KR101565415B1 - A refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator and, more particularly, to a refrigerator that prevents a situation where ice is taken out from a take-out device during the discharge of ice from a ice storage box and prevents ice from being mixed smoothly inside the ice storage box, And to provide a refrigerator which can prevent the refrigerant from becoming frosty.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, An auger which is rotatably installed in the ice storage box and has a rotary blade for moving ice to take out the ice to the outside of the ice storage box; And an opening / closing member provided so as to be in contact with the auger and opening / closing the ice outlet according to the rotation of the auger.

Ice storage box, auger, rotating blade, opening and closing member

Description

A refrigerator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator, and more particularly, to a refrigerator which can smoothly take out ice and prevent ice from being mixed with ice in a ice bin.

A refrigerator is a device for storing refrigerated or frozen foods and other storage materials using a refrigerant cycle. The refrigerator includes a main body including a storage compartment and a door for opening and closing the storage compartment.

The ice maker is installed in the refrigerator. The ice maker is used to store the ice cubes from the ice maker. The dispenser is connected to the ice cubicle and takes out the ice from the ice maker.

When the user drives the dispenser, the ice taking-out device provided in the ice storage box operates to send ice in the direction of the dispenser, whereby the user uses ice in a container such as a cup.

However, when the ice is taken out from the conventional refrigerator, a jam phenomenon occurs in which the ice is not caught between one side of the ice storage box and the ice extraction device during the extraction of ice, There is a problem that the ice is continuously taken out to the side space of the ice making room and the ice is taken out excessively.

In addition, when ice is stored inside the ice storage box, there is a problem that the ice is attached to each other and the volume becomes large as a whole, and ice can not be taken out by the ice extraction device.

In the conventional ice storage box, when the ice moves to the dispenser, the ice storage box is moved forward and backward in the ice storage box, and then falls. In this case, the thickness of the ice storage box is thickened in order to secure a forward- There was a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a refrigerator which can smoothly take out ice and prevent a trouble in taking out ice.

It is another object of the present invention to provide a refrigerator which can prevent ice from being adhered to each other by allowing ice to be well mixed therein.

It is another object of the present invention to provide a refrigerator which can provide a slimmer ice storage box.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, An auger which is rotatably installed in the ice storage box and has a rotary blade for moving ice to take out the ice to the outside of the ice storage box; And an opening / closing member which is provided in contact with the auger and opens and closes the ice outlet according to the rotation of the auger.

The auger is provided with a center portion serving as a center of rotation, and the rotating blades are provided in a shape in which a plurality of the blades are spaced apart from each other, and are formed to extend outward from an outer peripheral surface of the center portion.

And the rotary blade is formed such that its cross-section is bent in a direction opposite to the rotation direction of the auger so as to receive the ice and to open and open the opening and closing member.

A first extension extending in the radial direction from the center portion and having a thickness thicker toward the extension direction; And a second extending portion extending from the first extending portion in the direction opposite to the rotation of the auger, the second extending portion being thinner in the extending direction.

Wherein the rotary blade has an inner surface portion having a predetermined curvature and provided in a concave shape to receive ice therein; And an outer surface which is convexly brought into contact with the opening and closing member and opens the opening and closing member by pushing the opening and closing member upon the auger rotation.

And an inclined portion provided on the outer surface portion to guide the ice trapped between the outer surface portion and the opening and closing member to move forward of the auger when the auger rotation is performed to minimize the opening state of the opening and closing member .

And the thickness of the rotary vane gradually decreases from the rear to the front so that the inclined portion can be formed.

And a protrusion protruding outwardly from the inner surface portion to reduce a contact area between the ice and the inner surface portion.

And the outer surface portion is formed in a curved shape so that the ice sandwiched between the outer surface portion and the opening and closing member can move in the radial direction of the auger when the auger is rotated.

Wherein the opening / closing member is pushed by the rotary vane during rotation of the auger in a state of being in contact with the rotary vane, and rotates to open the ice extraction port and return to the home position when the contact state with the rotary vane is released to close the ice extraction opening .

