KR100266594B1 - Method for separating ice cubes of icemaker for complex refrigerator - Google Patents

Abstract

PURPOSE: A method for separating ice cubes of an icemaker is provided to smoothly transfer ice cubes to a dispenser unit from a storage container even when the ice cubes are adhered to each other. CONSTITUTION: A method for separating ice cubes comprises the steps of deciding the elapse of the icing time(t1) after an ice dispensing button is selected lastly, transferring the ice cubes in an ice storage container in the direction opposite to an ice input port by backward rotating a motor for a specific time(t2), and separating the ice cubes adhered to each other by forward rotating the motor for a specific time(t3x0.4-0.7) and transferring the ice cubes toward the ice input port.

Description

Ice Separation Control Method of Combined Refrigerator Ice Maker

The present invention relates to an ice maker for making ice by receiving water supplied into a refrigerator main body, and in particular, an ice separation control method for an ice maker for a multiple refrigerator that can separate ice stored in a state where the ice is entangled in the storage container of the ice maker. It is about.

In general, unlike the upright refrigerator having a freezer compartment and a refrigerating compartment up and down, the combined refrigerator is a large-capacity refrigerator having a complex performance of various functions in which the freezer compartment and the refrigerating compartment are arranged left and right. In addition to the basic configuration of the freezer compartment 110 for storing food and the freezer compartment 120 for storing food as shown in FIG. 1, the composite refrigerator can receive ice or water in a cup by pressing a user's selection button. It also includes a dispense function. Various functions are provided inside the main body 100 of the composite refrigerator for this function, and the inside of the refrigerator main body 100 may be connected to an external water source and a pipe to filter the water supplied through the pipe. The filter unit 1, the water supply valve 2 for selectively blocking and opening the water supply passage of the water purified by the filtering unit 1, and the water supplied through the pipe from the water supply valve (2) The ice maker 3 for ice making, the water tank 4 for storing a predetermined amount of water supplied through the pipe from the water supply valve 2, and the pipe from the ice or water tank 4 made in the ice maker 3 Dispensing unit 5 is provided to drink the water supplied through the cup selectively by pressing a button of the user. The ice maker 3 receives the water supplied as shown in FIG. 2 and performs an ice making stroke with cold inside the freezer compartment. The ice maker 3 uses ice produced by the ice maker 3A as heat. A heater (not shown) mounted on the bottom surface of the ice maker 3A for separating from 3A, and the ice maker 3A for taking out the ice separated from the ice maker 3A by the heater. A take-out container 3B rotatably installed at an upper side of the storage container, a storage container 3C for receiving a portion of ice taken out by the rotation of the take-out machine 3B from the lower side of the ice making container 3A, and storing a predetermined amount; It is comprised by the means for conveying the ice contained in the said storage container 3C to the said dispense part 5 side. Also, as the transfer means, a transfer machine 3E is provided inside the storage container 3C, and the transfer machine 3E is driven by the driving force of the motor 3F provided on the outside of the storage container 3C. It is connected to the shaft (3G) so that it can be operated, the front end of the conveyor (3E) is provided with a rotary distributor (3H) for dividing into a shape for each ice type desired by the user. In addition, the ice container 3C is formed in the storage container 3C so that the ice transferred by the feeder 3E can be introduced into the dispensing unit 5 on the freezing chamber door 110A side. Part 5 has a cup inserting opening (5A) and a blowout port (not shown) is formed on the upper side thereof so as to be in communication with the ice inlet (3D), the front of the ice maker (3) by pressing the user A panel (not shown) provided with several buttons is provided so as to receive the ice of the ice or the water of the water tank 4 in a cup.

The composite refrigerator configured as described above is operated such that a user can directly receive ice or water frozen in a cup while performing a refrigerating and freezing function according to the principle of a refrigeration cycle like a conventional refrigerator. Same as First, the water supply stroke is made into the refrigerator main body 100 through a pipe from an external water supply source. The water supplied in this way is purified through the filtering unit 1 and flows into the water supply valve 2 through the pipe, and the water introduced into the water supply valve 2 is selectively directed to the ice maker 3 through the upper pipe. The water is supplied to the water tank 4 through the lower pipe or the lower side pipe, the ice maker 3 ices the water supply, and the water tank 4 stores a predetermined amount of water. In this state, the user selects a plurality of buttons provided on the panel of the dispensing unit 5, and if the ice is desired, the ice selection button is pressed, and if the water is desired, the water selection button is pressed by pressing the dispense unit 5. Through the optional ice or water in the cup will be able to drink.

