KR19990034650A - Control Method of Automatic Ice Maker - Google Patents

Abstract

A control method of an ice maker in a refrigerator capable of receiving ice without opening the door of the refrigerator is disclosed.

According to the present invention, the step of applying the power to operate the ice maker, the step of detecting the temperature of the water stored in the ice making vessel through the temperature detection sensor, and determines whether the detected water temperature is the set ice making temperature to operate the motor And dropping the unit ice in the ice-making container into the flow path through the tray, detecting whether the flow path has been filled after a predetermined time and detecting the amount of water if the ice is not in the ice detection step. In the step of detecting the amount of water characterized in that the control method of the automatic ice maker having a step of supplying water to the ice maker when not enough water.

Description

Control Method of Automatic Ice Maker

The present invention relates to a refrigerator provided with an ice feeder, and more particularly, to a control method of an automatic ice maker for controlling an ice making operation by installing an ice detection sensor in an ice supply flow path installed in a door.

In general, an automatic ice maker is installed in a freezer compartment of a refrigerator to automatically supply ice making water to a tray and check an ice making state, and when ice making is completed, the ice making machine automatically removes iced ice from a dray and loads the ice in a ice making container. As it is very convenient because there is no need for a user's separate operation for operation, it has recently become an essential component of a refrigerator.

As such an ice feeder is attached to a predetermined position of the freezer compartment 5 as shown in FIG. 1, the ice feeder 10 is well known and will not be described.

In order to prevent the ice supplied from the ice feeder 10 from gradually accumulating in the ice tray 20 and overflowing from the ice tray 20, the temperature change of the ice tray 20 at a lower predetermined position of the ice tray 20 is prevented. The sensor 30 is mounted to detect the ice making state and the ice state.

However, in a refrigerator equipped with such an ice maker, since the ice is stored in the ice tray inside the freezer, the user must receive the iced ice with the door of the refrigerator open to receive the iced ice. Since the door must be opened every time the ice is received, there is a problem that the cooling efficiency is reduced due to the temperature decrease in the refrigerating chamber and the ice cannot be easily received from the outside of the door.

In recent years, research has been actively conducted on how ice can be collected without opening the door.

Accordingly, the present invention has been made in view of such a conventional problem, an object of the present invention is to form a user can receive the ice ice in the ice feeder without opening the refrigerator door, the flow path and ice In the refrigerator with the ice feeder that communicates the bottom of the tray so that the iced ice can be moved downward along this flow path to the outside of the refrigerator door, but if the refrigerator door is opened to take out other foods, the ice does not fall. A method of controlling an ice maker associated with the ice feeder.

1 is a cross-sectional view showing a refrigerator equipped with a conventional ice feeder.

2 is a cross-sectional view showing a refrigerator provided with an ice maker according to the present invention.

3 is a block diagram according to the present invention.

4 is a flowchart for implementing the present invention.

<Explanation of symbols for main parts of the drawings>

120: function selection unit 140: ice sensor

190: control unit 315: euro

320: ice maker 360: time relay

The control method of the automatic ice maker for achieving the object of the present invention, a storage tray for storing a predetermined amount of ice from the ice maker disposed in the freezer compartment, and for communicating with the bottom of the ice storage tray for collecting ice Control of an automatic ice maker in a refrigerator installed in the door in conjunction with an ice maker, an ice feeder including a flow path, an ice discharge port formed in the door to be discharged to the outside of the door along the flow path, and an opening and closing means for selectively opening and closing the ice flow path. A method comprising: applying an electric power to activate an ice maker, detecting a temperature of water stored in the ice maker through a temperature detection sensor, and operating a motor by determining whether the detected water temperature is a set ice making temperature. And dropping the unit ice in the ice making container into the flow path through the tray; Detecting whether the flow path is full afterwards, detecting the amount of water if the flow rate is not full in the ice detection step, and supplying water to the ice maker if the water amount is not sufficient in the amount of water detection step. It features.

Hereinafter, a control method of an automatic ice maker according to the present invention will be described with reference to FIGS. 2, 3, and 4.

The ice maker 310 to which the present invention is applied generally has an ice tray 310 having an operation switch unit 125, a controller 190, an ice receiving pocket 305 installed through the refrigerator door 300, and an inclined flow path 315. ), An ice maker 320 for supplying ice ice to the ice tray 310, and a solenoid portion 330 for blocking or selectively opening the inclined flow path 315 of the ice tray 310.

3 is a block diagram showing the configuration of the ice feeder with reference to the block diagram as follows.