And an elastic member provided at the center of rotation of the opening and closing member for returning the opening and closing member to a home position.

And a cam surface provided on an outer circumferential surface of a support plate provided at the rear of the auger and contacting the opening and closing member to limit the returning speed of the opening and closing member upon return of the opening and closing member to the home position.

And a contact groove formed on the opening and closing member so as to be in contact with the cap surface.

The cam surface is projected in the direction opposite to the direction of rotation of the auger in a sequential manner, and the rotation of the next rotation vane from the portion corresponding to the position where one of the rotation vanes is in contact with the opening- And the degree of protrusion increases sequentially toward the portion corresponding to the position to be made.

And the number of the cam surfaces corresponds to the number of the rotary blades.

According to another aspect of the present invention, there is provided a refrigerator comprising: an ice storage box having an ice outlet; An auger installed on the inside of the ice storage box so as to be inclined and to take out the ice to the outside of the ice storage box by rotating movement; And an opening / closing member provided so as to be able to contact with the auger to open / close the ice outlet according to the rotation of the auger, wherein the auger pushes the opening / closing member to open the opening / closing member and the ice held between the auger and the opening / closing member And a rotary blade for guiding the rotary blade to move in a predetermined direction.

And the rotary vane is curved in a curved shape in a direction opposite to the rotation direction of the auger so as to receive the ice and push the opening and closing member.

The rotating blade includes an inner surface portion in which ice can be received; And an outer surface portion contacting the opening and closing member and having a curved surface.

The thickness of the rotary vane is gradually decreased from the rear to the front, so that the inclined portion can guide the ice to the front when the ice is caught between the opening and closing member and the outer surface portion .

And a cam surface provided on the rear side of the rotary vane for restricting the return speed of the opening / closing member in contact with the opening / closing member upon returning to the home position after the opening / closing member is released.

According to the present invention as described above, it is possible to smoothly take out the ice and prevent the occurrence of trouble in the ice extraction.

In addition, the present invention also has the effect of preventing ice from being adhered to each other by allowing the ice contained in the ice storage box to mix well.

In addition, it is more slim than the thickness of the ice storage box, which makes it possible to increase the storage space of the ice storage box to a thickness smaller than that of the conventional ice storage box, or to reduce the thickness of the refrigerator.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1, the refrigerator according to the present invention includes a main body 1 provided with a storage chamber 3, a door 10 rotatably provided on the main body 1 and opening and closing the storage chamber 3, .

The storage room 3 is divided into a freezing room 4 and a refrigerating room 5 and the door 10 is divided into a door 10 for opening and closing the refrigerating room 5 and the freezing room 4.

An ice maker 13 for ice making ice is mounted on the inner surface of the door for opening and closing the freezing room 4 and an ice storage box 100 for storing ice is provided in the lower part of the ice maker 13.

An ice outlet 102 is provided in the lower portion of the ice storage box 100 and the ice outlet 102 communicates with a dispenser (not shown) mounted on the door 10.

An auger 200 capable of selectively moving ice in the direction of the dispenser (not shown) is rotatably mounted on the ice outlet 102, and one side of the auger 200 is in contact with the auger 200 And an opening and closing member 300 for opening and closing the ice outlet 102 according to the rotation of the auger 200 is provided.

As shown in FIG. 2, it is preferable that the ice storage box 100 is in the form of a rectangular barrel having an open top and a partially open bottom, but the shape is not limited to a rectangular barrel shape.

Here, the auger 200 is rotatably mounted on a rear surface of the ice storage box 100. An inclined surface 105 provided around the auger 200 for allowing the ice to move smoothly in the direction of the auger 200 is provided inside the ice container 100.

The inclined surface 105 is inclined downwardly from the side of the ice storage box 100 toward the auger 200 and the extension of the inclined surface 105 is directed toward the center portion 205 of the auger 200 .

The auger 200 includes a central portion 21 serving as a central axis of rotation and a rotary blade 210 extending outward from an outer peripheral surface of the central portion 205. The rotary blade 210 has a plurality of And are spaced apart from each other.

