KR20020059479A - The device of ice transfer for refrigerator - Google Patents

Abstract

PURPOSE: A device for conveying ice of refrigerator is provided to easily push out ice forming into a mass and stored in a storage container. CONSTITUTION: A device includes a rotary axis(200) connected with a motor(114); a discharge device(118) rotating integrally with the rotary axis to push ahead ice; a piston(306) connected with the rotary axis and formed perpendicularly with moving direction of the ice; a vertical moving device comprising a crank part(200') formed on one side of the rotary axis to move up and down the piston, a first rod(302) connected with the crank part and a second rod(304) connecting the first rod with the piston to make the piston reciprocate; and a supportive device comprising a supportive axis(400) with a guide(400') guiding reciprocation of the second rod to support reciprocation of the piston.

Description

The device of ice transfer for refrigerator

The present invention relates to a refrigerator, and to an ice conveying apparatus of a refrigerator for smoothly moving ice produced in an ice maker to a dispensing unit.

Hereinafter, a configuration of a refrigerator ice transfer apparatus according to the prior art will be described in detail with reference to the accompanying drawings.

1 is a longitudinal sectional view showing a refrigerator including an ice conveying apparatus according to the prior art. As shown, an ice maker 10 for producing ice is installed at one side of the freezing chamber 2. In addition, a dispensing unit 4 through which ice produced by the ice maker 10 is discharged to the outside of the freezing chamber 2 is formed.

2 is a longitudinal sectional view of the ice maker showing the inside detail. As shown, an ice maker 12 for manufacturing ice is formed on the ice maker 10. In addition, a storage container 16 for temporarily storing the ice produced from the ice maker 12 is installed under the ice maker 12.

In addition, the discharge device 18 for pushing the stored ice to the front of the ice maker 10 is installed inside the storage container 16. The discharge device 18 is a spiral structure whose one end is connected to the output shaft 14 'of the motor 14 installed on the left side of the storage container 16, and rotates integrally with the output shaft 14'.

In addition, a space is formed in the spiral to prevent a phenomenon in which ice stored by the operation of the discharge device 18 is pushed out at once. In addition, the front of the discharge device 18 is provided with a crushing device 20 for crushing the ice pushed through the discharge device 18. And (20) means the ice stored in the storage container.

Hereinafter, the operation of the refrigerator ice transfer apparatus according to the prior art will be described in detail with reference to the accompanying drawings.

First, the ice produced in the ice maker 10 falls to the storage container 16 and is accumulated in the storage container 16. In addition, when the motor 14 is operated according to the consumer's choice, the discharge device 18 is operated integrally with the motor 14. That is, when the output shaft 14 'is rotated by the operation of the motor 14, the discharge device 18 connected to the output shaft 14' is rotated integrally. At this time, the spiral structure formed in the discharge device 18 is rotated to convert the rotational force of the output shaft (14 ') to a pushing force.

In addition, the ice stored in the storage container 16 is pushed toward the front of the discharge device 18 by the pushing force of the discharge device 18, through the grinding device 20 to the take-out portion 22. Will fall.

However, the ice transport apparatus of the conventional refrigerator poses the following configuration problem.

That is, the ice stored in the storage container 16 is melted at the time of making or frequent opening and closing of the refrigerator door, and the ice in the storage container 16 is stored in a tunnel-shaped mass in the process of melting the frozen ice again. Will be. Therefore, a problem arises that the conventional inner space cannot push out the lumped ice only by the empty spiral discharge device 18.

Accordingly, an object of the present invention for solving the above problems is to provide an ice conveying apparatus of the refrigerator which can easily push out the ice that is stored in the storage container.

1 is a longitudinal sectional view of a refrigerator including an ice conveying apparatus according to the prior art;

Figure 2 is a main longitudinal cross-sectional view showing the ice transport apparatus according to the prior art

Figure 3 is a main longitudinal cross-sectional view showing the ice transport apparatus according to the present invention

Explanation of symbols on the main parts of the drawings

114 ........ Motor 116 .......... Storage Container

118 .......... Discharger 200 .......... Spindle

200 '......... crank section 302 .......... 1st rod

303 .......... Link section 304 .......... Second rod

306 .......... piston part 400 .......... support shaft

400 '......... Guide

Accordingly, a feature of the present invention for achieving the above object is a rotation shaft connected to the motor, a discharge device which is integrally rotated with the rotation shaft to push the ice forward, and is connected to the rotation shaft and formed perpendicular to the direction of travel of the ice And a piston, lifting means for reciprocating the piston, and support means for supporting the reciprocation of the piston.

The elevating means includes a crank portion formed on the rotation shaft, a first rod having one side connected to the crank portion to reciprocate, and a second rod having one side connected to the first rod and the other side connected to the piston. It is preferable to be configured.

In addition, the support means is preferably composed of a support shaft having a guide for reciprocating the second rod.

According to such a configuration, even if the ice stored in the storage container is agglomerated, since the agglomerated ice can be crushed by the reciprocating vertical movement of the piston, the effect of smoothly taking out the ice through the discharge device is expected. .