Power supply unit 110 for supplying a driving voltage in the ice maker 320, the tray position detection unit 130 for detecting the current position of the ice tray 310, and mounted on the outer surface of the refrigerator so that the user can select the automatic ice making function And a function selection unit 120 listing a plurality of function keys, an ice motor rotation control unit 160 for controlling a rotation state of the ice motor 165, and a water supply motor for supplying ice-making water to the ice tray 310. A water supply motor rotation control unit 170 for controlling the rotation state of the 175, an ice making unit 180 mounted at the lower end of the ice tray 310 to check the ice state, a microcomputer for controlling the above-mentioned components, The same control unit (CPU) 190 or the like.

Here, the function selection unit 120 is provided with an ice receiving button 125 which is an operation switch unit for receiving iced ice in addition to the automatic ice making function selection.

The ice iced by the ice maker 320 having such a configuration is supplied back to the ice tray 310 formed on the bottom of the ice feeder 320, and the ice tray 310 accommodates a predetermined number of ices. It has an accommodating structure, and is inclined to have a predetermined inclination with respect to the horizontal.

In addition, the bottom of the ice tray 310 is formed with a pipe-shaped ice flow path 315 formed so that two or three pieces of ice can pass at the same time, the upper surface of the ice tray 310 to the ice tray 310 An ice sensor 340 is configured to detect how much ice is stored.

The ice sensor 340 may use various object detection sensors other than a temperature sensor and an optical sensor, but in the present invention, a temperature sensor is used.

In this way, the ice passage 315 in which the ice tray 310 is formed extends to the surface of the door 300 of the freezing chamber 340.

On the other hand, the through hole is formed in a position corresponding to the end of the ice flow path 315 in the door 300, the bottom of the through hole is formed with an ice storage pocket 305 that can accommodate the ice, the ice storage The pocket 305 may be detachably installed from the door 300.

On the other hand, a solenoid 330 electrically blocking or opening the ice flow path and an ice block / open piece 335 that is formed and moved on the solenoid 330 are formed at the lowermost end of the ice flow path 315.

Optionally, a time relay 360 is associated with the ice receiving button 125, so that the controller can detect whether or not the ice is full after a predetermined time as described in detail below.

4 is a flowchart illustrating a method of making an ice maker in a refrigerator in which an ice supply unit is provided in a flow path in a refrigerator door as described above, and in detail, when the automatic ice maker is driven with power applied (step 401), Detects the temperature of the water stored in the ice making vessel through the temperature detection sensor (step 402).

If the temperature of the water detected in the step 302 is below the set temperature, for example, -12.5 ° C, the controller determines that ice making is completed and rotates the driving motor to drop each unit in the ice making container into the flow path (step 403). ).

On the other hand, when the ice is iced as described above is stored in the flow path, the control unit detects whether the ice flow is completely filled with the ice detection sensor (step 405).

Then, if the flow path is filled with ice, the control unit stops the ice making operation, and if the flow path is not filled with ice, the water supply motor is driven for a predetermined time to supply water into the ice-making container (step 406), and the water tank through the water holding rod It is detected whether or not water remains in step S407.

After detecting that no water is stored in the water tank, the controller determines that an appropriate amount of water has been supplied to the ice making container (step 408), and if the water is detected, an appropriate amount of water is not supplied to the ice making container. If not, the water supply operation is repeatedly executed twice (step 409).

At this time, when the water-retaining rod detects water stored in the water tank despite two times of water supply, the controller determines that the automatic ice maker is malfunctioning and informs the user that an error has occurred.

In particular, in the ice making control method according to the present invention, the time delay 360 detects whether or not the ice is filled after a certain period of time, for example, for 10 seconds between the ice-making step 403 and the ice-making step 405. Step 404 is included, which takes into account the time at which the ice falls from the icemaker to the flow path during the ice stage 403 and the ice fills up to the sensor 360, for accurate detection of the full ice.

As described above, if the ice feeder is installed in the refrigerator door in a flow path manner, it is possible to receive ice conveniently and hygienically, and also to accurately control the ice making operation.

Claims (1)

A storage tray for storing a predetermined amount of ice from an ice maker disposed in a freezer compartment, a flow passage communicating with the bottom of the ice storage tray and collecting ice, and an ice discharge port formed in the door to be discharged to the outside of the door along the flow passage And a control method of an automatic ice maker in a refrigerator installed at a door in association with an ice maker, the ice supply including opening and closing means for selectively opening and closing the ice flow passage, the method comprising: applying an electric power to activate the ice maker; Detecting the temperature of the water stored in the ice-making vessel through a detection sensor; determining whether the detected water temperature is a set ice-making temperature; operating a motor; and dropping the unit ice in the ice-making vessel to the flow path through the tray; In the step of detecting whether the flow of the ice after a predetermined time elapsed and in the ice detection step A control method of an automatic ice maker is not the ice state comprising the step of supplying water to the ice maker when the water that is not sufficient and in step, the water-amount detection step of detecting a water quantity.