The rotary vane 210 contacts the opening and closing member 300 to push the opening and closing member 300 to open the opening and closing member 300. The opening and closing member 300 The outer surface portion 211 of the rotary vane 210 contacting with the outer surface portion 300 is convex.

In addition, the inner surface portion 212 located on the opposite side of the outer surface portion 211 is preferably recessed to form a space for receiving ice.

When the auger 200 rotates in the clockwise direction, the opening and closing member 300 contacts the rotary vane 210 and is pushed downward, and the opening and closing member 300, When the contact of the opening and closing member 210 is released, the opening and closing member 300 returns to its original state.

This is because the elastic member (see FIG. 4) 304 for returning the opening and closing member 300 is provided, and this structure will be described later.

In order to limit the return speed of the opening and closing member 300 when the opening and closing member 300 returns, a cam surface 240 contacting the opening and closing member 300 is provided behind the rotary vane 210 And a contact groove 302 is formed at one side of the opening and closing member 300 to allow a part of the cam surface 240 to be inserted and contacted.

The contact grooves 320 are preferably formed in a stepped shape.

3, inclined surfaces 105 and 106 are formed on the lower surface of the ice storage box 100, and the inclined surfaces 105 and 106 are provided on both sides of the auger 200.

On the other hand, it is preferable that the inclined surface 106 formed on the side where the opening and closing member 300 is provided is higher than the inclined surface 105 on the other side.

The inclined surface 105 of the auger 200 is provided at the lower end of the auger 200 so as to guide the ice in the auger 200 direction. Should be slightly higher or substantially the same height as the central portion 205.

However, the inclined surface 106 provided adjacent to the opening and closing member 300 does not guide the ice in the direction of the auger 200, but is provided with ice, which is provided in the lower portion of the auger 200, The difference in height between the upper ends of the inclined surfaces 105 and 106 is inevitable.

On the other hand, by providing the same inclination angle between the inclined surface 106 provided adjacent to the opening and closing member 300 and the upper surface of the opening and closing member 300 in the opened state, the ice smoothly slips in the direction of the ice outlet 102 It is desirable to let them go out.

As shown in FIG. 4, the connection relationship between the ice storage box 100 and the auger 200 is as follows.

A passage hole 115 through which the connection shaft 230 provided on the rear surface of the auger 200 passes is formed in the storage case main body 110 at the rear of the ice storage box 100 do.

The connection shaft 230 passing through the through hole 115 is connected to a rotation motor (not shown) for rotating the auger 200.

On the other hand, a sealing member 140 and a supporting member 150 for supporting the mounting state are provided on the rear side of the auger 200.

The opening and closing member 300 is disposed on one side of the auger 300 and one end of the opening and closing member 300 is rotatably fixed to the ice storage box 100. The other end of the opening and closing member 300 is in contact with the rotary vane 210 of the auger 200 To move up and down.

The opening and closing member 300 is provided at one end thereof with an insertion part 310 inserted into a fixing shaft (not shown) provided in the ice storage box 100 so that the opening and closing member 300 is rotatably supported. Support pieces 311 for supporting the joints are provided on the front and rear of the unit 310, respectively.

The insertion portion 310 of the opening and closing member 300 is provided with an elastic member 304 so that the opening and closing member 300 can be elastically moved.

 One end of the elastic member 304 is in contact with the opening and closing member 300 while the other end of the elastic member 304 is in contact with the ice storage box 100 It is preferable that the spring is composed of a spring.

A first cover member 120 of transparent material is mounted in front of the ice storage box 100 and the auger 200 and the opening and closing member 300 are provided at a front lower portion of the first cover member 120, And a second cover member 122 for preventing the user from seeing.

As shown in FIG. 5, the auger 200 and the opening and closing member 300 are as follows.

It is preferable that the rotary vane 210 is formed so as to extend outward from the outer circumferential surface of the center portion 205 and has a shape of a cross section so as to be bent in a direction opposite to the rotation direction of the auger 200 .