On the other hand, Figure 3 is a flow chart showing the operating state of the dispensing unit according to the conventional ice selection, as shown in the ice making operation by the ice maker 3, as shown therein, in the ice maker 3A of the ice maker 3 The ice is taken out by the rotation of the take-out container 3B, and the extracted ice is collected in the lower storage container 3C of the ice making container 3A and stored in a predetermined amount. In addition, the ice-making container 3A is repeatedly formed with a water supply stroke, and ice is collected in the storage container 3C by pressing the ice selection button provided in the dispensing unit 5. It is conveyed to (5) side. That is, when the user presses the ice selection button of the dispense unit 5 while a certain amount of ice is stored in the storage container 3C, the motor 3F is driven while the motor 3F is rotated forward according to the operation signal thereof, and the driving force thereof is The feeder 3E connected to the motor 3F and the shaft 3G is rotated forward to transfer the ice in the storage container 3C to the ice inlet 3D, thereby dispensing the ice through the ice inlet 3D. It is made to transfer to the part 5 side. After the ice transfer by the feeder 3E is completed, the motor 3F is turned off again to end the operation of the dispense unit by ice selection.

However, such a conventional refrigerator is a phenomenon that the ice stored in the storage container is entangled with each other when the ice stored in the storage container is left unused for a long time through an ice making stroke, so that the distribution of the ice is smoothly used when the ice is used. There was a problem that the dispensing function is lowered by not being made. Therefore, an object of the present invention is to allow the ice stored in the storage container to be more smoothly transferred to the dispensing unit whenever the user wants the ice stored in the storage container without using the ice for a long time.

1 is a perspective view schematically showing the configuration of a general composite refrigerator.

Figure 2 is a cross-sectional view showing the internal structure of a conventional refrigerator ice maker.

Figure 3 is a flow chart showing the operation of the dispense unit by the conventional ice selection.

Figure 4 is a flow chart showing the operation of the ice selection dispenser according to the present invention.

<Explanation of symbols for main parts of drawing>

1: filtering part 2: water supply valve

3: ice maker 3A: ice maker

3B: Outlet Machine 3C: Storage Container

3D: Ice Inlet 3E: Conveyor

3F: Motor 3G: Axis

3H: Rotary distributor 4: Water tank

5: Dispensing part 5A: Cup insertion opening

In order to achieve the object of the present invention, the water supplied to the ice making vessel through the ice making stroke is iced, the ice in the ice making vessel is taken out and stored in the storage container in a predetermined amount by pressing the ice selection button provided in the dispensing motor. In order to transfer the ice in the storage container to the dispensing unit by rotating the feeder connected to the motor and the shaft, how long has passed the ice making time (t1) in which the ice selection button is not pressed? A first process of determining; A second process of rotating the motor in reverse direction for a predetermined time t2 when the ice making time t1 passes the set time and transferring ice in the storage container in the opposite direction to the ice inlet; In order to transfer the conveyed ice back to the ice inlet side, the motor is rotated forward again for a predetermined time (t3 × 0.4 ~ 0.7) and left for a long time to separate the intertwined ice, characterized in that the composite refrigerator comprising a An ice separation control method of a melter is provided.

Hereinafter, the method of the present invention will be described in more detail with reference to the accompanying drawings.