Hereinafter, the configuration of the ice conveying apparatus of the refrigerator according to the present invention will be described in detail with reference to the preferred embodiment shown in the drawings.

Figure 3 is a longitudinal cross-sectional view showing the main portion showing the ice transport apparatus according to the present invention. As shown, the discharge device 118 is formed in the storage container 116 in which the ice produced by the ice making unit (not shown) is stored. One side of the discharge device 118 is connected to the output shaft 114 'of the motor 114 to rotate integrally with the output shaft 114'. The discharge device 118 is a spiral structure that can convert the rotational force of the output shaft 114 'into a pushing force.

An empty space is formed inside the discharge device 118. This is to prevent the ice stored in the storage container 116 from being pushed at a time. That is, if the spiral structure has a disc shape and no empty space is formed therein, the ice stored in the storage container 116 is pushed out temporarily by the operation of the discharge device 118 so that more ice is taken out. It is taken out through the wealth or the accumulation of ice occurs in front of the discharge device (118).

On the other hand, in the inner space of the discharge device 118, one side is connected to the output shaft 114 'of the motor 114 is provided with a rotating shaft 200 to rotate integrally with the discharge device 118. And one side of the rotating shaft 200 is provided with a lifting means for moving the piston 306 up and down.

The elevating means is formed on one side of the rotation shaft 200 and the first rod 302 and the crank portion 200 'and the crank portion 200' for moving the piston 306 to be described below up and down, and the It consists of a second rod 304 connecting the first rod 302 and the piston 306.

The crank part 200 ′ is coupled to a through hole formed at one end of the first rod 302. The crank portion 200 'is formed to have a thickness smaller than the diameter of the through hole so that the first rod 302 moves up and down as the crank portion 200' is rotated.

The first rod 302 and the second rod 304 are connected by a link unit 303. The link unit 303 freely connects the first rod 302 and the second rod 304. That is, the link unit 303 is to be able to convert the left and right movement of the first rod 302 into the vertical movement of the second rod 304.

However, the lifting means of the piston 306 can be modified in many other ways. In other words, any device capable of reciprocating the piston 306 up and down is possible.

On the other hand, the vertical reciprocating motion of the piston 306 is supported by the support means. The support means is composed of a support shaft 400 having a guide 400 'as shown in the figure. The support shaft 400 is installed in parallel with the rotation shaft 200. One side of the support shaft 400 is formed with a guide 400 ′ having a through hole therein. The second rod 304 is inserted into the through hole in the guide 400 ', and the second rod 304 is guided to the guide 400' to perform a vertical movement.

However, the shape of the support means is possible in many other variations. For example, the support shaft 400 may be perpendicular to the rotation shaft 200 by connecting both ends to both sides of the storage container 116 case without forming the support shaft 400 in parallel with the rotation shaft 200. That is, the support shaft 400 may be in any form as long as it can support the second rod 304 through the guide 400 ′ formed at one side.

Hereinafter, the operation of the ice conveying apparatus of the refrigerator according to the present invention will be described in detail with reference to the preferred embodiment shown in the drawings.

First, when the ice maker 112 is operated, the motor 114 is operated, and the output shaft 114 ′, the rotation shaft 200, and the discharge device 118 of the motor 114 rotate integrally. . Therefore, the ice contacting the discharge device 118 is pushed forward of the discharge device 118 by the rotation of the discharge device 118. At the same time, the piston 306 connected to the rotary shaft 200 performs a linear movement up and down.

In this regard, the crank part 200 'is rotated by the rotation of the rotation shaft 200, and the first rod 302 and the second rod 304 are rotated by the crank part 200'. Will reciprocate up and down. In this case, the second rod 304 is guided to the guide 400 ′ to perform the vertical movement in the vertical direction, so that the piston 306 performs the linear movement in the vertical direction.

Therefore, the agglomerated ice is scattered in a form easy to move by the discharge device 118 by the vertical movement of the piston 306 is pushed to the front of the discharge device 118.

Within this technical scope of the present invention, many other modifications are possible to a person skilled in the art.

Therefore, according to the configuration of the ice conveying apparatus of the refrigerator according to the present invention, the following effects are expected.

That is, by mounting the piston as the lifting means and the support means inside the discharge device and the linear movement up and down simultaneously with the rotation of the discharge device it is possible to easily take out the crushed ice even if the ice stored in the storage container is lumped The effect is expected.

Claims (3)

A rotating shaft connected to the motor; A discharge device which rotates integrally with the rotary shaft and pushes the ice forward; A piston connected to the rotating shaft and formed perpendicular to a moving direction of the ice; Lifting means for reciprocating the piston; Ice conveying apparatus of the refrigerator characterized in that it comprises a support means for supporting the reciprocating motion of the piston According to claim 1, The lifting means is a crank portion formed on the rotating shaft, the first rod is connected to one side is connected to the crank portion reciprocating, the first side is connected to the first rod and the other side is connected to the piston Ice transfer device of the refrigerator, characterized in that comprising a 2 rod According to claim 1, wherein the support means Ice transfer device of the refrigerator characterized in that the support shaft is provided with a guide for guiding the reciprocating motion of the second rod