The rotary vane 210 includes a first extension portion 215 extending radially from the central portion 205 and having a greater thickness as it extends in the extension direction, and a second extension portion 215 integrally formed with the first extension portion And a second extension part 216 extending from the first extension part 215 in a direction opposite to the rotation direction of the auger 200 and having a smaller thickness as it goes in the extension direction.

As described above, the outer surface 211 of the rotary vane 210 is convexly formed to be in contact with the opening and closing member 300, and the inner surface portion 212 of the rotary vane 210 Is formed concavely so that the ice can be received.

The surface of the outer surface portion 211 is formed with a tapered portion 218 formed in a tapered shape and the surface of the outer surface portion 211 and the opening and closing member 300 are partially brought into contact with each other by the inclined portion 218 do.

That is, the thickness of the rotary vane 210 is gradually decreased from the rear to the front, thereby forming the inclined portion 218.

The distance between the opening and closing member 300 and the outer surface portion 211 is increased toward the front and the distance between the opening and closing member 300 and the outer surface portion 211 in front of the rotary vane 210 is maximized .

The reason for forming the inclined portion 218 in this way is that when the ice stuck between the outer surface 211 of the rotary vane 210 and the opening and closing member 300 causes stagnation, The ice is moved forward along the inclined portion 218 by the pressing force and then discharged to the lower portion.

A plurality of protrusions 219 are formed on the inner surface portion 212 to reduce the contact area between the ice received in the inner surface portion 212 and the inner surface portion 212, .

6, the outer surface portion 211 is formed in a curved shape protruding in the radial direction, and the outer surface portion 211 and the opening and closing member 300, And to push the ice in the radial direction like the direction A so as to prevent the ice that comes into contact at the same time from sticking therebetween to cause a stagnation phenomenon.

The cam surface 240 is provided on the outer circumferential surface of the support plate 239 provided at the rear of the rotary vane 210 so that when the opening and closing member 300 is returned to the original position by contact with the opening and closing member 300, And functions to limit the speed of the opening and closing member 300.

The cam surface 240 is formed so as to protrude outwardly in a direction opposite to the direction of rotation of the auger 200 in order.

Specifically, in a portion corresponding to a position where one rotary vane 210 is in contact with the opening and closing member 300, a portion corresponding to a position at which the next rotary vane 210 is to be in contact with the opening and closing member 300 The greater the degree of protrusion becomes, the more gradually it becomes.

For this, the number of the cam surfaces 240 preferably corresponds to the number of the rotary vanes 210.

That is, one cam surface starts at S1 and ends at P1. The distance D1 from the center portion 205 to the S1 is the shortest distance, and the distance D2 from the center portion to the P1 is the longest distance , The distance increases from S1 to P1.

Then, a position S2 at which a new cam face starts is formed next to the position P1, and another face at the position P2 is formed to a position P2. This relationship also applies to S3 and P3.

Therefore, the distances between S1, S2, and S3 at the central portion 205 are all the same, and distances between P1, P2, and P3 at the center portion are equal to each other.

Therefore, when the specific one rotary vane 210 makes contact with the opening and closing member 300 for the first time, the lowermost end of the outer surface portion 211 of the rotary vane 210 comes into contact with the opening and closing member 300, At this time, the contact grooves (FIGS. 4 and 5, 302) provided in the opening and closing member 300 are located at S3 (or S1 or S2).

In this state, when the auger 200 rotates, the rotary vane 210 pushes the opening and closing member 300 downward to open the opening and closing member 300. At this time, 211 are in contact with the opening and closing member (300).

When the contact between the opening and closing member 300 and the rotary vane 210 is released, the opening and closing member 300 is returned to its original state by the elastic member 304 (see FIG. 4).

At this time, the contact groove 302 and the cam surface 240 are in contact with each other. As the cam surface 240 moves toward the return direction of the opening and closing member 300, The contact area and the degree of contact between the cam surface 240 and the contact groove 302 are increased.

Accordingly, the presence of the cam surface 240 serves as a resistance of the return motion of the opening and closing member 300, and serves to lower the returning speed of the opening and closing member 300.