3 is a flowchart illustrating an operation process of the dispense unit according to the conventional ice selection, Figure 4 is a flow diagram showing the operation process of the ice selection dispenser according to the present invention. In the combined refrigerator, water is supplied to the ice maker 3A of the ice maker 3 as usual, and the supplied water is iced by cold air circulating inside the freezer compartment. The ice in the ice maker 3A is separated from the ice maker 3A by a heater, and then taken out by the rotation of the take-out machine 3B provided on the upper side of the ice maker 3A. A predetermined amount is stored in the storage container 3C provided on the lower side of the ice making container 3A. In this state, when the user presses the ice selection button provided in the dispensing unit 5 to use ice, an operation signal command is given to the motor 3F by pressing it, and the driving force of the motor 3F is driven. It is transferred to the feeder 3E inside the storage container 3C connected by 3F and the shaft 3G. Accordingly, the conveyor 3E transfers the ice in the storage container 3C to the ice inlet 3D, and the ice transferred to the ice inlet 3D is dispensed through the ice inlet 3D. 5) is supplied.

In this composite refrigerator, the present invention is to prevent the phenomenon that the ice in the storage container (3C) tangling with each other as the use of the ice by pressing the ice selection button () of the dispense unit 5 for a long time. By not using ice for the microcomputer (not shown), the time in which the ice in the storage container 3C is entangled with each other, that is, the ice making time t1, is set in advance. After the ice making time t1 has elapsed, the motor 3F is set to be reversely rotated for a predetermined time t2, and when the time elapses, the motor 3F is automatically turned off. The forward rotation time of the motor (3F) is set to t3 × 0.4 ~ 0.7, that is to maintain 40 to 70% of the reverse rotation time of the motor (3F) by the storage container ( The ice in the 3C) is configured to not escape through the ice inlet (3D).

The following describes the operation of the present invention with reference to FIG.

First, when a certain amount of ice is stored in the storage container 3C through the ice making stroke, and the user presses the ice selection button on the dispensing unit 5 to use the ice, the motor 3F is operated to operate the motor 3F. ) And the conveyor 3E connected to the shaft 3G is rotated, and the ice inside the storage container 3C is transferred to the dispensing unit 5 through the ice inlet 3D by the rotation thereof. It is possible to use ice in a cup, and its operation is the same as in the prior art. However, when the user does not press the ice selection button of the dispense unit 5 for a long time, that is, the state does not use the ice for a long time, the ice in the storage container (3C) is tangled with each other and the The ice supply by pressing the ice selection button is not made smoothly, the micom determines that when the time in which the ice in the storage container (3C) is entangled with each other, that is, the ice making time (t1) set in the micom has elapsed. The motor 3F is then given a reverse rotation operation command. Accordingly, the motor 3F is reversely rotated for a predetermined time t2, and the reverse rotation of the motor 3F also reverses the feeder 3E in the storage container 3C connected to the shaft 3G with the motor 3F. Then, the ice in the storage container 3C is transferred in the opposite direction of the ice inlet 3D. After the reverse rotation operation of the motor 3F is elapsed for a predetermined time t2, the motor 3F is automatically turned off, and the motor 3F is again operated by a microcomputer operation control signal. During the forward rotation during t3 × 0.4 ~ 0.7), the tangled ice is separated from each other in the storage container 3C. After the ice is separated from each other by the forward and reverse rotation of the motor 3F, the motor 3F is turned off and the work is finished again.

As such, the present invention provides the ice supply by pressing the ice selection button of the dispensing unit by removing the ice entanglement in the storage container due to the user's not using the ice for a long time so that the motor can be rotated forward and backward by the microcomputer's judgment and operation command. Not only can it be performed more smoothly, but also it can reduce vibration and noise generated when supplying ice, which has the effect of further increasing the performance and reliability of the device as well as ease of use.

Claims (1)

Water supplied to the ice making vessel is iced through the ice making stroke, and the ice in the ice making vessel is taken out and stored in the storage container for a predetermined amount to operate the motor by pressing an ice selection button provided in the dispensing unit and connected to the motor and the shaft. In the step of transferring the ice in the storage container to the dispensing unit by the rotation of the conveyor, the first process of determining how long the ice making time (t1) while the pressing operation of the ice selection button has not been made; ; A second process of rotating the motor in reverse direction for a predetermined time t2 when the ice making time t1 passes the set time and transferring ice in the storage container in the opposite direction to the ice inlet; In order to transfer the conveyed ice back to the ice inlet side, the motor is rotated forward again for a predetermined time (t3 × 0.4 ~ 0.7) and left for a long time to separate the intertwined ice, characterized in that the composite refrigerator comprising a Ice control method of ice maker.

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