzle connecting channel
300: bottom plate 310: guide rib
320: stopper rib 400: ice storage part
410: rotating shaft 421: first blade
422: second blade 430: ice discharge gate
440: full-scale sensor 500: cold water tank
600: motor

Claims (12)

An ice storage part for storing ice produced in the ice making part;
An ice discharge port for discharging the ice stored in the ice storage unit to the outside;
A bottom plate forming a bottom of the ice storage unit;
And a rotating blade for preventing ice from adhering to the ice storage portion,
And an upper surface of the bottom plate is protruded along an outer circumference to form a stepped guide rib immediately before the ice discharge port based on a rotating direction of the blade. The method according to claim 1,
Wherein the guide rib is inclined so as to be higher toward the ice discharge port. 3. The method according to claim 1 or 2,
Wherein the guide rib is inclined in the width direction so as to be lowered toward the inside of the ice storage part. The method according to claim 1,
And a stopper rib protruding from the upper surface of the bottom plate is formed at a position spaced apart from the front end of the guide rib. 5. The method of claim 4,
Wherein the stopper rib extends from a center portion of the bottom plate to an edge thereof. The method according to claim 1,
And the lower end of the ice discharge port is formed at a higher position than the upper surface of the bottom plate. The method according to claim 1,
A cold water tank for storing cold water is provided below the ice storage unit,
Wherein one of the ice storage unit and the cold water tank is divided into upper and lower spaces by the bottom plate. The method according to claim 1,
Wherein the blade comprises a first blade and a second blade respectively connected to the upper side and the lower side of the rotating shaft rotating by the driving of the motor;
Wherein the first blade comprises a first horizontal portion extending in a horizontal direction from the rotation axis and a first bent portion bent downward outward at an end of the first horizontal portion;
The second blade is formed to have a shorter overall length than the first blade;
Wherein the first blade and the second blade cross each other when viewed from a top view. 9. The method of claim 8,
The second blade includes a second horizontal portion extending in a horizontal direction from the rotation axis and shorter than the first horizontal portion, and a second horizontal portion bent downward outward at an end portion of the second horizontal portion and bent at an angle smaller than that of the first bent portion And the second bending portion. The method according to claim 1,
Wherein the bottom plate has an inclined shape that decreases from the center to the edge. The method according to claim 1,
And a plurality of drain holes are formed around edges of the bottom plate. 12. The method of claim 11,
And the drain hole is formed only in a part of the periphery of the bottom plate edge.

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