This is to prevent breakage of the opening and closing member 300 and other components connected to the opening and closing member 300 when the opening and closing member 300 is closed at a high speed.

Hereinafter, the operation of the present invention will be described with reference to the accompanying drawings.

7, when the rotary vane 210 of the auger 200 and the opening and closing member 300 are kept in contact with each other while the ice storage box 100 is filled with ice, The communication between the ice storage box 102 and the ice storage box 100 is blocked.

At this time, since the upper surface of the opening and closing member 300 is upwardly inclined, the ice can not move in the direction of the ice outlet 102.

When the user presses a lever (not shown) in a dispenser (not shown), the auger 200 rotates as shown in FIG.

The rotary vane 210 in contact with the opening and closing member 300 presses the opening and closing member 300 so that the upper surface of the opening and closing member 300 forms a downward inclination, And is directed to the dispenser (not shown) by falling to the ice outlet 102.

When the auger 200 further rotates and the contact between the rotary vane 210 and the opening and closing member 300 is released, the opening and closing member 300 is returned to the original state by the elastic force, 210 so as to close the ice outlet 102.

As a result of the rotation of the auger 200 and the opening of the opening and closing member 300 as described above, the ice can be vertically dropped in the dispenser direction without having to go through another moving route in the forward and backward directions. 100 can be made thinner than in the prior art.

9 and 10 show a second embodiment of the present invention. In this embodiment, it is disclosed that the auger 200 is inclined.

Also, the ice maker 13 and the ice storage box 1100 are disposed behind the door 10, and a dispenser 30 capable of extracting ice is provided in the lower portion of the ice storage box 1100.

The auger 200 having the rotary vane 210 is preferably disposed at a predetermined angle upward toward the rear of the door 10.

An installation hole 1120 in which the auger 200 is installed is formed on an inclined bottom surface 1110 of the ice storage box 1100 and the auger 200 is rotatable in the installation hole 1120 And a drive unit 280 is provided at the rear of the auger 200.

Accordingly, when the auger 200 rotates, the contact with the opening and closing member 300 causes the rotary vane 210 to push the opening and closing member 300 downward, 30).

The auger 200 and the opening and closing member 300 are the same as those described in the first embodiment, and thus a detailed description thereof will be omitted.

11 shows a third embodiment of the present invention, in which the auger 200 is also installed to be inclined in the ice storage box 2100. Also, a mounting hole 2120 in which the auger 200 is installed is provided, and a driving device 280 is mounted in the rear of the auger 200.

However, the inclined direction is maintained in a state in which the inclined direction is raised by a predetermined angle in the direction toward the side surface of the door 10.

In the second and third embodiments, the position of the auger 200 may be changed depending on the position of various devices mounted on the rear surface of the door 10.

Therefore, the configurations of the auger 200 and the opening and closing member 300 of the third embodiment are the same as those of the first embodiment, and a detailed description thereof will be omitted.

1 is a perspective view of a refrigerator according to the present invention.

2 is a perspective view of an ice storage box and auger according to the present invention.

3 is a front view of an ice storage box and auger according to the present invention.

4 is an exploded perspective view of an ice storage box and auger according to the present invention.

5 is a perspective view of the auger and the opening and closing member according to the present invention.

6 is a front view of the auger and the opening and closing member according to the present invention.

7 is a perspective view showing the closed state of the opening and closing member in the present invention.

8 is a perspective view showing an open state of the opening and closing member in the present invention.

9 is a side sectional view showing a second embodiment of the present invention.

10 is a perspective view of an ice storage box of a second embodiment of the present invention.

11 is a front view of a third embodiment of the present invention.

DESCRIPTION OF THE EMBODIMENTS

100: ice storage box 200: auger

210: rotating blade 240: cam face

300: opening / closing member

Claims (20)

An ice storage box having an ice outlet; An auger which is rotatably installed in the ice storage box and has a rotary blade for moving ice to take out the ice to the outside of the ice storage box; And an opening / closing member which is provided in contact with the auger and opens and closes the ice outlet according to the rotation of the auger, The auger has a central portion which is the center of rotation, Wherein the rotary vanes are provided in a shape that a plurality of the rotary vanes are spaced apart from each other and extend outward from an outer peripheral surface of the center portion, Wherein the rotary blade is formed such that its cross-section is bent in a direction opposite to the rotation direction of the auger so as to receive the ice and push the opening- A first extension extending in the radial direction from the center portion and having a thickness thicker toward the extension direction; And a second extending portion extending from the first extending portion in a direction opposite to the rotation of the auger and thinner in the extending direction. The method according to claim 1, Wherein when the auger is rotated, contact with the opening and closing member starts at a portion where the first extending portion and the second extending portion meet. delete delete The method according to claim 1, Wherein the rotary blade has an inner surface portion having a predetermined curvature and provided in a concave shape to receive ice therein; And an outer surface portion provided in a convex shape to contact the opening and closing member and opening the opening and closing member by pushing the opening and closing member upon rotation of the auger. 6. The method of claim 5, And an inclined portion provided on the outer surface portion to guide the ice trapped between the outer surface portion and the opening and closing member to move forward of the auger when the auger rotation is performed to minimize the opening state of the opening and closing member . The method of claim 6, wherein Wherein the thickness of the rotary vane is gradually reduced from the rear to the front so that the inclined portion can be formed. 6. The method of claim 5, Further comprising a protrusion protruding outwardly from the inner surface portion to reduce a contact area between the ice and the inner surface portion. 6. The method of claim 5, Wherein the outer surface portion is formed in a curved shape so that ice sandwiched between the outer surface portion and the opening and closing member can move in the radial direction of the auger when the auger is rotated. The method according to claim 1, Wherein the opening / closing member is pushed by the rotary vane during rotation of the auger in a state of being in contact with the rotary vane and is rotated to open the ice extraction port and return to its original position when the contact state with the rotary vane is released to close the ice extraction port Wherein the refrigerator is a refrigerator. 11. The method of claim 10, And an elastic member provided at a center of rotation of the opening and closing member for returning the opening and closing member to a home position. 11. The method of claim 10, Further comprising a cam surface provided on an outer circumferential surface of a support plate provided at the rear of the auger and contacting the opening and closing member to limit the returning speed of the opening and closing member upon returning the opening and closing member to the home position. 13. The method of claim 12, Further comprising a contact groove formed in a stepped shape on the opening and closing member and contacting the cam surface. 13. The method of claim 12, The cam surface has a higher degree of successively protruding in the direction opposite to the rotational direction of the auger, Wherein a degree of the protrusion gradually increases from a portion corresponding to a position where one of the rotating blades is brought into contact with the opening and closing member to a portion corresponding to a position where the next rotating blades will contact the opening and closing member. 15. The method of claim 14, And the number of the cam surfaces corresponds to the number of the rotary blades. delete An ice storage box having an ice outlet; An auger which is installed inside the ice storage box and rotates to take out the ice to the outside of the ice storage box; And an opening / closing member which is provided in contact with the auger and opens and closes the ice outlet according to the rotation of the auger, Wherein the auger includes a rotating blade for pushing the opening and closing member to open the opening and closing member and guide the ice held between the auger and the opening and closing member to move in a predetermined direction, Wherein the rotary vane is curved in a curved shape in a direction opposite to a rotation direction of the auger so as to receive the ice and push the opening and closing member, Further comprising a cam surface provided at the rear of the rotary vane and contacting the opening and closing member upon restoration to the home position after opening the opening and closing member to restrict the returning speed of the opening and closing member. 18. The method of claim 17, The rotating blade includes an inner surface portion in which ice can be received; Further comprising an outer surface portion having a curved surface in contact with the opening and closing member. 19. The method of claim 18, The thickness of the rotary vane is gradually decreased from the rear to the front, so that the inclined portion can guide the ice to the front when the ice is caught between the opening and closing member and the outer surface portion Features a refrigerator. delete

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